FREESCALE XCB56364PV100

Freescale Semiconductor
Technical Data
Document Number: DSP56364
Rev. 4.1, 10/2007
DSP56364
24-Bit Audio Digital Signal Processor
1
Overview
The DSP56364 supports digital audio applications
requiring sound field processing, acoustic equalization,
and other digital audio algorithms. The DSP56364 uses
the high performance, single-clock-per-cycle DSP56300
core family of programmable CMOS digital signal
processors (DSPs) combined with the audio signal
processing capability of the Freescale Symphony™ DSP
family, as shown in Figure 1-1. This design provides a
two-fold performance increase over Freescale’s popular
Symphony family of DSPs while retaining code
compatibility. Significant architectural enhancements
include a barrel shifter, 24-bit addressing, instruction
cache, and direct memory access (DMA). The
DSP56364 offers 100 million instructions per second
(MIPS) using an internal 100 MHz clock at 3.3 V.
Contents
1
2
3
4
5
6
A
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Signal/Connection Descriptions . . . . . . . . . 2-1
Specifications . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Packaging . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
Design Considerations . . . . . . . . . . . . . . . . 5-1
Ordering Information . . . . . . . . . . . . . . . . . . 6-1
IBIS Model . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1
Freescale reserves the right to change the detail specifications as may be required to permit improvements in the design of its
products.
© Freescale Semiconductor, Inc., 2006, 2007. All rights reserved.
Overview
Data Sheet Conventions
This data sheet uses the following conventions:
OVERBAR
Used to indicate a signal that is active when pulled low (For example, the RESET pin is active
when low.)
“asserted”
Means that a high true (active high) signal is high or that a low true (active low) signal is low
“deasserted”
Means that a high true (active high) signal is low or that a low true (active low) signal is high
Examples:
Signal/Symbol
Logic State
Signal State
Voltage*
PIN
True
Asserted
VIL / VOL
PIN
False
Deasserted
VIH / VOH
PIN
True
Asserted
VIH / VOH
PIN
False
Deasserted
VIL / VOL
Note: *Values for VIL, VOL, VIH, and VOH are defined by individual product specifications.
4
12
ESAI
GPIO
5
SHI
PROGRAM RAM
0.5K x 24
PROGRAM ROM
8K x 24
PERIPHERAL
EXPANSION
AREA
X
MEMORY
RAM
1K X 24
Y
MEMORY
RAM
1.5K X 24
SIX CHANNELS
DMA UNIT
YM_EB
YAB
XAB
PAB
DAB
XM_EB
PM_EB
ADDRESS
GENERATION UNIT
PIO_EB
Bootstrap ROM
192 x 24
MEMORY
EXPANSION
AREA
ADDRESS
EXTERNAL
ADDRESS
BUS
SWITCH
24-BIT
DSP56300
CORE
DRAM & SRAM
BUS
INTERFACE
18
CONTROL
6
DDB
YDB
INTERNAL
DATA BUS
SWITCH
EXTERNAL
DATA BUS
SWITCH
XDB
PDB
DATA
8
GDB
POWER
MGMT
PLL
CLOCK
GEN
EXTAL
RESET
PINIT/NMI
PROGRAM
INTERRUPT
CONT
PROGRAM
DECODE
CONT
MODA/IRQA
PROGRAM
ADDRESS
GEN
DATA ALU
24 X 24+56→56-BIT MAC
TWO 56-BIT
ACCUMULATORS
BARREL SHIFTER
JTAG
4
OnCE™
24 BITS BUS
MODB/IRQB
MODD/IRQD
Figure 1-1 DSP56364 Block Diagram
DSP56364 Technical Data, Rev. 4.1
1-2
Freescale Semiconductor
Overview
1.1
1.1.1
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•
•
1.1.2
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•
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1.1.3
•
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1.1.4
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Features
Digital Signal Processing Core
100 Million Instructions Per Second (MIPS) with an 100 MHz clock at 3.3V.
Object Code Compatible with the 56000 core.
Data ALU with a 24 × 24 bit multiplier-accumulator and a 56-bit barrel shifter. 16-bit arithmetic
support.
Program Control with position independent code support and instruction cache support.
Six-channel DMA controller.
PLL based clocking with a wide range of frequency multiplications (1 to 4096), predivider factors
(1 to 16) and power saving clock divider (2i: i = 0 to 7). Reduces clock noise.
Internal address tracing support and OnCE™ for Hardware/Software debugging.
JTAG port.
Very low-power CMOS design, fully static design with operating frequencies down to DC.
STOP and WAIT low-power standby modes.
On-Chip Memory Configuration
1.5K × 24 Bit Y-Data RAM.
1K × 24 Bit X-Data RAM.
8K × 24 Bit Program ROM.
0.5K × 24 Bit Program RAM and 192 × 24 Bit Bootstrap ROM.
0.75K × 24 Bit from Y Data RAM can be switched to Program RAM resulting in up to 1.25K × 24
Bit of Program RAM.
Off-Chip Memory Expansion
External Memory Expansion Port with 8-bit data bus.
Off-chip expansion up to 2 × 16M × 8-bit word of Data/Program memory when using DRAM.
Off-chip expansion up to 2 × 256k × 8-bit word of Data/Program memory when using SRAM.
Simultaneous glueless interface to SRAM and DRAM.
Peripheral Modules
Enhanced Serial Audio Interface (ESAI): 6 serial lines, 4 selectable as receive or transmit and 2
transmit only, master or slave. I2S, Sony, AC97, network and other programmable protocols.
Unused pins of ESAI may be used as GPIO lines.
Serial Host Interface (SHI): SPI and I2C protocols, 10-word receive FIFO, support for 8, 16 and
24-bit words.
Four dedicated GPIO lines.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
1-3
Overview
1.1.5
•
1.2
Packaging
100-pin plastic TQFP package.
Documentation
Table 1-1 lists the documents that provide a complete description of the DSP56364 and are required to
design properly with the part. Documentation is available from a local Freescale distributor, a Freescale
semiconductor sales office, a Freescale Literature Distribution Center, or through the Freescale DSP home
page on the Internet (the source for the latest information).
Table 1-1 DSP56364 Documentation
Document Name
Description
Order Number
DSP56300 Family Manual
Detailed description of the 56000-family
architecture and the 24-bit core processor and
instruction set
DSP56300FM
DSP56364 User’s Manual
Detailed description of memory, peripherals, and
interfaces
DSP56364UM
DSP56364 Product Brief
Brief description of the chip
DSP56364 Technical Data Sheet
(this document)
Electrical and timing specifications; pin and
package descriptions
DSP56364P
DSP56364
DSP56364 Technical Data, Rev. 4.1
1-4
Freescale Semiconductor
2
Signal/Connection Descriptions
2.1
Signal Groupings
The input and output signals of the DSP56364 are organized into functional groups, which are listed in
Table 2-1 and illustrated in Figure 2-1.
The DSP56364 is operated from a 3.3 V supply; however, some of the inputs can tolerate 5 V. A special
notice for this feature is added to the signal descriptions of those inputs.
Table 2-1 DSP56364 Functional Signal Groupings
Number of
Signals
Detailed
Description
Power (VCC)
18
Table 2-2
Ground (GND)
14
Table 2-3
Clock and PLL
3
Table 2-4
Address bus
18
Table 2-5
8
Table 2-6
Bus control
6
Table 2-7
Interrupt and mode control
4
Table 2-8
4
Table 2-12
5
Table 2-9
12
Table 2-10
4
Table 2-11
Functional Group
Data bus
General Purpose I/O
Port A1
Port B2
SHI
ESAI
Port C3
JTAG/OnCE Port
1
Port A is the external memory interface port, including the external address bus, data bus, and control signals.
Port B signals are the GPIO signals.
3 Port C signals are the ESAI port signals multiplexed with the GPIO signals.
2
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
2-1
Signal Groupings
OnCE™ ON-CHIP EMULATION/
JTAG PORT
PORT A ADDRESS BUS
TDI
TCK
TDO
TMS
A0-A17
VCCA (4)
GNDA (4)
DSP56364
PORT A DATA BUS
D0-D7
VCCD (1)
Port B
GPIO
PB0-PB3
GNDD (1)
PORT A BUS CONTROL
AA0-AA1/RAS0-RAS1
CAS
RD
WR
TA
VCCC (1)
GNDC (1)
RESERVED (4)
SERIAL AUDIO INTERFACE (ESAI)
Port C
SCKT [PC3]
FST [PC4]
HCKT [PC5]
SCKR [PC0]
FSR [PC1]
HCKR [PC2]
SDO0 [PC11]
SDO1 [PC10]
SDO2/SDI3 [PC9]
SDO3/SDI2 [PC8]
SDO4/SDI1 [PC7]
SDO5/SDI0 [PC6]
VCCSS (3)
GNDS (3)
INTERRUPT AND
MODE CONTROL
MODA/IRQA
MODB/IRQB
MODD/IRQD
RESET
PLL AND CLOCK
PINIT/NMI
PCAP
VCCP
GNDP
SERIAL HOST INTERFACE (SHI)
MOSI/HA0
SS/HA2
MISO/SDA
SCK/SCL
EXTAL
HREQ
QUIET POWER
VCCHQ (4)
VCCLQ (4)
GNDQ (4)
Figure 2-1 Signals Identified by Functional Group
DSP56364 Technical Data, Rev. 4.1
2-2
Freescale Semiconductor
Power
2.2
Power
Table 2-2 Power Inputs
Power Name
Description
VCCP
PLL Power—VCCP is VCC dedicated for PLL use. The voltage should be well-regulated and the input should
be provided with an extremely low impedance path to the VCC power rail. There is one VCCP input.
VCCLQ (4)
Quiet Core (Low) Power—VCCLQ is an isolated power for the internal processing logic. This input must be
tied externally to all other chip power inputs. The user must provide adequate external decoupling
capacitors. There are four VCCLQ inputs.
VCCHQ (4)
Quiet External (High) Power—VCCHQ is a quiet power source for I/O lines. This input must be tied
externally to all other chip power inputs. The user must provide adequate decoupling capacitors. There are
four VCCHQ inputs.
VCCA (4)
Address Bus Power—VCCA is an isolated power for sections of the address bus
I/O drivers. This input must be tied externally to all other chip power inputs. The user must provide adequate
external decoupling capacitors. There are four VCCA inputs.
VCCD (1)
Data Bus Power—VCCD is an isolated power for sections of the data bus I/O drivers. This input must be
tied externally to all other chip power inputs. The user must provide adequate external decoupling
capacitors. There is one VCCD inputs.
VCCC (1)
Bus Control Power—VCCC is an isolated power for the bus control I/O drivers. This input must be tied
externally to all other chip power inputs. The user must provide adequate external decoupling capacitors.
There is one VCCC inputs.
VCCS (3)
SHI and ESAI —VCCS is an isolated power for the SHI and ESAI. This input must be tied externally to all
other chip power inputsL. The user must provide adequate external decoupling capacitors. There are three
VCCS inputs.
2.3
Ground
Table 2-3 Grounds
Ground Name
GNDP
Description
PLL Ground—GNDP is ground-dedicated for PLL use. The connection should be provided with an
extremely low-impedance path to ground. VCCP should be bypassed to GNDP by a 0.47 μF capacitor
located as close as possible to the chip package. There is one GNDP connection.
GNDQ (4)
Quiet Ground—GNDQ is an isolated ground for the internal processing logic. This connection must be tied
externally to all other chip ground connections. The user must provide adequate external decoupling
capacitors. There are four GNDQ connections.
GNDA (4)
Address Bus Ground—GNDA is an isolated ground for sections of the address bus I/O drivers. This
connection must be tied externally to all other chip ground connections. The user must provide adequate
external decoupling capacitors. There are four GNDA connections.
GNDD (1)
Data Bus Ground—GNDD is an isolated ground for sections of the data bus I/O drivers. This connection
must be tied externally to all other chip ground connections. The user must provide adequate external
decoupling capacitors. There is one GNDD connections.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
2-3
Clock and PLL
Table 2-3 Grounds (continued)
Ground Name
Description
GNDC (1)
Bus Control Ground—GNDC is an isolated ground for the bus control I/O drivers. This connection must
be tied externally to all other chip ground connections. The user must provide adequate external decoupling
capacitors. There is one GNDC connections.
GNDS (3)
SHI and ESAI —GNDS is an isolated ground for the SHI and ESAI. This connection must be tied externally
to all other chip ground connections. The user must provide adequate external decoupling capacitors.
There are three GNDS connections.
2.4
Clock and PLL
Table 2-4 Clock and PLL Signals
Signal Name
Type
State During
Reset
EXTAL
Input
Input
External Clock Input—An external clock source must be connected to EXTAL in
order to supply the clock to the internal clock generator and PLL.
PCAP
Input
Input
PLL Capacitor—PCAP is an input connecting an off-chip capacitor to the PLL filter.
Connect one capacitor terminal to PCAP and the other terminal to VCCP.
Signal Description
If the PLL is not used, PCAP may be tied to VCC, GND, or left floating.
PINIT/NMI
Input
Input
PLL Initial/Nonmaskable Interrupt—During assertion of RESET, the value of
PINIT/NMI is written into the PLL Enable (PEN) bit of the PLL control register,
determining whether the PLL is enabled or disabled. After RESET de assertion and
during normal instruction processing, the PINIT/NMI Schmitt-trigger input is a
negative-edge-triggered nonmaskable interrupt (NMI) request internally
synchronized to internal system clock.
This input is 5 V tolerant.
2.5
External Memory Expansion Port (Port A)
When the DSP56364 enters a low-power standby mode (stop or wait), it tri-states the relevant port A
signals: D0–D7, AA0, AA1, RD, WR, CAS.
2.5.1
External Address Bus
Table 2-5 External Address Bus Signals
Signal Name
Type
A0–A17
Output
State During
Reset
Signal Description
Keeper active Address Bus—A0–A17 are active-high outputs that specify the address for
external program and data memory accesses. Otherwise, the signals are kept
to their previous values by internal weak keepers. To minimize power
dissipation, A0–A17 do not change state when external memory spaces are not
being accessed.
DSP56364 Technical Data, Rev. 4.1
2-4
Freescale Semiconductor
External Memory Expansion Port (Port A)
2.5.2
External Data Bus
Table 2-6 External Data Bus Signals
Signal
Name
Type
D0–D7
2.5.3
Input/
Output
State During
Reset
Signal Description
Tri-stated
Data Bus—D0–D7 are active-high, bidirectional input/outputs that provide the
bidirectional data bus for external program and data memory accesses. D0–D7 are
tri-stated during hardware reset and when the DSP is in the stop or wait low-power
standby mode.
External Bus Control
Table 2-7 External Bus Control Signals
Signal Name
Type
State During
Reset
AA0–AA1/
Output
Tri-stated
Address Attribute or Row Address Strobe—When defined as AA, these signals
can be used as chip selects or additional address lines. When defined as RAS,
these signals can be used as RAS for DRAM interface. These signals are
tri-stateable outputs with programmable polarity. These signals are tri-stated during
hardware reset and when the DSP is in the stop or wait low-power standby mode.
CAS
Output
Tri-stated
Column Address Strobe— CAS is an active-low output used by DRAM to strobe
the column address. This signal is tri-stated during hardware reset and when the
DSP is in the stop or wait low-power standby mode.
RD
Output
Tri-stated
Read Enable—RD is an active-low output that is asserted to read external memory
on the data bus. This signal is tri-stated during hardware reset and when the DSP
is in the stop or wait low-power standby mode.
WR
Output
Tri-stated
Write Enable— WR is an active-low output that is asserted to write external
memory on the data bus. This signal is tri-stated during hardware reset and when
the DSP is in the stop or wait low-power standby mode.
TA
Input
RAS0–RAS1
Signal Description
Ignored Input Transfer Acknowledge—If there is no external bus activity, the TA input is ignored.
The TA input is a data transfer acknowledge (DTACK) function that can extend an
external bus cycle indefinitely. Any number of wait states (1, 2. . .infinity) may be
added to the wait states inserted by the BCR by keeping TA deasserted. In typical
operation, TA is deasserted at the start of a bus cycle, is asserted to enable
completion of the bus cycle, and is deasserted before the next bus cycle. The
current bus cycle completes one clock period after TA is asserted synchronous to
the internal system clock. The number of wait states is determined by the TA input
or by the bus control register (BCR), whichever is longer. The BCR can be used to
set the minimum number of wait states in external bus cycles.
In order to use the TA functionality, the BCR must be programmed to at least one
wait state. A zero wait state access cannot be extended by TA deassertion,
otherwise improper operation may result. TA can operate synchronously or
asynchronously, depending on the setting of the TAS bit in the operating mode
register (OMR).
TA functionality may not be used while performing DRAM type accesses, otherwise
improper operation may result.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
2-5
Interrupt and Mode Control
2.6
Interrupt and Mode Control
The interrupt and mode control signals select the chip’s operating mode as it comes out of hardware reset.
After RESET is deasserted, these inputs are hardware interrupt request lines.
Table 2-8 Interrupt and Mode Control
Signal Name
Type
State During
Reset
MODA/IRQA
Input
Input
Signal Description
Mode Select A/External Interrupt Request A—MODA/IRQA is an active-low
Schmitt-trigger input, internally synchronized to the internal system clock.
MODA/IRQA selects the initial chip operating mode during hardware reset and
becomes a level-sensitive or negative-edge-triggered, maskable interrupt request
input during normal instruction processing. MODA, MODB, and MODD select one
of 8 initial chip operating modes, latched into the OMR when the RESET signal
is deasserted. If IRQA is asserted synchronous to the internal system clock,
multiple processors can be re synchronized using the WAIT instruction and
asserting IRQA to exit the wait state. If the processor is in the stop standby state
and IRQA is asserted, the processor will exit the stop state.
This input is 5 V tolerant.
MODB/IRQB
Input
Input
Mode Select B/External Interrupt Request B—MODB/IRQB is an active-low
Schmitt-trigger input, internally synchronized to the internal system clock.
MODB/IRQB selects the initial chip operating mode during hardware reset and
becomes a level-sensitive or negative-edge-triggered, maskable interrupt request
input during normal instruction processing. MODA, MODB, and MODD select one
of 8 initial chip operating modes, latched into OMR when the RESET signal is
deasserted. If IRQB is asserted synchronous to the internal system clock,
multiple processors can be re-synchronized using the WAIT instruction and
asserting IRQB to exit the wait state.
This input is 5 V tolerant.
MODD/IRQD
Input
Input
Mode Select D/External Interrupt Request D—MODD/IRQD is an active-low
Schmitt-trigger input, internally synchronized to the internal system clock.
MODD/IRQD selects the initial chip operating mode during hardware reset and
becomes a level-sensitive or negative-edge-triggered, maskable interrupt request
input during normal instruction processing. MODA, MODB, and MODD select one
of 8 initial chip operating modes, latched into OMR when the RESET signal is
deasserted. If IRQD is asserted synchronous to the internal system clock,
multiple processors can be re synchronized using the WAIT instruction and
asserting IRQD to exit the wait state.
This input is 5 V tolerant.
RESET
Input
Input
Reset—RESET is an active-low, Schmitt-trigger input. When asserted, the chip
is placed in the reset state and the internal phase generator is reset. The
Schmitt-trigger input allows a slowly rising input (such as a capacitor charging) to
reset the chip reliably. When the RESET signal is deasserted, the initial chip
operating mode is latched from the MODA, MODB, and MODD inputs. The
RESET signal must be asserted during power up. A stable EXTAL signal must
be supplied before deassertion of RESET.
This input is 5 V tolerant.
DSP56364 Technical Data, Rev. 4.1
2-6
Freescale Semiconductor
Serial Host Interface
2.7
Serial Host Interface
The SHI has five I/O signals that can be configured to allow the SHI to operate in either SPI or I2C mode.
Table 2-9 Serial Host Interface Signals
Signal
Name
Signal
Type
State During
Reset
SCK
Input or
output
Tri-stated
SPI Serial Clock—The SCK signal is an output when the SPI is configured as a master
and a Schmitt-trigger input when the SPI is configured as a slave. When the SPI is
configured as a master, the SCK signal is derived from the internal SHI clock generator.
When the SPI is configured as a slave, the SCK signal is an input, and the clock signal
from the external master synchronizes the data transfer. The SCK signal is ignored by
the SPI if it is defined as a slave and the slave select (SS) signal is not asserted. In both
the master and slave SPI devices, data is shifted on one edge of the SCK signal and is
sampled on the opposite edge where data is stable. Edge polarity is determined by the
SPI transfer protocol.
SCL
Input or
output
Tri-stated
I2C Serial Clock—SCL carries the clock for I2C bus transactions in the I2C mode. SCL
is a Schmitt-trigger input when configured as a slave and an open-drain output when
configured as a master. SCL should be connected to VCC through a pull-up resistor.
Signal Description
This signal is tri-stated during hardware, software, and individual reset. Thus, there is
no need for an external pull-up in this state.
This input is 5 V tolerant.
MISO
Input or
output
Tri-stated
SPI Master-In-Slave-Out—When the SPI is configured as a master, MISO is the
master data input line. The MISO signal is used in conjunction with the MOSI signal for
transmitting and receiving serial data. This signal is a Schmitt-trigger input when
configured for the SPI Master mode, an output when configured for the SPI Slave
mode, and tri-stated if configured for the SPI Slave mode when SS is deasserted. An
external pull-up resistor is not required for SPI operation.
SDA
Input or
open-drain
output
Tri-stated
I2C Data and Acknowledge—In I2C mode, SDA is a Schmitt-trigger input when
receiving and an open-drain output when transmitting. SDA should be connected to
VCC through a pull-up resistor. SDA carries the data for I2C transactions. The data in
SDA must be stable during the high period of SCL. The data in SDA is only allowed to
change when SCL is low. When the bus is free, SDA is high. The SDA line is only
allowed to change during the time SCL is high in the case of start and stop events. A
high-to-low transition of the SDA line while SCL is high is a unique situation, and is
defined as the start event. A low-to-high transition of SDA while SCL is high is a unique
situation defined as the stop event.
This signal is tri-stated during hardware, software, and individual reset. Thus, there is
no need for an external pull-up in this state.
This input is 5 V tolerant.
MOSI
Input or
output
Tri-stated
SPI Master-Out-Slave-In—When the SPI is configured as a master, MOSI is the
master data output line. The MOSI signal is used in conjunction with the MISO signal
for transmitting and receiving serial data. MOSI is the slave data input line when the
SPI is configured as a slave. This signal is a Schmitt-trigger input when configured for
the SPI Slave mode.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
2-7
Serial Host Interface
Table 2-9 Serial Host Interface Signals (continued)
Signal
Name
Signal
Type
State During
Reset
HA0
Input
Tri-stated
Signal Description
I2C Slave Address 0—This signal uses a Schmitt-trigger input when configured for the
I2C mode. When configured for I2C slave mode, the HA0 signal is used to form the
slave device address. HA0 is ignored when configured for the I2C master mode.
This signal is tri-stated during hardware, software, and individual reset. Thus, there is
no need for an external pull-up in this state.
This input is 5 V tolerant.
SS
Input
Input
SPI Slave Select—This signal is an active low Schmitt-trigger input when configured
for the SPI mode. When configured for the SPI Slave mode, this signal is used to enable
the SPI slave for transfer. When configured for the SPI master mode, this signal should
be kept deasserted (pulled high). If it is asserted while configured as SPI master, a bus
error condition is flagged. If SS is deasserted, the SHI ignores SCK clocks and keeps
the MISO output signal in the high-impedance state.
HA2
Input
Input
I2C Slave Address 2—This signal uses a Schmitt-trigger input when configured for the
I2C mode. When configured for the I2C Slave mode, the HA2 signal is used to form the
slave device address. HA2 is ignored in the I2C master mode.
This signal is tri-stated during hardware, software, and individual reset. Thus, there is
no need for an external pull-up in this state.
This input is 5 V tolerant.
HREQ
Input or
Output
Tri-stated
Host Request—This signal is an active low Schmitt-trigger input when configured for
the master mode but an active low output when configured for the slave mode.
When configured for the slave mode, HREQ is asserted to indicate that the SHI is ready
for the next data word transfer and deasserted at the first clock pulse of the new data
word transfer. When configured for the master mode, HREQ is an input. When asserted
by the external slave device, it will trigger the start of the data word transfer by the
master. After finishing the data word transfer, the master will await the next assertion of
HREQ to proceed to the next transfer.
This signal is tri-stated during hardware, software, personal reset, or when the
HREQ1–HREQ0 bits in the HCSR are cleared. There is no need for external pull-up in
this state.
This input is 5 V tolerant.
DSP56364 Technical Data, Rev. 4.1
2-8
Freescale Semiconductor
Enhanced Serial Audio Interface
2.8
Enhanced Serial Audio Interface
Table 2-10 Enhanced Serial Audio Interface Signals
Signal
Name
Signal Type
HCKR
Input or output
GPIO
disconnected
High Frequency Clock for Receiver—When programmed as an input, this
signal provides a high frequency clock source for the ESAI receiver as an
alternate to the DSP core clock. When programmed as an output, this signal
can serve as a high-frequency sample clock (e.g., for external digital to analog
converters [DACs]) or as an additional system clock.
PC2
Input, output, or
disconnected
GPIO
disconnected
Port C 2—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
State During
Reset
Signal Description
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
HCKT
Input or output
GPIO
disconnected
High Frequency Clock for Transmitter—When programmed as an input, this
signal provides a high frequency clock source for the ESAI transmitter as an
alternate to the DSP core clock. When programmed as an output, this signal
can serve as a high frequency sample clock (e.g., for external DACs) or as an
additional system clock.
PC5
Input, output, or
disconnected
GPIO
disconnected
Port C 5—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
FSR
Input or output
GPIO
disconnected
Frame Sync for Receiver—This is the receiver frame sync input/output signal.
In the asynchronous mode (SYN=0), the FSR pin operates as the frame sync
input or output used by all the enabled receivers. In the synchronous mode
(SYN=1), it operates as either the serial flag 1 pin (TEBE=0), or as the
transmitter external buffer enable control (TEBE=1, RFSD=1).
When this pin is configured as serial flag pin, its direction is determined by the
RFSD bit in the RCCR register. When configured as the output flag OF1, this
pin will reflect the value of the OF1 bit in the SAICR register, and the data in the
OF1 bit will show up at the pin synchronized to the frame sync in normal mode
or the slot in network mode. When configured as the input flag IF1, the data
value at the pin will be stored in the IF1 bit in the SAISR register, synchronized
by the frame sync in normal mode or the slot in network mode.
PC1
Input, output, or
disconnected
GPIO
disconnected
Port C 1—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
FST
Input or output
GPIO
disconnected
Frame Sync for Transmitter—This is the transmitter frame sync input/output
signal. For synchronous mode, this signal is the frame sync for both transmitters
and receivers. For asynchronous mode, FST is the frame sync for the
transmitters only. The direction is determined by the transmitter frame sync
direction (TFSD) bit in the ESAI transmit clock control register (TCCR).
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
2-9
Enhanced Serial Audio Interface
Table 2-10 Enhanced Serial Audio Interface Signals (continued)
Signal
Name
PC4
Signal Type
State During
Reset
Input, output, or
disconnected
GPIO
disconnected
Signal Description
Port C 4—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SCKR
Input or output
GPIO
disconnected
Receiver Serial Clock—SCKR provides the receiver serial bit clock for the
ESAI. The SCKR operates as a clock input or output used by all the enabled
receivers in the asynchronous mode (SYN=0), or as serial flag 0 pin in the
synchronous mode (SYN=1).
When this pin is configured as serial flag pin, its direction is determined by the
RCKD bit in the RCCR register. When configured as the output flag OF0, this
pin will reflect the value of the OF0 bit in the SAICR register, and the data in the
OF0 bit will show up at the pin synchronized to the frame sync in normal mode
or the slot in network mode. When configured as the input flag IF0, the data
value at the pin will be stored in the IF0 bit in the SAISR register, synchronized
by the frame sync in normal mode or the slot in network mode.
PC0
Input, output, or
disconnected
GPIO
disconnected
Port C 0—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SCKT
Input or output
GPIO
disconnected
Transmitter Serial Clock—This signal provides the serial bit rate clock for the
ESAI. SCKT is a clock input or output used by all enabled transmitters and
receivers in synchronous mode, or by all enabled transmitters in asynchronous
mode.
PC3
Input, output, or
disconnected
GPIO
disconnected
Port C 3—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SDO5
Output
GPIO
disconnected
Serial Data Output 5—When programmed as a transmitter, SDO5 is used to
transmit data from the TX5 serial transmit shift register.
SDI0
Input
GPIO
disconnected
Serial Data Input 0—When programmed as a receiver, SDI0 is used to receive
serial data into the RX0 serial receive shift register.
PC6
Input, output, or
disconnected
GPIO
disconnected
Port C 6—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SDO4
Output
GPIO
disconnected
Serial Data Output 4—When programmed as a transmitter, SDO4 is used to
transmit data from the TX4 serial transmit shift register.
DSP56364 Technical Data, Rev. 4.1
2-10
Freescale Semiconductor
Enhanced Serial Audio Interface
Table 2-10 Enhanced Serial Audio Interface Signals (continued)
Signal
Name
Signal Type
State During
Reset
Signal Description
SDI1
Input
GPIO
disconnected
Serial Data Input 1—When programmed as a receiver, SDI1 is used to receive
serial data into the RX1 serial receive shift register.
PC7
Input, output, or
disconnected
GPIO
disconnected
Port C 7—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SDO3
Output
GPIO
disconnected
Serial Data Output 3—When programmed as a transmitter, SDO3 is used to
transmit data from the TX3 serial transmit shift register.
SDI2
Input
GPIO
disconnected
Serial Data Input 2—When programmed as a receiver, SDI2 is used to receive
serial data into the RX2 serial receive shift register.
PC8
Input, output, or
disconnected
GPIO
disconnected
Port C 8—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SDO2
Output
GPIO
disconnected
Serial Data Output 2—When programmed as a transmitter, SDO2 is used to
transmit data from the TX2 serial transmit shift register
SDI3
Input
GPIO
disconnected
Serial Data Input 3—When programmed as a receiver, SDI3 is used to receive
serial data into the RX3 serial receive shift register.
PC9
Input, output, or
disconnected
GPIO
disconnected
Port C 9—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SDO1
Output
GPIO
disconnected
Serial Data Output 1—SDO1 is used to transmit data from the TX1 serial
transmit shift register.
PC10
Input, output, or
disconnected
GPIO
disconnected
Port C 10—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
SDO0
Output
GPIO
disconnected
Serial Data Output 0—SDO0 is used to transmit data from the TX0 serial
transmit shift register.
PC11
Input, output, or
disconnected
GPIO
disconnected
Port C 11—When the ESAI is configured as GPIO, this signal is individually
programmable as input, output, or internally disconnected.
The default state after reset is GPIO disconnected.
This input is 5 V tolerant.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
2-11
JTAG/OnCE Interface
2.9
JTAG/OnCE Interface
Table 2-11 JTAG/OnCE Interface
Signal
Name
Signal
Type
State During
Reset
TCK
Input
Input
Signal Description
Test Clock—TCK is a test clock input signal used to synchronize the JTAG test logic.
It has an internal pull-up resistor.
This input is 5 V tolerant.
TDI
Input
Input
Test Data Input—TDI is a test data serial input signal used for test instructions and
data. TDI is sampled on the rising edge of TCK and has an internal pull-up resistor.
This input is 5 V tolerant.
TDO
Output
Tri-stated
Test Data Output—TDO is a test data serial output signal used for test instructions and
data. TDO is tri-statable and is actively driven in the shift-IR and shift-DR controller
states. TDO changes on the falling edge of TCK.
TMS
Input
Input
Test Mode Select—TMS is an input signal used to sequence the test controller’s state
machine. TMS is sampled on the rising edge of TCK and has an internal pull-up
resistor.
This input is 5 V tolerant.
Table 2-12 GPIO Signals
Signal
Name
Signal Type
GPIO0–
GPIO3
Input, output or
disconnected
State During
Reset
Disconnected
Signal Description
GPIO0–3—The General Purpose I/O pins are used for control and
handshake functions between the DSP and external circuitry. Each Port B
GPIO pin may be individually programmed as an input, output or
disconnected
DSP56364 Technical Data, Rev. 4.1
2-12
Freescale Semiconductor
3
3.1
Specifications
Introduction
The DSP56364 is a high density CMOS device with Transistor-Transistor Logic (TTL) compatible inputs
and outputs. The DSP56364 specifications are preliminary and are from design simulations, and may not
be fully tested or guaranteed. Finalized specifications will be published after full characterization and
device qualifications are complete.
3.2
Maximum Ratings
CAUTION
This device contains circuitry protecting against damage due to high static
voltage or electrical fields. However, normal precautions should be taken to
avoid exceeding maximum voltage ratings. Reliability of operation is
enhanced if unused inputs are pulled to an appropriate logic voltage level
(e.g., either GND or VCC). The suggested value for a pull-up or pull-down
resistor is 10 kΩ.
NOTE
In the calculation of timing requirements, adding a maximum value of one
specification to a minimum value of another specification does not yield a
reasonable sum. A maximum specification is calculated using a worst case
variation of process parameter values in one direction. The minimum
specification is calculated using the worst case for the same parameters in
the opposite direction. Therefore, a “maximum” value for a specification
will never occur in the same device that has a “minimum” value for another
specification; adding a maximum to a minimum represents a condition that
can never exist.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-1
Thermal Characteristics
Table 3-1 Maximum Ratings
Rating1
Symbol
Value1, 2
Unit
Supply Voltage
VCC
−0.3 to +4.0
V
All input voltages excluding “5 V tolerant” inputs3
VIN
GND -0.3 to VCC + 0.3
V
All “5 V tolerant” input voltages3
VIN5
GND − 0.3 to VCC + 3.95
V
I
10
mA
TJ
-40 to +105
°C
TSTG
−55 to +125
°C
Current drain per pin excluding VCC and GND
Operating temperature range
Storage temperature
1
GND = 0 V, VCC = 3.3 V ± 0.16 V, TJ = –0°C to +105°C, CL = 50 pF
Absolute maximum ratings are stress ratings only, and functional operation at the maximum is not guaranteed. Stress beyond
the maximum rating may affect device reliability or cause permanent damage to the device.
3 CAUTION: All “5 V Tolerant” input voltages must not be more than 3.95 V greater than the supply voltage; this restriction
applies to “power on”, as well as during normal operation. In any case, the input voltages cannot be more than 5.75 V. “5 V
Tolerant” inputs are inputs that tolerate 5 V.
2
3.3
Thermal Characteristics
Table 3-2 Thermal Characteristics
Characteristic
Symbol
TQFP Value
Unit
Junction-to-ambient thermal resistance1
RθJA or θJA
49.87
°C/W
Junction-to-case thermal resistance2
RθJC or θJC
9.26
°C/W
Thermal characterization parameter
ΨJT
2.0
°C/W
1
Junction-to-ambient thermal resistance is based on measurements on a horizontal single-sided printed circuit board per SEMI
G38-87 in natural convection. (SEMI is Semiconductor Equipment and Materials International, 805 East Middlefield Rd.,
Mountain View, CA 94043, (415) 964-5111.)
Measurements were done with parts mounted on thermal test boards conforming to specification EIA/JESD51-3.
2 Junction-to-case thermal resistance is based on measurements using a cold plate per SEMI G30-88, with the exception that
the cold plate temperature is used for the case temperature.
DSP56364 Technical Data, Rev. 4.1
3-2
Freescale Semiconductor
DC Electrical Characteristics
3.4
DC Electrical Characteristics
Table 3-3 DC Electrical Characteristics1
Characteristics
Supply voltage
Symbol
Min
Typ
Max
Unit
VCC
3.14
3.3
3.46
V
V
Input high voltage
• D(0:7), TA
VIH
2.0
—
VCC
• MOD2/IRQ2, RESET, PINIT/NMI and all
JTAG/ESAI/GPIO/SHI (SPI mode) pins
VIHP
2.0
—
VCC + 3.95
• SHI (I2C mode) pins
VIHP
1.5
—
VCC + 3.95
• EXTAL3
VIHX
0.8 × VCC
—
VCC
• D(0:7), TA, MOD2/IRQ2, RESET, PINIT
VIL
–0.3
—
0.8
• JTAG/ESAI/GPIO/SHI (SPI mode)pins
VILP
–0.3
—
0.8
• SHI (I2C mode) pins
VILP
-0.3
—
0.3x VCC
• EXTAL3
VILX
–0.3
—
0.2 × VCC
Input leakage current
IIN
–10
—
10
μA
High impedance (off-state) input current (@ 2.4 V / 0.4 V)
ITSI
–10
—
10
μA
Output high voltage
VOH
2.4
—
—
V
VCC – 0.01
—
—
V
V
Input low voltage
• TTL (IOH = –0.4
mA)4,5
• CMOS (IOH = –10 μA)4
V
VOL
Output low voltage
• TTL (IOL = 3.0 mA, open-drain pins IOL = 6.7
mA)4,5
• CMOS (IOL = 10 μA)4
—
—
0.4
—
—
0.01
Internal supply current6 at internal clock of 100 MHz
• In Normal mode
ICCI
—
127
181
mA
• In Wait mode7
ICCW
—
7. 5
11
mA
• In Stop mode8
ICCS
—
100
150
μA
—
1
2.5
mA
—
—
10
pF
PLL supply current
Input capacitance4
CIN
1
VCC = 3.3 V ± .16 V; TJ = 0°C to +105°C, CL = 50 pF
Refers to MODA/IRQA, MODB/IRQB, and MODD/IRQD pins
3
Driving EXTAL to the low VIHX or the high VILX value may cause additional power consumption (DC current). To minimize
power consumption, the minimum VIHX should be no lower than 0.9 × VCC and the maximum VILX should be no higher than
0.1 × VCC.
4
Periodically sampled and not 100% tested
2
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-3
AC Electrical Characteristics
5
This characteristic does not apply to PCAP.
6
Section 5, "Design Considerations" provides a formula to compute the estimated current requirements in Normal
mode. In order to obtain these results, all inputs must be terminated (i.e., not allowed to float). Measurements are based on
synthetic intensive DSP benchmarks. The power consumption numbers in this specification are 90% of the measured results
of this benchmark. This reflects typical DSP applications. Typical internal supply current is measured with VCC = 3.3 V at TJ
= 105°C. Maximum internal supply current is measured with VCC = 3.46 V at TJ = 105°C.
7 In order to obtain these results, all inputs must be terminated (i.e., not allowed to float). PLL signal is disabled during Stop
state.
8
In order to obtain these results, all inputs, which are not disconnected at Stop mode, must be terminated (i.e., not allowed to
float).
3.5
AC Electrical Characteristics
The timing waveforms shown in the AC electrical characteristics section are tested with a VIL maximum
of 0.3 V and a VIH minimum of 2.4 V for all pins except EXTAL, which is tested using the input levels
shown in Note 8 of the previous table. AC timing specifications, which are referenced to a device input
signal, are measured in production with respect to the 50% point of the respective input signal’s transition.
DSP56364 output levels are measured with the production test machine VOL and VOH reference levels set
at 0.4 V and 2.4 V, respectively.
NOTE
Although the minimum value for the frequency of EXTAL is 0 MHz, the
device AC test conditions are 15 MHz and rated speed.
3.6
Internal Clocks
Table 3-4 Internal Clocks
Expression1, 2
Characteristics
Symbol
Min
Typ
Max
Internal operation frequency with PLL enabled
f
—
(Ef × MF)/
(PDF × DF)
—
Internal operation frequency with PLL disabled
f
—
Ef/2
—
—
ETC
—
• With PLL enabled and MF ≤ 4
0.49 × ETC ×
PDF × DF/MF
—
0.51 × ETC ×
PDF × DF/MF
• With PLL enabled and MF > 4
0.47 × ETC ×
PDF × DF/MF
—
0.53 × ETC ×
PDF × DF/MF
Internal clock high period
• With PLL disabled
TH
DSP56364 Technical Data, Rev. 4.1
3-4
Freescale Semiconductor
External Clock Operation
Table 3-4 Internal Clocks (continued)
Expression1, 2
Characteristics
Symbol
Min
Typ
Max
—
ETC
—
• With PLL enabled and MF ≤ 4
0.49 × ETC ×
PDF × DF/MF
—
0.51 × ETC ×
PDF × DF/MF
• With PLL enabled and MF > 4
0.47 × ETC ×
PDF × DF/MF
—
0.53 × ETC ×
PDF × DF/MF
Internal clock low period
TL
• With PLL disabled
Internal clock cycle time with PLL enabled
TC
—
ETC × PDF ×
DF/MF
—
Internal clock cycle time with PLL disabled
TC
—
2 × ETC
—
Instruction cycle time
ICYC
—
TC
—
1
DF = Division Factor
Ef = External frequency
ETC = External clock cycle
MF = Multiplication Factor
PDF = Predivision Factor
TC = internal clock cycle
2 See the PLL and Clock Generation section in the DSP56300 Family Manual for a detailed discussion of the PLL.
3.7
External Clock Operation
The DSP56364 system clock is an externally supplied square wave voltage source connected to EXTAL
(See Figure 3-1).
VIHC
Midpoint
EXTAL
VILC
ETH
ETL
2
3
4
ETC
Note: The midpoint is 0.5 (VIHC + VILC).
Figure 3-1 External Clock Timing
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-5
Phase Lock Loop (PLL) Characteristics
Table 3-5 Clock Operation
No.
1
Characteristics
Symbol
Min
Max
Ef
0
100.0
ETH
4.67 ns
∞
4.25 ns
157.0 μs
4.67 ns
∞
4.25 ns
157.0 μs
10.00 ns
∞
10.00 ns
273.1 μs
Frequency of EXTAL (EXTAL Pin Frequency)
The rise and fall time of this external clock should be 3 ns maximum.
2
EXTAL input high1, 2
• With PLL disabled (46.7%–53.3% duty cycle6)
• With PLL enabled (42.5%–57.5% duty cycle6)
3
EXTAL input low1, 2
• With PLL disabled (46.7%–53.3% duty cycle6)
ETL
• With PLL enabled (42.5%–57.5% duty cycle6)
4
EXTAL cycle time2
• With PLL disabled
ETC
• With PLL enabled
1
2
Measured at 50% of the input transition.
The maximum value for PLL enabled is given for minimum VCO and maximum MF.
3.8
Phase Lock Loop (PLL) Characteristics
Table 3-6 PLL Characteristics
Characteristics
VCO frequency when PLL enabled (MF × Ef × 2/PDF)
Min
Max
Unit
30
200
MHz
PLL external capacitor (PCAP pin to VCCP) (CPCAP1)
1
pF
• @ MF ≤ 4
(MF × 580) − 100
(MF × 780) − 140
• @ MF > 4
MF × 830
MF × 1470
CPCAP is the value of the PLL capacitor (connected between the PCAP pin and VCCP). The recommended value in pF for
CPCAP can be computed from one of the following equations:
(MF x 680)-120, for MF ≤ 4, or
MF x 1100, for MF > 4.
DSP56364 Technical Data, Rev. 4.1
3-6
Freescale Semiconductor
Reset, Stop, Mode Select, and Interrupt Timing
3.9
Reset, Stop, Mode Select, and Interrupt Timing
Table 3-7 Reset, Stop, Mode Select, and Interrupt Timing1
Expression2
Min
Max
Unit
—
—
26.0
ns
• Power on, external clock generator, PLL disabled
50 × ETC
500.0
—
ns
• Power on, external clock generator, PLL enabled
1000 × ETC
10.0
—
ns
• Power on, internal oscillator
75000 × ETC
0.75
—
μs
• During STOP, XTAL disabled (PCTL Bit 16 = 0)
75000 × ETC
0.75
—
ms
• During STOP, XTAL enabled (PCTL Bit 16 = 1)
2.5 × TC
25.0
—
ms
• During normal operation
2.5 × TC
25.0
—
ns
• Minimum
3.25 × TC + 2.0
34.5
—
ns
• Maximum
20.25 TC + 7.50
—
211.5
ns
No.
Characteristics
8
Delay from RESET assertion to all pins at reset value3
9
Required RESET duration4
10
Delay from asynchronous RESET deassertion to first
external address output (internal reset deassertion)5
13
Mode select setup time
30.0
—
ns
14
Mode select hold time
0.0
—
ns
15
Minimum edge-triggered interrupt request assertion width
6.6
—
ns
16
Minimum edge-triggered interrupt request deassertion width
6.6
—
ns
17
Delay from IRQA, IRQB, IRQD, NMI assertion to external
memory access address out valid
• Caused by first interrupt instruction fetch
4.25 × TC + 2.0
44.5
—
ns
• Caused by first interrupt instruction execution
7.25 × TC + 2.0
74.5
—
ns
10 × TC + 5.0
105.0
—
ns
18
Delay from IRQA, IRQB, IRQD, NMI assertion to
general-purpose transfer output valid caused by first
interrupt instruction execution
19
Delay from address output valid caused by first interrupt
instruction execute to interrupt request deassertion for level
sensitive fast interrupts 6, 7
3.75 × TC + WS × TC – 10.94
—
—
ns
20
Delay from RD assertion to interrupt request deassertion
for level sensitive fast interrupts6, 7
3.25 × TC + WS × TC – 10.94
—
—
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-7
Reset, Stop, Mode Select, and Interrupt Timing
Table 3-7 Reset, Stop, Mode Select, and Interrupt Timing1 (continued)
No.
Characteristics
21
Delay from WR assertion to interrupt request deassertion
for level sensitive fast interrupts6, 7
—
• SRAM WS = 1
(WS + 3.5) × TC – 10.94
—
—
(WS + 3) × TC – 10.94
—
—
(WS + 2.5) × TC – 10.94
—
—
5.9
—
Duration for IRQA assertion to recover from Stop state
25
Delay from IRQA assertion to fetch of first instruction (when
exiting Stop)3, 8
Unit
ns
—
24
28
Max
(WS + 3.5) × TC – 10.94
• SRAM WS ≥ 4
27
Min
• DRAM for all WS
• SRAM WS = 2, 3
26
Expression2
• PLL is not active during Stop (PCTL Bit 17 = 0) and Stop
delay is enabled (OMR Bit 6 = 0)
PLC × ETC × PDF +
(128 K − PLC/2) × TC
1.3
13.6
• PLL is not active during Stop (PCTL Bit 17 = 0) and Stop
delay is not enabled (OMR Bit 6 = 1)
PLC × ETC × PDF +
(23.75 ± 0.5) × TC
232.5
ns
12.3
ms
• PLL is active during Stop (PCTL Bit 17 = 1) (Implies No
Stop Delay)
(8.25 ± 0.5) × TC
77.5
87.5
ns
• PLL is not active during Stop (PCTL Bit 17 = 0) and Stop
delay is enabled (OMR Bit 6 = 0)
PLC × ETC × PDF +
(128 K − PLC/2) × TC
13.6
—
ms
• PLL is not active during Stop (PCTL Bit 17 = 0) and Stop
delay is not enabled (OMR Bit 6 = 1)
PLC × ETC × PDF +
(20.5 ± 0.5) × TC
12.3
—
ms
• PLL is active during Stop (PCTL Bit 17 = 1) (implies no
Stop delay)
5.5 × TC
55.0
—
ns
• ESAI, SCI
12TC
—
120.0
ns
• DMA
8TC
—
80.0
ns
• IRQ, NMI (edge trigger)
8TC
—
80.0
ns
• IRQ, NMI (level trigger)
12TC
—
120.0
ns
• Data read from ESAI, SCI
6TC
—
60.0
ns
• Data write to ESAI, SCI
7TC
—
70.0
ns
• IRQ, NMI (edge trigger)
3TC
—
30.0
ns
ms
Duration of level sensitive IRQA assertion to ensure
interrupt service (when exiting Stop)3, 8
Interrupt Requests Rate
DMA Requests Rate
DSP56364 Technical Data, Rev. 4.1
3-8
Freescale Semiconductor
Reset, Stop, Mode Select, and Interrupt Timing
Table 3-7 Reset, Stop, Mode Select, and Interrupt Timing1 (continued)
No.
Characteristics
Expression2
Min
Max
Unit
29
Delay from IRQA, IRQB, IRQD, NMI assertion to external
memory (DMA source) access address out valid
4.25 × TC + 2.0
44.0
—
ns
1
VCC = 3.3 V ± 0.16 V; TJ = 0°C to + 105°C, CL = 50 pF
Use expression to compute maximum value.
3
Periodically sampled and not 100% tested
4
For an external clock generator, RESET duration is measured during the time in which RESET is asserted, VCC is valid, and
the EXTAL input is active and valid.
For internal oscillator, RESET duration is measured during the time in which RESET is asserted and VCC is valid. The specified
timing reflects the crystal oscillator stabilization time after power-up. This number is affected both by the specifications of the
crystal and other components connected to the oscillator and reflects worst case conditions.
2
When the VCC is valid, but the other “required RESET duration” conditions (as specified above) have not been yet met, the
device circuitry will be in an uninitialized state that can result in significant power consumption and heat-up. Designs should
minimize this state to the shortest possible duration.
5 For an external clock generator, RESET duration is measured during the time in which RESET is asserted, V
CC is valid, and
the EXTAL input is active and valid.
For internal oscillator, RESET duration is measured during the time in which RESET is asserted and VCC is valid. The specified
timing reflects the crystal oscillator stabilization time after power-up. This number is affected both by the specifications of the
crystal and other components connected to the oscillator and reflects worst case conditions.
When the VCC is valid, but the other “required RESET duration” conditions (as specified above) have not been yet met, the
device circuitry will be in an uninitialized state that can result in significant power consumption and heat-up. Designs should
minimize this state to the shortest possible duration.
6 When using fast interrupts and IRQA, IRQB, and IRQD are defined as level-sensitive, timings 19 through 21 apply to prevent
multiple interrupt service. To avoid these timing restrictions, the deasserted Edge-triggered mode is recommended when using
fast interrupts. Long interrupts are recommended when using Level-sensitive mode.
7 WS = number of wait states (measured in clock cycles, number of T )
C
8 This timing depends on several settings:
For PLL disable, using internal oscillator (PLL Control Register (PCTL) Bit 16 = 0) and oscillator disabled during Stop (PCTL
Bit 17 = 0), a stabilization delay is required to assure the oscillator is stable before executing programs. In that case, resetting
the Stop delay (OMR Bit 6 = 0) will provide the proper delay. While it is possible to set OMR Bit 6 = 1, it is not recommended
and these specifications do not guarantee timings for that case.
For PLL disable, using internal oscillator (PCTL Bit 16 = 0) and oscillator enabled during Stop (PCTL Bit 17=1), no stabilization
delay is required and recovery time will be minimal (OMR Bit 6 setting is ignored).
For PLL disable, using external clock (PCTL Bit 16 = 1), no stabilization delay is required and recovery time will be defined by
the PCTL Bit 17 and OMR Bit 6 settings.
For PLL enable, if PCTL Bit 17 is 0, the PLL is shutdown during Stop. Recovering from Stop requires the PLL to get locked.
The PLL lock procedure duration, PLL Lock Cycles (PLC), may be in the range of 0 to 1000 cycles. This procedure occurs in
parallel with the stop delay counter, and stop recovery will end when the last of these two events occurs. The stop delay
counter completes count or PLL lock procedure completion.
PLC value for PLL disable is 0.
The maximum value for ETC is 4096 (maximum MF) divided by the desired internal frequency (i.e., for 100 MHz it is 4096/100
MHz = 40 μs). During the stabilization period, TC, TH, and TL will not be constant, and their width may vary, so timing may vary
as well.
9. If PLL does not lose lock.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-9
Reset, Stop, Mode Select, and Interrupt Timing
VIH
RESET
9
10
8
All Pins
Reset Value
First Fetch
A0–A17
AA0460
Figure 3-2 Reset Timing
First Interrupt Instruction
A0–A17
Execution/Fetch
RD
20
WR
21
IRQA, IRQB,
17
19
IRQD,
NMI
a) First Interrupt Instruction Execution
General
Purpose
I/O
18
IRQA, IRQB,
IRQD,
NMI
b) General Purpose I/O
AA0462
Figure 3-3 External Fast Interrupt Timing
DSP56364 Technical Data, Rev. 4.1
3-10
Freescale Semiconductor
Reset, Stop, Mode Select, and Interrupt Timing
IRQA, IRQB,
IRQD, NMI
15
IRQA, IRQB,
IRQD, NMI
16
AA0463
Figure 3-4 External Interrupt Timing (Negative Edge-Triggered)
VIH
RESET
13
14
MODA,
MODB,MODD,
PINIT
VIH
VIH
IRQA, IRQB,
VIL
VIL
IRQD, NMI
AA0465
Figure 3-5 Operating Mode Select Timing
24
IRQA
25
A0–A17
First Instruction Fetch
AA0466
Figure 3-6 Recovery from Stop State Using IRQA
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-11
External Memory Expansion Port (Port A)
26
IRQA
25
A0–A17
First IRQA Interrupt Instruction Fetch
AA0467
Figure 3-7 Recovery from Stop State Using IRQA Interrupt Service
DMA Source Address
A0–A17
RD
WR
29
IRQA, IRQB,
IRQD,
First Interrupt Instruction Execution
NMI
AA1104
Figure 3-8 External Memory Access (DMA Source) Timing
3.10
3.10.1
External Memory Expansion Port (Port A)
SRAM Timing
Table 3-8 SRAM Read and Write Accesses1
No.
100
Characteristics
Address valid and AA assertion pulse width
Symbol
Expression2
Min
Max
Unit
tRC, tWC
(WS + 1) × TC − 4.0
16.0
—
ns
56.0
—
ns
106.0
—
ns
[1 ≤ WS ≤ 3]
(WS + 2) × TC − 4.0
[4 ≤ WS ≤ 7]
(WS + 3) × TC − 4.0
[WS ≥ 8]
DSP56364 Technical Data, Rev. 4.1
3-12
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-8 SRAM Read and Write Accesses1 (continued)
No.
101
Characteristics
Address and AA valid to WR assertion
Symbol
Expression2
Min
Max
Unit
tAS
0.25 × TC − 2.0
0.5
—
ns
5.5
—
ns
10.5
—
ns
11.0
—
ns
16.0
—
ns
31.0
—
ns
0.5
—
ns
10.5
—
ns
20.5
—
ns
8.5
—
ns
18.5
—
ns
—
10.5
ns
—
5.5
ns
0.0
—
ns
13.5
—
ns
[WS = 1]
0.75 × TC − 2.0
[2 ≤ WS ≤ 3]
1.25 × TC − 2.0
[WS ≥ 4]
102
WR assertion pulse width
tWP
1.5 × TC − 4.0
[WS = 1]
All frequencies:
WS × TC − 4.0
[2 ≤ WS ≤ 3]
(WS − 0.5) × TC − 4.0
[WS ≥ 4]
103
WR deassertion to address not valid
tWR
0.25 × TC − 2.0
[1 ≤ WS ≤ 3]
1.25 × TC − 2.0
[4 ≤ WS ≤ 7]
2.25 × TC − 2.0
[WS ≥ 8]
All frequencies:
1.25 × TC − 4.0
[4 ≤ WS ≤ 7]
2.25 × TC − 4.0
[WS ≥ 8]
104
Address and AA valid to input data valid
tAA, tAC
(WS + 0.75) × TC − 7.0
[WS ≥ 1]
105
RD assertion to input data valid
tOE
(WS + 0.25) × TC − 7.0
[WS ≥ 1]
106
RD deassertion to data not valid (data hold time)
tOHZ
107
Address valid to WR deassertion3
tAW
(WS + 0.75) × TC − 4.0
[WS ≥ 1]
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-13
External Memory Expansion Port (Port A)
Table 3-8 SRAM Read and Write Accesses1 (continued)
No.
Characteristics
Symbol
Expression2
Min
Max
Unit
108
Data valid to WR deassertion (data setup time)
tDS (tDW)
(WS − 0.25) × TC − 3.0
4.5
—
ns
0.5
—
ns
10.5
—
ns
20.5
—
ns
3.5
—
ns
13.5
—
ns
23.5
—
ns
1.0
—
ns
6.0
—
ns
21.0
—
ns
31.0
—
ns
0.5 × TC − 4.0
1.0
—
ns
(WS + 0.25) × TC −4.0
8.5
—
ns
0.25 × TC − 2.0
0.5
—
ns
10.5
—
ns
20.5
—
ns
[WS ≥ 1]
109
Data hold time from WR deassertion
tDH
0.25 × TC − 2.0
[1 ≤ WS ≤ 3]
1.25 × TC − 2.0
[4 ≤ WS ≤ 7]
2.25 × TC − 2.0
[WS ≥ 8]
113
0.75 × TC − 4.0
RD deassertion time
[1 ≤ WS ≤ 3]
1.75 × TC − 4.0
[4 ≤ WS ≤ 7]
2.75 × TC − 4.0
[WS ≥ 8]
114
0.5 × TC − 4.0
WR deassertion time
[WS = 1]
TC − 2.0
[2 ≤ WS ≤ 3]
2.5 × TC − 4.0
[4 ≤ WS ≤ 7]
3.5 × TC − 4.0
[WS ≥ 8]
115
Address valid to RD assertion
116
RD assertion pulse width
117
RD deassertion to address not valid
[1 ≤ WS ≤ 3]
1.25 × TC − 2.0
[4 ≤ WS ≤ 7]
2.25 × TC − 2.0
[WS ≥ 8]
DSP56364 Technical Data, Rev. 4.1
3-14
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-8 SRAM Read and Write Accesses1 (continued)
No.
Characteristics
Symbol
118
TA setup before RD or WR deassertion4
119
TA hold after RD or WR deassertion
Expression2
Min
Max
Unit
0.25 × TC + 2.0
4.5
—
ns
0
—
ns
1
All timings for 100 MHz are measured from 0.5 · Vcc to .05 · Vcc
WS is the number of wait states specified in the BCR.
3
Timings 100, 107 are guaranteed by design, not tested.
4
In the case of TA negation: timing 118 is relative to the deassertion edge of RD or WR were TA to remain active.
2
100
A0–A17
AA0–AA1
113
117
116
RD
115
105
106
WR
104
119
118
TA
Data
In
D0–D7
AA0468
Figure 3-9 SRAM Read Access
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-15
External Memory Expansion Port (Port A)
100
A0–A17
AA0–AA3
107
101
102
103
WR
114
RD
118
119
TA
108
110
111
109
112
Data
Out
D0–D23
AA0469
Figure 3-10 SRAM Write Access
3.10.2
DRAM Timing
The selection guides provided in Figure 3-11 and Figure 3-14 should be used for primary selection only.
Final selection should be based on the timing provided in the following tables. As an example, the selection
guide suggests that 4 wait states must be used for 100 MHz operation when using Page Mode DRAM.
However, by using the information in the appropriate table, a designer may choose to evaluate whether
fewer wait states might be used by determining which timing prevents operation at 100 MHz, running the
chip at a slightly lower frequency (e.g., 95 MHz), using faster DRAM (if it becomes available), and control
factors such as capacitive and resistive load to improve overall system performance.
DSP56364 Technical Data, Rev. 4.1
3-16
Freescale Semiconductor
External Memory Expansion Port (Port A)
Note: This figure should be use for primary selection. For
exact and detailed timings see the following tables.
DRAM Type
(tRAC ns)
100
80
70
60
Chip Frequency
50
40
66
80
100
120
(MHz)
1 Wait States
3 Wait States
2 Wait States
4 Wait States
AA0472
Figure 3-11 DRAM Page Mode Wait States Selection Guide
Table 3-9 DRAM Page Mode Timings, One Wait State (Low-Power Applications)1, 2, 3
20 MHz4
No.
131
Characteristics
Symbol
tPC
Page mode cycle time for two
consecutive accesses of the same
direction
Page mode cycle time for mixed (read
and write) accesses
30 MHz4
Expression
Unit
Min
Max
Min
Max
2 × TC
100.0
—
66.7
—
1.25 × TC
62.5
—
41.7
—
ns
132
CAS assertion to data valid (read)
tCAC
TC − 7.5
—
42.5
—
25.8
ns
133
Column address valid to data valid
(read)
tAA
1.5 × TC − 7.5
—
67.5
—
42.5
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-17
External Memory Expansion Port (Port A)
Table 3-9 DRAM Page Mode Timings, One Wait State (Low-Power Applications)1, 2, 3 (continued)
20 MHz4
No.
Characteristics
Symbol
30 MHz4
Expression
Unit
Min
Max
Min
Max
0.0
—
0.0
—
ns
134
CAS deassertion to data not valid
(read hold time)
tOFF
135
Last CAS assertion to RAS
deassertion
tRSH
0.75 × TC − 4.0
33.5
—
21.0
—
ns
136
Previous CAS deassertion to RAS
deassertion
tRHCP
2 × TC − 4.0
96.0
—
62.7
—
ns
137
CAS assertion pulse width
tCAS
0.75 × TC − 4.0
33.5
—
21.0
—
ns
138
Last CAS deassertion to RAS
deassertion5
tCRP
1.75 × TC − 6.0
81.5
—
52.3
—
ns
• BRW[1:0] = 01
3.25 × TC − 6.0
156.5
102.2
—
ns
• BRW[1:0] = 10
4.25 × TC − 6.0
206.5
135.5
—
ns
• BRW[1:0] = 11
6.25 × TC – 6.0
306.5
—
202.1
—
ns
BRW[1:0] = 00
139
CAS deassertion pulse width
tCP
0.5 × TC − 4.0
21.0
—
12.7
—
ns
140
Column address valid to CAS
assertion
tASC
0.5 × TC − 4.0
21.0
—
12.7
—
ns
141
CAS assertion to column address not
valid
tCAH
0.75 × TC − 4.0
33.5
—
21.0
—
ns
142
Last column address valid to RAS
deassertion
tRAL
2 × TC − 4.0
96.0
—
62.7
—
ns
143
WR deassertion to CAS assertion
tRCS
0.75 × TC − 3.8
33.7
—
21.2
—
ns
144
CAS deassertion to WR assertion
tRCH
0.25 × TC − 3.7
8.8
—
4.6
—
ns
145
CAS assertion to WR deassertion
tWCH
0.5 × TC − 4.2
20.8
—
12.5
—
ns
146
WR assertion pulse width
tWP
1.5 × TC − 4.5
70.5
—
45.5
—
ns
147
Last WR assertion to RAS deassertion
tRWL
1.75 × TC − 4.3
83.2
—
54.0
—
ns
148
WR assertion to CAS deassertion
tCWL
1.75 × TC − 4.3
83.2
—
54.0
—
ns
149
Data valid to CAS assertion (Write)
tDS
0.25 × TC − 4.0
8.5
—
4.3
—
ns
150
CAS assertion to data not valid (write)
tDH
0.75 × TC − 4.0
33.5
—
21.0
—
ns
151
WR assertion to CAS assertion
tWCS
TC − 4.3
45.7
—
29.0
—
ns
DSP56364 Technical Data, Rev. 4.1
3-18
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-9 DRAM Page Mode Timings, One Wait State (Low-Power Applications)1, 2, 3 (continued)
20 MHz4
No.
1
2
3
4
5
6
Characteristics
Symbol
30 MHz4
Expression
Unit
Min
Max
Min
Max
tROH
1.5 × TC − 4.0
71.0
—
46.0
—
ns
RD assertion to data valid
tGA
TC − 7.5
—
42.5
—
25.8
ns
154
RD deassertion to data not valid 6
tGZ
0.0
—
0.0
—
ns
155
WR assertion to data active
0.75 × TC − 0.3
37.2
—
24.7
—
ns
156
WR deassertion to data high
impedance
0.25 × TC
—
12.5
—
8.3
ns
152
Last RD assertion to RAS deassertion
153
The number of wait states for Page mode access is specified in the DCR.
The refresh period is specified in the DCR.
All the timings are calculated for the worst case. Some of the timings are better for specific cases (e.g., tPC equals 2 × TC for
read-after-read or write-after-write sequences).
Reduced DSP clock speed allows use of Page Mode DRAM with one Wait state (See Figure 3-14.).
BRW[1:0] (DRAM control register bits) defines the number of wait states that should be inserted in each DRAM out-of-page
access.
RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is tOFF and not tGZ.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-19
External Memory Expansion Port (Port A)
Table 3-10 DRAM Page Mode Timings, Two Wait States1, 2, 3, 4
66 MHz
No.
131
Characteristics
Symbol
Page mode cycle time for two consecutive
accesses of the same direction
tPC
Page mode cycle time for mixed (read and
write) accesses
132
133
CAS assertion to data valid (read)
tCAC
Column address valid to data valid (read)
tAA
80 MHz
Expression5
Unit
Min
Max
Min
Max
2 × TC
45.4
—
37.5
—
ns
1.25 × TC
41.1
—
34.4
—
ns
1.5 × TC − 7.5
—
15.2
—
—
ns
1.5 × TC − 6.5
—
—
—
12.3
ns
2.5 × TC − 7.5
—
30.4
—
—
ns
2.5 × TC − 6.5
—
—
—
24.8
ns
0.0
—
0.0
—
ns
134
CAS deassertion to data not valid (read hold
time)
tOFF
135
Last CAS assertion to RAS deassertion
tRSH
1.75 × TC − 4.0
22.5
—
17.9
—
ns
136
Previous CAS deassertion to RAS
deassertion
tRHCP
3.25 × TC − 4.0
45.2
—
36.6
—
ns
137
CAS assertion pulse width
tCAS
1.5 × TC − 4.0
18.7
—
14.8
—
ns
138
Last CAS deassertion to RAS deassertion6
tCRP
2.0 × TC − 6.0
24.4
—
19.0
—
ns
• BRW[1:0] = 01
3.5 × TC − 6.0
47.2
—
37.8
—
ns
• BRW[1:0] = 10
4.5 × TC − 6.0
62.4
—
50.3
—
ns
• BRW[1:0] = 11
6.5 × TC − 6.0
92.8
—
75.3
—
ns
• BRW[1:0] = 00
139
CAS deassertion pulse width
tCP
1.25 × TC − 4.0
14.9
—
11.6
—
ns
140
Column address valid to CAS assertion
tASC
TC − 4.0
11.2
—
8.5
—
ns
141
CAS assertion to column address not valid
tCAH
1.75 × TC − 4.0
22.5
—
17.9
—
ns
142
Last column address valid to RAS
deassertion
tRAL
3 × TC − 4.0
41.5
—
33.5
—
ns
143
WR deassertion to CAS assertion
tRCS
1.25 × TC − 3.8
15.1
—
11.8
—
ns
144
CAS deassertion to WR assertion
tRCH
0.5 × TC − 3.7
3.9
—
2.6
—
ns
145
CAS assertion to WR deassertion
tWCH
1.5 × TC − 4.2
18.5
—
14.6
—
ns
146
WR assertion pulse width
tWP
2.5 × TC − 4.5
33.5
—
26.8
—
ns
DSP56364 Technical Data, Rev. 4.1
3-20
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-10 DRAM Page Mode Timings, Two Wait States1, 2, 3, 4 (continued)
66 MHz
No.
1
2
3
4
5
6
7
Characteristics
Symbol
80 MHz
Expression5
Unit
Min
Max
Min
Max
147
Last WR assertion to RAS deassertion
tRWL
2.75 × TC − 4.3
33.4
—
26.8
—
ns
148
WR assertion to CAS deassertion
tCWL
2.5 × TC − 4.3
33.6
—
27.0
—
ns
149
Data valid to CAS assertion (write)
tDS
0.25 × TC − 3.7
0.1
—
—
—
ns
0.25 × TC − 3.0
—
—
0.1
—
ns
tDH
1.75 × TC − 4.0
22.5
—
17.9
—
ns
150
CAS assertion to data not valid (write)
151
WR assertion to CAS assertion
tWCS
TC − 4.3
10.9
—
8.2
—
ns
152
Last RD assertion to RAS deassertion
tROH
2.5 × TC − 4.0
33.9
—
27.3
—
ns
153
RD assertion to data valid
tGA
1.75 × TC − 7.5
—
19.0
—
—
ns
1.75 × TC − 6.5
—
—
—
15.4
ns
0.0
—
0.0
—
ns
0.75 × TC − 0.3
11.1
—
9.1
—
ns
0.25 × TC
—
3.8
—
3.1
ns
154
RD deassertion to data not valid7
155
WR assertion to data active
156
WR deassertion to data high impedance
tGZ
The number of wait states for Page mode access is specified in the DCR.
The refresh period is specified in the DCR.
The asynchronous delays specified in the expressions are valid for DSP56364.
There are no DRAMs fast enough to fit to two wait states Page mode @ 100 MHz (See Figure 3-11).
All the timings are calculated for the worst case. Some of the timings are better for specific cases (e.g., tPC equals 3 × TC for
read-after-read or write-after-write sequences).
BRW[1:0] (DRAM Control Register bits) defines the number of wait states that should be inserted in each DRAM out-of-page
access.
RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is tOFF and not tGZ.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-21
External Memory Expansion Port (Port A)
Table 3-11 DRAM Page Mode Timings, Three Wait States1, 2, 3
No.
Characteristics
Symbol
Expression4
Min
Max
Unit
131
Page mode cycle time for two consecutive accesses of the
same direction
tPC
2 × TC
40.0
—
ns
1.25 × TC
35.0
—
tCAC
2 × TC − 7.0
—
13.0
ns
3 × TC − 7.0
—
23.0
ns
0.0
—
ns
Page mode cycle time for mixed (read and write) accesses
132
CAS assertion to data valid (read)
133
Column address valid to data valid (read)
tAA
134
CAS deassertion to data not valid (read hold time)
tOFF
135
Last CAS assertion to RAS deassertion
tRSH
2.5 × TC − 4.0
21.0
—
ns
136
Previous CAS deassertion to RAS deassertion
tRHCP
4.5 × TC − 4.0
41.0
—
ns
137
CAS assertion pulse width
tCAS
2 × TC − 4.0
16.0
—
ns
138
Last CAS deassertion to RAS assertion5
tCRP
2.25 × TC − 6.0
—
—
ns
• BRW[1:0] = 01
3.75 × TC − 6.0
—
—
ns
• BRW[1:0] = 10
4.75 × TC − 6.0
41.5
—
ns
• BRW[1:0] = 11
6.75 × TC − 6.0
61.5
—
ns
• BRW[1:0] = 00
139
CAS deassertion pulse width
tCP
1.5 × TC − 4.0
11.0
—
ns
140
Column address valid to CAS assertion
tASC
TC − 4.0
6.0
—
ns
141
CAS assertion to column address not valid
tCAH
2.5 × TC − 4.0
21.0
—
ns
142
Last column address valid to RAS deassertion
tRAL
4 × TC − 4.0
36.0
—
ns
143
WR deassertion to CAS assertion
tRCS
1.25 × TC − 4.0
8.5
—
ns
144
CAS deassertion to WR assertion
tRCH
0.75 × TC − 4.0
3.5
—
ns
145
CAS assertion to WR deassertion
tWCH
2.25 × TC − 4.2
18.3
—
ns
146
WR assertion pulse width
tWP
3.5 × TC − 4.5
30.5
—
ns
147
Last WR assertion to RAS deassertion
tRWL
3.75 × TC − 4.3
33.2
—
ns
148
WR assertion to CAS deassertion
tCWL
3.25 × TC − 4.3
28.2
—
ns
149
Data valid to CAS assertion (write)
tDS
0.5 × TC − 4.0
1.0
—
ns
150
CAS assertion to data not valid (write)
tDH
2.5 × TC − 4.0
21.0
—
ns
151
WR assertion to CAS assertion
tWCS
1.25 × TC − 4.3
8.2
—
ns
DSP56364 Technical Data, Rev. 4.1
3-22
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-11 DRAM Page Mode Timings, Three Wait States1, 2, 3 (continued)
No.
1
2
3
4
5
6
Characteristics
Symbol
Expression4
Min
Max
Unit
tROH
3.5 × TC − 4.0
31.0
—
ns
2.5 × TC − 7.0
—
18.0
ns
0.0
—
ns
0.75 × TC − 0.3
7.2
—
ns
0.25 × TC
—
2.5
ns
152
Last RD assertion to RAS deassertion
153
RD assertion to data valid
tGA
154
RD deassertion to data not valid6
tGZ
155
WR assertion to data active
156
WR deassertion to data high impedance
The number of wait states for Page mode access is specified in the DCR.
The refresh period is specified in the DCR.
The asynchronous delays specified in the expressions are valid for DSP56364.
All the timings are calculated for the worst case. Some of the timings are better for specific cases (e.g., tPC equals 4 ¥ TC for
read-after-read or write-after-write sequences).
BRW[1:0] (DRAM control register bits) defines the number of wait states that should be inserted in each DRAM out-of
page-access.
RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is tOFF and not tGZ.
Table 3-12 DRAM Page Mode Timings, Four Wait States1, 2, 3
No.
Characteristics
Symbol
Expression4
Min
Max
Unit
131
Page mode cycle time for two consecutive accesses of the
same direction.
tPC
2 × TC
50.0
—
ns
1.25 × TC
45.0
—
ns
Page mode cycle time for mixed (read and write) accesses.
132
CAS assertion to data valid (read)
tCAC
2.75 × TC − 7.0
—
20.5
ns
133
Column address valid to data valid (read)
tAA
3.75 × TC − 7.0
—
30.5
ns
134
CAS deassertion to data not valid (read hold time)
tOFF
0.0
—
ns
135
Last CAS assertion to RAS deassertion
tRSH
3.5 × TC − 4.0
31.0
—
ns
136
Previous CAS deassertion to RAS deassertion
tRHCP
6 × TC − 4.0
56.0
—
ns
137
CAS assertion pulse width
tCAS
2.5 × TC − 4.0
21.0
—
ns
138
Last CAS deassertion to RAS assertion5
tCRP
2.75 × TC − 6.0
—
—
ns
• BRW[1:0] = 01
4.25 × TC − 6.0
—
—
ns
• BRW[1:0] = 10
5.25 × TC − 6.0
46.5
—
ns
• BRW[1:0] = 11
7.25 × TC − 6.0
66.5
—
ns
2 × TC − 4.0
16.0
—
ns
• BRW[1:0] = 00
139
CAS deassertion pulse width
tCP
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-23
External Memory Expansion Port (Port A)
Table 3-12 DRAM Page Mode Timings, Four Wait States1, 2, 3 (continued)
No.
1
2
3
4
5
6
Characteristics
Symbol
Expression4
Min
Max
Unit
140
Column address valid to CAS assertion
tASC
TC − 4.0
6.0
—
ns
141
CAS assertion to column address not valid
tCAH
3.5 × TC − 4.0
31.0
—
ns
142
Last column address valid to RAS deassertion
tRAL
5 × TC − 4.0
46.0
—
ns
143
WR deassertion to CAS assertion
tRCS
1.25 × TC − 4.0
8.5
—
ns
144
CAS deassertion to WR assertion
tRCH
1.25 × TC − 4.0
8.5
—
ns
145
CAS assertion to WR deassertion
tWCH
3.25 × TC − 4.2
28.3
—
ns
146
WR assertion pulse width
tWP
4.5 × TC − 4.5
40.5
—
ns
147
Last WR assertion to RAS deassertion
tRWL
4.75 × TC − 4.3
43.2
—
ns
148
WR assertion to CAS deassertion
tCWL
3.75 × TC − 4.3
33.2
—
ns
149
Data valid to CAS assertion (write)
tDS
0.5 × TC − 4.0
1.0
—
ns
150
CAS assertion to data not valid (write)
tDH
3.5 × TC − 4.0
31.0
—
ns
151
WR assertion to CAS assertion
tWCS
1.25 × TC − 4.3
8.2
—
ns
152
Last RD assertion to RAS deassertion
tROH
4.5 × TC − 4.0
41.0
—
ns
153
RD assertion to data valid
tGA
3.25 × TC − 7.0
—
25.5
ns
154
RD deassertion to data not valid6
tGZ
0.0
—
ns
155
WR assertion to data active
0.75 × TC − 0.3
7.2
—
ns
156
WR deassertion to data high impedance
0.25 × TC
—
2.5
ns
The number of wait states for Page mode access is specified in the DCR.
The refresh period is specified in the DCR.
The asynchronous delays specified in the expressions are valid for DSP56364.
All the timings are calculated for the worst case. Some of the timings are better for specific cases (e.g., tPC equals 3 × TC for
read-after-read or write-after-write sequences).
BRW[1:0] (DRAM control register bits) defines the number of wait states that should be inserted in each DRAM out-of-page
access.
RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is tOFF and not tGZ.
DSP56364 Technical Data, Rev. 4.1
3-24
Freescale Semiconductor
External Memory Expansion Port (Port A)
RAS
136
131
135
CAS
137
139
138
140
141
A0–A17
Row
Add
142
Column
Address
Column
Address
151
Last Column
Address
144
143
145
147
WR
146
148
RD
155
156
150
149
D0–D7
Data Out
Data Out
Data Out
AA0473
Figure 3-12 DRAM Page Mode Write Accesses
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-25
External Memory Expansion Port (Port A)
RAS
136
131
135
CAS
137
139
140
A0–A17
Row
Add
Column
Address
138
141
142
Last Column
Address
Column
Address
143
WR
132
133
152
153
RD
134
154
D0–D7
Data In
Data In
Data In
AA0474
Figure 3-13 DRAM Page Mode Read Accesses
DSP56364 Technical Data, Rev. 4.1
3-26
Freescale Semiconductor
External Memory Expansion Port (Port A)
DRAM Type
(tRAC ns)
Note: This figure should be use for primary selection. For exact and
detailed timings see the following tables.
100
80
70
60
Chip Frequency
(MHz)
50
40
66
80
100
120
4 Wait States
11 Wait States
8 Wait States
15 Wait States
AA0475
Figure 3-14 DRAM Out-of-Page Wait States Selection Guide
Table 3-13 DRAM Out-of-Page and Refresh Timings, Four Wait States1, 2
20 MHz4
No.
Characteristics3
Symbol
30 MHz4
Expression
Unit
Min
Max
Min
Max
157
Random read or write cycle time
tRC
5 × TC
250.0
—
166.7
—
ns
158
RAS assertion to data valid (read)
tRAC
2.75 × TC − 7.5
—
130.0
—
84.2
ns
159
CAS assertion to data valid (read)
tCAC
1.25 × TC − 7.5
—
55.0
—
34.2
ns
160
Column address valid to data valid
(read)
tAA
1.5 × TC − 7.5
—
67.5
—
42.5
ns
161
CAS deassertion to data not valid
(read hold time)
tOFF
0.0
—
0.0
—
ns
162
RAS deassertion to RAS assertion
tRP
1.75 × TC − 4.0
83.5
—
54.3
—
ns
163
RAS assertion pulse width
tRAS
3.25 × TC − 4.0
158.5
—
104.3
—
ns
164
CAS assertion to RAS deassertion
tRSH
1.75 × TC − 4.0
83.5
—
54.3
—
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-27
External Memory Expansion Port (Port A)
Table 3-13 DRAM Out-of-Page and Refresh Timings, Four Wait States1, 2 (continued)
20 MHz4
No.
Characteristics
3
Symbol
30 MHz4
Expression
Unit
Min
Max
Min
Max
165
RAS assertion to CAS deassertion
tCSH
2.75 × TC − 4.0
133.5
—
87.7
—
ns
166
CAS assertion pulse width
tCAS
1.25 × TC − 4.0
58.5
—
37.7
—
ns
167
RAS assertion to CAS assertion
tRCD
1.5 × TC ± 2
73.0
77.0
48.0
52.0
ns
168
RAS assertion to column address valid
tRAD
1.25 × TC ± 2
60.5
64.5
39.7
43.7
ns
169
CAS deassertion to RAS assertion
tCRP
2.25 × TC − 4.0
108.5
—
71.0
—
ns
170
CAS deassertion pulse width
tCP
1.75 × TC − 4.0
83.5
—
54.3
—
ns
171
Row address valid to RAS assertion
tASR
1.75 × TC − 4.0
83.5
—
54.3
—
ns
172
RAS assertion to row address not valid
tRAH
1.25 × TC − 4.0
58.5
—
37.7
—
ns
173
Column address valid to CAS
assertion
tASC
0.25 × TC − 4.0
8.5
—
4.3
—
ns
174
CAS assertion to column address not
valid
tCAH
1.75 × TC − 4.0
83.5
—
54.3
—
ns
175
RAS assertion to column address not
valid
tAR
3.25 × TC − 4.0
158.5
—
104.3
—
ns
176
Column address valid to RAS
deassertion
tRAL
2 × TC − 4.0
96.0
—
62.7
—
ns
177
WR deassertion to CAS assertion
tRCS
1.5 × TC − 3.8
71.2
—
46.2
—
ns
178
CAS deassertion to WR assertion
tRCH
0.75 × TC − 3.7
33.8
—
21.3
—
ns
179
RAS deassertion to WR assertion
tRRH
0.25 × TC − 3.7
8.8
—
4.6
—
ns
180
CAS assertion to WR deassertion
tWCH
1.5 × TC − 4.2
70.8
—
45.8
—
ns
181
RAS assertion to WR deassertion
tWCR
3 × TC − 4.2
145.8
—
95.8
—
ns
182
WR assertion pulse width
tWP
4.5 × TC − 4.5
220.5
—
145.5
—
ns
183
WR assertion to RAS deassertion
tRWL
4.75 × TC − 4.3
233.2
—
154.0
—
ns
184
WR assertion to CAS deassertion
tCWL
4.25 × TC − 4.3
208.2
—
137.4
—
ns
185
Data valid to CAS assertion (write)
tDS
2.25 × TC − 4.0
108.5
—
71.0
—
ns
186
CAS assertion to data not valid (write)
tDH
1.75 × TC − 4.0
83.5
—
54.3
—
ns
187
RAS assertion to data not valid (write)
tDHR
3.25 × TC − 4.0
158.5
—
104.3
—
ns
DSP56364 Technical Data, Rev. 4.1
3-28
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-13 DRAM Out-of-Page and Refresh Timings, Four Wait States1, 2 (continued)
20 MHz4
No.
Characteristics
3
Symbol
30 MHz4
Expression
Unit
Min
Max
Min
Max
188
WR assertion to CAS assertion
tWCS
3 × TC − 4.3
145.7
—
95.7
—
ns
189
CAS assertion to RAS assertion
(refresh)
tCSR
0.5 × TC − 4.0
21.0
—
12.7
—
ns
190
RAS deassertion to CAS assertion
(refresh)
tRPC
1.25 × TC − 4.0
58.5
—
37.7
—
ns
191
RD assertion to RAS deassertion
tROH
4.5 × TC − 4.0
221.0
—
146.0
—
ns
192
RD assertion to data valid
tGA
4 × TC − 7.5
—
192.5
—
125.8
ns
193
RD deassertion to data not valid3
tGZ
0.0
—
0.0
—
ns
194
WR assertion to data active
0.75 × TC − 0.3
37.2
—
24.7
—
ns
195
WR deassertion to data high
impedance
0.25 × TC
—
12.5
—
8.3
ns
1
The number of wait states for out of page access is specified in the DCR.
The refresh period is specified in the DCR.
3 RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is t
OFF and not tGZ.
4 Reduced DSP clock speed allows use of DRAM out-of-page access with four Wait states (See Figure 3-17).
2
Table 3-14 DRAM Out-of-Page and Refresh Timings, Eight Wait States1, 2
66 MHz
No.
Characteristics3
Symbol
80 MHz
Expression4
Unit
Min
Max
Min
Max
157
Random read or write cycle time
tRC
9 × TC
136.4
—
112.5
—
ns
158
RAS assertion to data valid (read)
tRAC
4.75 × TC − 7.5
—
64.5
—
—
ns
4.75 × TC − 6.5
—
—
—
52.9
ns
2.25 × TC − 7.5
—
26.6
—
—
ns
2.25 × TC − 6.5
—
—
—
21.6
ns
3 × TC − 7.5
—
40.0
—
—
ns
3 × TC − 6.5
—
—
—
31.0
ns
0.0
—
0.0
—
ns
159
160
CAS assertion to data valid (read)
Column address valid to data valid
(read)
tCAC
tAA
161
CAS deassertion to data not valid
(read hold time)
tOFF
162
RAS deassertion to RAS assertion
tRP
3.25 × TC − 4.0
45.2
—
36.6
—
ns
163
RAS assertion pulse width
tRAS
5.75 × TC − 4.0
83.1
—
67.9
—
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-29
External Memory Expansion Port (Port A)
Table 3-14 DRAM Out-of-Page and Refresh Timings, Eight Wait States1, 2 (continued)
66 MHz
No.
Characteristics3
Symbol
80 MHz
Expression4
Unit
Min
Max
Min
Max
164
CAS assertion to RAS deassertion
tRSH
3.25 × TC − 4.0
45.2
—
36.6
—
ns
165
RAS assertion to CAS deassertion
tCSH
4.75 × TC − 4.0
68.0
—
55.5
—
ns
166
CAS assertion pulse width
tCAS
2.25 × TC − 4.0
30.1
—
24.1
—
ns
167
RAS assertion to CAS assertion
tRCD
2.5 × TC ± 2
35.9
39.9
29.3
33.3
ns
168
RAS assertion to column address valid
tRAD
1.75 × TC ± 2
24.5
28.5
19.9
23.9
ns
169
CAS deassertion to RAS assertion
tCRP
4.25 × TC − 4.0
59.8
—
49.1
—
ns
170
CAS deassertion pulse width
tCP
2.75 × TC − 4.0
37.7
—
30.4
—
ns
171
Row address valid to RAS assertion
tASR
3.25 × TC − 4.0
45.2
—
36.6
—
ns
172
RAS assertion to row address not valid
tRAH
1.75 × TC − 4.0
22.5
—
17.9
—
ns
173
Column address valid to CAS
assertion
tASC
0.75 × TC − 4.0
7.4
—
5.4
—
ns
174
CAS assertion to column address not
valid
tCAH
3.25 × TC − 4.0
45.2
—
36.6
—
ns
175
RAS assertion to column address not
valid
tAR
5.75 × TC − 4.0
83.1
—
67.9
—
ns
176
Column address valid to RAS
deassertion
tRAL
4 × TC − 4.0
56.6
—
46.0
—
ns
177
WR deassertion to CAS assertion
tRCS
2 × TC − 3.8
26.5
—
21.2
—
ns
178
CAS deassertion to WR5 assertion
tRCH
1.25 × TC − 3.7
15.2
—
11.9
—
ns
179
RAS deassertion to WR5 assertion
tRRH
0.25 × TC − 3.7
0.1
—
—
—
ns
0.25 × TC − 3.0
—
—
0.1
—
ns
180
CAS assertion to WR deassertion
tWCH
3 × TC − 4.2
41.3
—
33.3
—
ns
181
RAS assertion to WR deassertion
tWCR
5.5 × TC − 4.2
79.1
—
64.6
—
ns
182
WR assertion pulse width
tWP
8.5 × TC − 4.5
124.3
—
101.8
—
ns
183
WR assertion to RAS deassertion
tRWL
8.75 × TC − 4.3
128.3
—
105.1
—
ns
184
WR assertion to CAS deassertion
tCWL
7.75 × TC − 4.3
113.1
—
92.6
—
ns
185
Data valid to CAS assertion (write)
tDS
4.75 × TC − 4.0
68.0
—
55.4
—
ns
DSP56364 Technical Data, Rev. 4.1
3-30
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-14 DRAM Out-of-Page and Refresh Timings, Eight Wait States1, 2 (continued)
66 MHz
No.
Characteristics3
Symbol
80 MHz
Expression4
Unit
Min
Max
Min
Max
186
CAS assertion to data not valid (write)
tDH
3.25 × TC − 4.0
45.2
—
36.6
—
ns
187
RAS assertion to data not valid (write)
tDHR
5.75 × TC − 4.0
83.1
—
67.9
—
ns
188
WR assertion to CAS assertion
tWCS
5.5 × TC − 4.3
79.0
—
64.5
—
ns
189
CAS assertion to RAS assertion
(refresh)
tCSR
1.5 × TC − 4.0
18.7
—
14.8
—
ns
190
RAS deassertion to CAS assertion
(refresh)
tRPC
1.75 × TC − 4.0
22.5
—
17.9
—
ns
191
RD assertion to RAS deassertion
tROH
8.5 × TC − 4.0
124.8
—
102.3
—
ns
192
RD assertion to data valid
tGA
7.5 × TC − 7.5
—
106.1
—
—
ns
7.5 × TC − 6.5
—
—
—
87.3
ns
0.0
0.0
—
0.0
—
ns
193
RD deassertion to data not valid3
194
WR assertion to data active
0.75 × TC − 0.3
11.1
—
9.1
—
ns
195
WR deassertion to data high
impedance
0.25 × TC
—
3.8
—
3.1
ns
tGZ
1
The number of wait states for out-of-page access is specified in the DCR.
The refresh period is specified in the DCR.
3 RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is t
OFF and not tGZ.
4 The asynchronous delays specified in the expressions are valid for DSP56364.
5 Either t
RCH or tRRH must be satisfied for read cycles.
2
Table 3-15 DRAM Out-of-Page and Refresh Timings, Eleven Wait States1, 2
Characteristics3
No.
Symbol
Expression4
Min
Max
Unit
157
Random read or write cycle time
tRC
12 × TC
120.0
—
ns
158
RAS assertion to data valid (read)
tRAC
6.25 × TC − 7.0
—
55.5
ns
159
CAS assertion to data valid (read)
tCAC
3.75 × TC − 7.0
—
30.5
ns
160
Column address valid to data valid (read)
tAA
4.5 × TC − 7.0
—
38.0
ns
161
CAS deassertion to data not valid (read hold time)
tOFF
0.0
—
ns
162
RAS deassertion to RAS assertion
tRP
4.25 × TC − 4.0
38.5
—
ns
163
RAS assertion pulse width
tRAS
7.75 × TC − 4.0
73.5
—
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-31
External Memory Expansion Port (Port A)
Table 3-15 DRAM Out-of-Page and Refresh Timings, Eleven Wait States1, 2 (continued)
No.
Characteristics3
Symbol
Expression4
Min
Max
Unit
164
CAS assertion to RAS deassertion
tRSH
5.25 × TC − 4.0
48.5
—
ns
165
RAS assertion to CAS deassertion
tCSH
6.25 × TC − 4.0
58.5
—
ns
166
CAS assertion pulse width
tCAS
3.75 × TC − 4.0
33.5
—
ns
167
RAS assertion to CAS assertion
tRCD
2.5 × TC ± 4.0
21.0
29.0
ns
168
RAS assertion to column address valid
tRAD
1.75 × TC ± 4.0
13.5
21.5
ns
169
CAS deassertion to RAS assertion
tCRP
5.75 × TC − 4.0
53.5
—
ns
170
CAS deassertion pulse width
tCP
4.25 × TC − 4.0
38.5
—
ns
171
Row address valid to RAS assertion
tASR
4.25 × TC − 4.0
38.5
—
ns
172
RAS assertion to row address not valid
tRAH
1.75 × TC − 4.0
13.5
—
ns
173
Column address valid to CAS assertion
tASC
0.75 × TC − 4.0
3.5
—
ns
174
CAS assertion to column address not valid
tCAH
5.25 × TC − 4.0
48.5
—
ns
175
RAS assertion to column address not valid
tAR
7.75 × TC − 4.0
73.5
—
ns
176
Column address valid to RAS deassertion
tRAL
6 × TC − 4.0
56.0
—
ns
177
WR deassertion to CAS assertion
tRCS
3.0 × TC − 4.0
26.0
—
ns
178
CAS deassertion to WR5 assertion
tRCH
1.75 × TC − 4.0
13.5
—
ns
179
RAS deassertion to WR5 assertion
tRRH
0.25 × TC − 2.0
0.5
—
ns
180
CAS assertion to WR deassertion
tWCH
5 × TC − 4.2
45.8
—
ns
181
RAS assertion to WR deassertion
tWCR
7.5 × TC − 4.2
70.8
—
ns
182
WR assertion pulse width
tWP
11.5 × TC − 4.5
110.5
—
ns
183
WR assertion to RAS deassertion
tRWL
11.75 × TC − 4.3
113.2
—
ns
184
WR assertion to CAS deassertion
tCWL
10.25 × TC − 4.3
103.2
—
ns
185
Data valid to CAS assertion (write)
tDS
5.75 × TC − 4.0
53.5
—
ns
186
CAS assertion to data not valid (write)
tDH
5.25 × TC − 4.0
48.5
—
ns
187
RAS assertion to data not valid (write)
tDHR
7.75 × TC − 4.0
73.5
—
ns
188
WR assertion to CAS assertion
tWCS
6.5 × TC − 4.3
60.7
—
ns
189
CAS assertion to RAS assertion (refresh)
tCSR
1.5 × TC − 4.0
11.0
—
ns
190
RAS deassertion to CAS assertion (refresh)
tRPC
2.75 × TC − 4.0
23.5
—
ns
DSP56364 Technical Data, Rev. 4.1
3-32
Freescale Semiconductor
External Memory Expansion Port (Port A)
Table 3-15 DRAM Out-of-Page and Refresh Timings, Eleven Wait States1, 2 (continued)
Characteristics3
No.
Symbol
Expression4
Min
Max
Unit
tROH
11.5 × TC − 4.0
111.0
—
ns
10 × TC − 7.0
—
93.0
ns
0.0
—
ns
0.75 × TC − 0.3
7.2
—
ns
0.25 × TC
—
2.5
ns
191
RD assertion to RAS deassertion
192
RD assertion to data valid
tGA
193
RD deassertion to data not valid3
tGZ
194
WR assertion to data active
195
WR deassertion to data high impedance
1
The number of wait states for out-of-page access is specified in the DCR.
The refresh period is specified in the DCR.
3
RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is tOFF and not tGZ.
4 The asynchronous delays specified in the expressions are valid for DSP56364.
5
Either tRCH or tRRH must be satisfied for read cycles.
2
Table 3-16 DRAM Out-of-Page and Refresh Timings, Fifteen Wait States1, 2
Characteristics3
No.
Symbol
Expression
Min
Max
Unit
157
Random read or write cycle time
tRC
16 × TC
160.0
—
ns
158
RAS assertion to data valid (read)
tRAC
8.25 × TC − 5.7
—
76.8
ns
159
CAS assertion to data valid (read)
tCAC
4.75 × TC − 5.7
—
41.8
ns
160
Column address valid to data valid (read)
tAA
5.5 × TC − 5.7
—
49.3
ns
161
CAS deassertion to data not valid (read hold time)
tOFF
0.0
0.0
—
ns
162
RAS deassertion to RAS assertion
tRP
6.25 × TC − 4.0
58.5
—
ns
163
RAS assertion pulse width
tRAS
9.75 × TC − 4.0
93.5
—
ns
164
CAS assertion to RAS deassertion
tRSH
6.25 × TC − 4.0
58.5
—
ns
165
RAS assertion to CAS deassertion
tCSH
8.25 × TC − 4.0
78.5
—
ns
166
CAS assertion pulse width
tCAS
4.75 × TC − 4.0
43.5
—
ns
167
RAS assertion to CAS assertion
tRCD
3.5 × TC ± 2
33.0
37.0
ns
168
RAS assertion to column address valid
tRAD
2.75 × TC ± 2
25.5
29.5
ns
169
CAS deassertion to RAS assertion
tCRP
7.75 × TC − 4.0
73.5
—
ns
170
CAS deassertion pulse width
tCP
6.25 × TC − 4.0
58.5
—
ns
171
Row address valid to RAS assertion
tASR
6.25 × TC − 4.0
58.5
—
ns
172
RAS assertion to row address not valid
tRAH
2.75 × TC − 4.0
23.5
—
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-33
External Memory Expansion Port (Port A)
Table 3-16 DRAM Out-of-Page and Refresh Timings, Fifteen Wait States1, 2 (continued)
No.
Characteristics3
Symbol
Expression
Min
Max
Unit
173
Column address valid to CAS assertion
tASC
0.75 × TC − 4.0
3.5
—
ns
174
CAS assertion to column address not valid
tCAH
6.25 × TC − 4.0
58.5
—
ns
175
RAS assertion to column address not valid
tAR
9.75 × TC − 4.0
93.5
—
ns
176
Column address valid to RAS deassertion
tRAL
7 × TC − 4.0
66.0
—
ns
177
WR deassertion to CAS assertion
tRCS
5 × TC − 3.8
46.2
—
ns
178
CAS deassertion to WR4 assertion
tRCH
1.75 × TC − 3.7
13.8
—
ns
179
RAS deassertion to WR4 assertion
tRRH
0.25 × TC − 2.0
0.5
—
ns
180
CAS assertion to WR deassertion
tWCH
6 × TC − 4.2
55.8
—
ns
181
RAS assertion to WR deassertion
tWCR
9.5 × TC − 4.2
90.8
—
ns
182
WR assertion pulse width
tWP
15.5 × TC − 4.5
150.5
—
ns
183
WR assertion to RAS deassertion
tRWL
15.75 × TC − 4.3
153.2
—
ns
184
WR assertion to CAS deassertion
tCWL
14.25 × TC − 4.3
138.2
—
ns
185
Data valid to CAS assertion (write)
tDS
8.75 × TC − 4.0
83.5
—
ns
186
CAS assertion to data not valid (write)
tDH
6.25 × TC − 4.0
58.5
—
ns
187
RAS assertion to data not valid (write)
tDHR
9.75 × TC − 4.0
93.5
—
ns
188
WR assertion to CAS assertion
tWCS
9.5 × TC − 4.3
90.7
—
ns
189
CAS assertion to RAS assertion (refresh)
tCSR
1.5 × TC − 4.0
11.0
—
ns
190
RAS deassertion to CAS assertion (refresh)
tRPC
4.75 × TC − 4.0
43.5
—
ns
191
RD assertion to RAS deassertion
tROH
15.5 × TC − 4.0
151.0
—
ns
192
RD assertion to data valid
tGA
14 × TC − 5.7
—
134.3
ns
193
RD deassertion to data not valid3
tGZ
0.0
—
ns
194
WR assertion to data active
0.75 × TC − 0.3
7.2
—
ns
195
WR deassertion to data high impedance
0.25 × TC
—
2.5
ns
1
The number of wait states for out-of-page access is specified in the DCR.
The refresh period is specified in the DCR.
3
RD deassertion will always occur after CAS deassertion; therefore, the restricted timing is tOFF and not tGZ.
4 Either t
RCH or tRRH must be satisfied for read cycles.
2
DSP56364 Technical Data, Rev. 4.1
3-34
Freescale Semiconductor
External Memory Expansion Port (Port A)
157
163
162
162
165
RAS
167
164
169
168
170
166
CAS
171
173
174
175
A0–A17
Row Address
Column Address
172
176
177
179
191
WR
168
160
159
RD
193
158
192
D0–D7
161
Data
In
AA0476
Figure 3-15 DRAM Out-of-Page Read Access
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-35
External Memory Expansion Port (Port A)
157
162
163
162
165
RAS
167
164
169
168
166
170
CAS
171
173
172
174
176
A0–A17
Row Address
Column Address
181
175
188
180
182
WR
184
183
RD
187
186
185
195
194
D0–D7
Data Out
AA0477
Figure 3-16 DRAM Out-of-Page Write Access
DSP56364 Technical Data, Rev. 4.1
3-36
Freescale Semiconductor
Serial Host Interface SPI Protocol Timing
157
162
163
162
RAS
190
170
165
CAS
189
177
WR
AA0478
Figure 3-17 DRAM Refresh Access
3.11
Serial Host Interface SPI Protocol Timing
Table 3-17 Serial Host Interface SPI Protocol Timing
No.
140
141
142
Characteristics
Tolerable spike width on clock or data in
Minimum serial clock cycle = tSPICC(min)
Serial clock high period
Mode
Filter
Mode
Expression
Min
Max
Unit
—
Bypassed
—
—
0
ns
Narrow
—
—
50
ns
Wide
—
—
100
ns
Bypassed
6×TC+46
106
—
ns
Narrow
6×TC+152
212
—
ns
Wide
6×TC+223
283
—
ns
Bypassed
0.5×tSPICC –10
43
—
ns
Narrow
0.5×tSPICC –10
96
—
ns
Wide
0.5×tSPICC –10
131
—
ns
Bypassed
2.5×TC+12
37
—
ns
Narrow
2.5×TC+102
127
—
ns
Wide
2.5×TC+189
214
—
ns
Master
Master
Slave
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-37
Serial Host Interface SPI Protocol Timing
Table 3-17 Serial Host Interface SPI Protocol Timing (continued)
No.
143
Characteristics
Serial clock low period
Mode
Filter
Mode
Expression
Min
Max
Unit
Master
Bypassed
0.5×tSPICC –10
43
—
ns
Narrow
0.5×tSPICC –10
96
—
ns
Wide
0.5×tSPICC –10
131
—
ns
Bypassed
2.5×TC+12
37
—
ns
Narrow
2.5×TC+102
127
—
ns
Wide
2.5×TC+189
214
—
ns
Master
—
—
—
10
ns
Slave
—
—
—
2000
ns
Slave
Bypassed
3.5×TC+15
50
—
ns
Narrow
0
0
—
ns
Wide
0
0
—
ns
Bypassed
10
10
—
ns
Narrow
0
0
—
ns
Wide
0
0
—
ns
Bypassed
12
12
—
ns
Narrow
102
102
—
ns
Wide
189
189
—
ns
Bypassed
0
0
—
ns
Narrow
MAX{(20-TC), 0}
10
—
ns
Wide
MAX{(40-TC), 0}
30
—
ns
Bypassed
2.5×TC+10
35
—
ns
Narrow
2.5×TC+30
55
—
ns
Wide
2.5×TC+50
75
—
ns
Slave
144
146
Serial clock rise/fall time
SS assertion to first SCK edge
CPHA = 0
CPHA = 1
147
148
149
Slave
Last SCK edge to SS not asserted
Slave
Data input valid to SCK edge (data input set-up
time)
SCK last sampling edge to data input not valid
Master/
Slave
Master/
Slave
150
SS assertion to data out active
Slave
—
2
2
—
ns
151
SS deassertion to data high impedance
Slave
—
9
—
9
ns
DSP56364 Technical Data, Rev. 4.1
3-38
Freescale Semiconductor
Serial Host Interface SPI Protocol Timing
Table 3-17 Serial Host Interface SPI Protocol Timing (continued)
No.
152
153
Characteristics
Mode
SCK edge to data out valid
(data out delay time)
Master/
Slave
SCK edge to data out not valid
(data out hold time)
Master/
Slave
Filter
Mode
Expression
Min
Max
Unit
Bypassed
2×TC+33
—
53
ns
Narrow
2×TC+123
—
143
ns
Wide
2×TC+210
—
230
ns
Bypassed
TC+5
15
—
ns
Narrow
TC+55
65
—
ns
Wide
TC+106
116
—
ns
154
SS assertion to data out valid
(CPHA = 0)
Slave
—
TC+33
—
43
ns
157
First SCK sampling edge to HREQ output
deassertion
Slave
Bypassed
2.5×TC+30
—
55
ns
Narrow
2.5×TC+120
—
145
ns
Wide
2.5×TC+217
—
242
ns
Bypassed
2.5×TC+30
55
—
ns
Narrow
2.5×TC+80
105
—
ns
Wide
2.5×TC+136
161
—
ns
158
Last SCK sampling edge to HREQ output not
deasserted (CPHA = 1)
Slave
159
SS deassertion to HREQ output not deasserted
(CPHA = 0)
Slave
—
2.5×TC+30
55
—
ns
160
SS deassertion pulse width (CPHA = 0)
Slave
—
TC+6
16
—
ns
161
HREQ in assertion to first SCK edge
Master
Bypassed
0.5 × tSPICC +
2.5×TC+43
121
—
ns
Narrow
0.5 ×tSPICC +
2.5×TC+43
174
—
ns
Wide
0.5 ×tSPICC +
2.5×TC+43
209
—
ns
162
HREQ in deassertion to last SCK sampling
edge (HREQ in set-up time) (CPHA = 1)
Master
—
0
0
—
ns
163
First SCK edge to HREQ in not asserted
Master
—
0
0
—
ns
(HREQ in hold time)
Note: Periodically sampled, not 100% tested
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-39
Serial Host Interface SPI Protocol Timing
SS
(Input)
143
141
142
144
144
SCK (CPOL = 0)
(Output)
141
142
144
143
144
SCK (CPOL = 1)
(Output)
148
149
MISO
(Input)
MSB
Valid
LSB
Valid
153
152
MOSI
(Output)
149
148
MSB
LSB
161
163
HREQ
(Input)
AA0271
Figure 3-18 SPI Master Timing (CPHA = 0)
DSP56364 Technical Data, Rev. 4.1
3-40
Freescale Semiconductor
Serial Host Interface SPI Protocol Timing
SS
(Input)
143
141
142
144
144
SCK (CPOL = 0)
(Output)
142
141
144
143
144
SCK (CPOL = 1)
(Output)
148
148
149
MISO
(Input)
149
MSB
Valid
LSB
Valid
152
MOSI
(Output)
153
MSB
LSB
161
162
163
HREQ
(Input)
AA0272
Figure 3-19 SPI Master Timing (CPHA = 1)
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-41
Serial Host Interface SPI Protocol Timing
SS
(Input)
143
141
142
144
147
144
160
SCK (CPOL = 0)
(Input)
146
141
142
144
143
144
SCK (CPOL = 1)
(Input)
154
152
153
150
MISO
(Output)
153
151
MSB
148
LSB
148
149
MOSI
(Input)
MSB
Valid
149
LSB
Valid
157
159
HREQ
(Output)
AA0273
Figure 3-20 SPI Slave Timing (CPHA = 0)
DSP56364 Technical Data, Rev. 4.1
3-42
Freescale Semiconductor
Serial Host Interface SPI Protocol Timing
SS
(Input)
143
141
142
144
147
144
SCK (CPOL = 0)
(Input)
146
142
143
144
144
SCK (CPOL = 1)
(Input)
152
152
153
151
150
MISO
(Output)
MSB
LSB
148
148
149
MOSI
(Input)
MSB
Valid
149
LSB
Valid
157
158
HREQ
(Output)
AA0274
Figure 3-21 SPI Slave Timing (CPHA = 1)
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-43
Serial Host Interface (SHI) I2C Protocol Timing
3.12
Serial Host Interface (SHI) I2C Protocol Timing
Table 3-18 SHI I2C Protocol Timing
Standard I2C1
No.
Symbol/
Expression
Characteristics
Standard-Mode
Fast-Mode
Unit
Min
Max
Min
Max
• Filters bypassed
—
0
—
0
ns
• Narrow filters enabled
—
50
—
50
ns
• Wide filters enabled
—
100
—
100
ns
Tolerable spike width on SCL or SDA
—
171 SCL clock frequency
FSCL
—
100
—
400
kHz
172 Bus free time
TBUF
4.7
—
1.3
—
μs
173 Start condition set-up time
TSU;STA
4.7
—
0.6
—
μs
174 Start condition hold time
THD;STA
4.0
—
0.6
—
μs
175 SCL low period
TLOW
4.7
—
1.3
—
μs
176 SCL high period
THIGH
4.0
—
1.3
—
μs
177 SCL and SDA rise time
TR
—
1000
20 + 0.1 × Cb
300
ns
178 SCL and SDA fall time
TF
—
300
20 + 0.1 × Cb
300
ns
179 Data set-up time
TSU;DAT
250
—
100
—
ns
180 Data hold time
THD;DAT
0.0
—
0.0
0.9
μs
181 Stop condition set-up time
TSU;STO
4.0
—
0.6
—
μs
Cb
—
400
—
400
pF
• Filters bypassed
10.6
—
28.5
—
MHz
• Narrow filters enabled
11.8
—
39.7
—
MHz
• Wide filters enabled
13.1
—
61.0
—
MHz
0.0
—
0.0
—
ns
182 Capacitive load for each line
183 DSP clock frequency
FDSP
184 HREQ in deassertion to last SCL edge
(HREQ in set-up time)
tSU;RQI
DSP56364 Technical Data, Rev. 4.1
3-44
Freescale Semiconductor
Serial Host Interface (SHI) I2C Protocol Timing
Table 3-18 SHI I2C Protocol Timing (continued)
Standard I2C1
No.
Symbol/
Expression
Characteristics
186 First SCL sampling edge to HREQ output
deassertion
Min
Max
Fast-Mode
Min
Unit
Max
TNG;RQO
ns
• Filters bypassed
2 × TC + 30
—
50
—
50
ns
• Narrow filters enabled
2 × TC + 120
—
140
—
140
ns
• Wide filters enabled
2 × TC + 208
—
228
—
228
ns
187 Last SCL edge to HREQ output not
deasserted
ns
TAS;RQO
• Filters bypassed
2 × TC + 30
50
—
50
—
ns
• Narrow filters enabled
2 × TC + 80
100
—
100
—
ns
• Wide filters enabled
2 × TC + 135
155
—
155
—
ns
188 HREQ in assertion to first SCL edge
ns
TAS;RQI
0.5 × TI2CCP 0.5 × TC - 21
• Filters bypassed
1
Standard-Mode
4327
—
927
—
ns
• Narrow filters enabled
4282
—
882
—
ns
• Wide filters enabled
4238
—
838
—
ns
RP (min) = 1.5 k¾
3.12.1
Programming the Serial Clock
The programmed serial clock cycle, T I CCP, is specified by the value of the HDM[5:0] and HRS bits of the
HCKR (SHI clock control register).
2
The expression for T I CCP is
2
T
2
I CCP
= [ T C × 2 × ( HDM [ 7 :0 ] + 1 ) × ( 7 × ( 1 – HRS ) + 1 ) ]
where
HRS is the prescaler rate select bit. When HRS is cleared, the fixed divide-by-eight prescaler is
operational. When HRS is set, the prescaler is bypassed.
HDM[7:0] are the divider modulus select bits.
A divide ratio from 1 to 64 (HDM[5:0] = 0 to $3F) may be selected.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-45
Serial Host Interface (SHI) I2C Protocol Timing
In I2C mode, the user may select a value for the programmed serial clock cycle from
6 × T C ( if HDMS [ 5 :0 ] = $02 and HRS = 1 )
to
4096 × T C ( if HDMS [ 7 :0 ] = $FF and HRS = 0 )
The programmed serial clock cycle (TI CCP ), SCL rise time (TR), and the filters selected should be chosen
in order to achieve the desired SCL frequency, as shown in Table 3-19.
2
Table 3-19 SCL Serial Clock Cycle Generated as Master
Filters bypassed
TI2CCP + 2.5 × TC + 45ns + TR
Narrow filters enabled
TI2CCP + 2.5 × TC + 135ns + TR
Wide filters enabled
TI2CCP + 2.5 × TC + 223ns + TR
EXAMPLE:
For DSP clock frequency of 100 MHz (i.e. TC = 10ns), operating in a standard-mode I2C environment
(FSCL = 100 KHz (i.e. TSCL = 10μs), TR = 1000ns), with filters bypassed
T
2
I CCP
= 10μs – 2.5 × 10ns – 45ns – 1000ns = 893ns
Choosing HRS = 0 gives
HDM [ 7 :0 ] = ( 8930ns ) ⁄ ( 2 × 10ns × 8 ) – 1 = 55.8
Thus the HDM[7:0] value should be programmed to $38 (=56).
171
173
176
175
SCL
177
180
178
172
179
SDA
Stop Start
MSB
174
LSB
186
189
182
ACK
Stop
183
184
188
187
HREQ
AA0275
Figure 3-22 I2C Timing
DSP56364 Technical Data, Rev. 4.1
3-46
Freescale Semiconductor
Enhanced Serial Audio Interface Timing
3.13
Enhanced Serial Audio Interface Timing
Table 3-20 Enhanced Serial Audio Interface Timing
No.
430
431
Characteristics1, 2, 3
Clock cycle5
Expression
Min
Max
tSSICC
4 × TC
40.0
—
i ck
3 × TC
30.0
—
x ck
TXC:max[3*tc; t454]
40.0
—
x ck
—
• For external clock
435
436
437
438
439
440
441
442
10.0
—
1.5 × TC
15.0
—
ns
—
• For external clock
434
2 × TC − 10.0
Clock low period
• For internal clock
433
ns
ns
Clock high period
• For internal clock
432
Condition4 Unit
Symbol
RXC rising edge to FSR out (bl) high
—
RXC rising edge to FSR out (bl) low
—
RXC rising edge to FSR out (wr) high6
RXC rising edge to FSR out (wr) low6
RXC rising edge to FSR out (wl) high
RXC rising edge to FSR out (wl) low
—
—
—
—
Data in setup time before RXC (SCK in
synchronous mode) falling edge
—
Data in hold time after RXC falling edge
—
FSR input (bl, wr) high before RXC falling
edge6
—
FSR input (wl) high before RXC falling edge
—
2 × TC − 10.0
10.0
—
1.5 × TC
15.0
—
—
—
37.0
x ck
—
22.0
i ck a
—
37.0
x ck
—
22.0
i ck a
—
39.0
x ck
—
24.0
i ck a
—
39.0
x ck
—
24.0
i ck a
—
36.0
x ck
—
21.0
i ck a
—
37.0
x ck
—
22.0
i ck a
0.0
—
x ck
19.0
—
i ck
5.0
—
x ck
3.0
—
i ck
23.0
—
x ck
1.0
—
i ck a
1.0
—
x ck
23.0
—
i ck a
—
—
—
—
—
—
—
—
—
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-47
Enhanced Serial Audio Interface Timing
Table 3-20 Enhanced Serial Audio Interface Timing (continued)
No.
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
Characteristics1, 2, 3
FSR input hold time after RXC falling edge
Flags input setup before RXC falling edge
Flags input hold time after RXC falling edge
TXC rising edge to FST out (bl) high
Expression
Min
Max
—
—
3.0
—
x ck
0.0
—
i ck a
0.0
—
x ck
19.0
—
i ck s
6.0
—
x ck
0.0
—
i ck s
—
29.0
x ck
—
15.0
i ck
—
31.0
x ck
—
17.0
i ck
—
31.0
x ck
—
17.0
i ck
—
33.0
x ck
—
19.0
i ck
—
30.0
x ck
—
16.0
i ck
—
31.0
x ck
—
17.0
i ck
—
31.0
x ck
—
17.0
i ck
—
34.0
x ck
—
20.0
i ck
23 + 0.5 × TC
—
28.0
x ck
21.0
—
21.0
i ck
—
—
31.0
x ck
—
16.0
i ck
—
34.0
x ck
—
20.0
i ck
2.0
—
x ck
21.0
—
i ck
—
27.0
—
—
—
—
TXC rising edge to FST out (bl) low
—
TXC rising edge to FST out (wr) high6
TXC rising edge to FST out (wr) low6
TXC rising edge to FST out (wl) high
—
—
—
TXC rising edge to FST out (wl) low
—
TXC rising edge to data out enable from high
impedance
—
TXC rising edge to transmitter #0 drive enable
assertion
—
TXC rising edge to data out valid
—
TXC rising edge to data out high impedance7
Condition4 Unit
Symbol
—
TXC rising edge to transmitter #0 drive enable
deassertion7
—
FST input (bl, wr) setup time before TXC
falling edge6
—
FST input (wl) to data out enable from high
impedance
—
—
—
—
—
—
—
—
—
—
—
—
—
—
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
DSP56364 Technical Data, Rev. 4.1
3-48
Freescale Semiconductor
Enhanced Serial Audio Interface Timing
Table 3-20 Enhanced Serial Audio Interface Timing (continued)
No.
3
4
5
6
7
Expression
Min
Max
Condition4 Unit
FST input (wl) to transmitter #0 drive enable
assertion
—
—
—
31.0
—
ns
460
FST input (wl) setup time before TXC falling
edge
—
—
2.0
—
x ck
ns
21.0
—
i ck
FST input hold time after TXC falling edge
—
462
2
Symbol
459
461
1
Characteristics1, 2, 3
Flag output valid after TXC rising edge
—
—
—
4.0
—
x ck
0.0
—
i ck
—
32.0
x ck
—
18.0
i ck
ns
ns
463
HCKR/HCKT clock cycle
—
—
40.0
—
ns
464
HCKT input rising edge to TXC output
—
—
—
27.5
ns
465
HCKR input rising edge to RXC output
—
—
—
27.5
ns
VCC = 3.16 V ± 0.16 V; TJ = 0°C to +105°C, CL = 50 pF.
i ck = internal clock
x ck = external clock
i ck a = internal clock, asynchronous mode (asynchronous implies that TXC and RXC are two different clocks)
i ck s = internal clock, synchronous mode (synchronous implies that TXC and RXC are the same clock)
bl = bit length
wl = word length
wr = word length relative
TXC (SCKT pin) = transmit clock
RXC (SCKR pin) = receive clock
FST (FST pin) = transmit frame sync
FSR (FSR pin) = receive frame sync
HCKT (HCKT pin) = transmit high speed clock
HCKR (HCKR pin) = receive high speed clock
For the internal clock, the external clock cycle is defined by Icyc and the ESAI control register.
The word-relative frame sync signal waveform relative to the clock operates in the same manner as the bit-length frame sync
signal waveform, but spreads from one serial clock before first bit clock (same as bit length frame sync signal), until the one
before last bit clock of the first word in frame.
Periodically sampled and not 100% tested
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-49
Enhanced Serial Audio Interface Timing
430
TXC
(Input/Output)
431
432
446
447
FST (Bit)
Out
450
451
FST (Word)
Out
454
454
452
455
Data Out
First Bit
Last Bit
459
Transmitter
#0 Drive
Enable
457
453
FST (Bit) In
456
461
458
461
460
FST (Word) In
462
See Note
Flags Out
Note: In network mode, output flag transitions can occur at the start of each time slot within the
frame. In normal mode, the output flag state is asserted for the entire frame period.
AA0490
Figure 3-23 ESAI Transmitter Timing
DSP56364 Technical Data, Rev. 4.1
3-50
Freescale Semiconductor
Enhanced Serial Audio Interface Timing
430
431
RXC
(Input/Output)
432
433
434
FSR (Bit)
Out
437
438
FSR (Word)
Out
440
439
First Bit
Data In
Last Bit
443
441
FSR (Bit)
In
442
443
FSR (Word)
In
444
445
Flags In
AA0491
Figure 3-24 ESAI Receiver Timing
HCKT
SCKT (output)
463
464
Figure 3-25 ESAI HCKT Timing
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-51
GPIO Timing
HCKR
463
SCKR (output)
465
Figure 3-26 ESAI HCKR Timing
3.14
GPIO Timing
Table 3-21 GPIO Timing
Characteristics1
No.
1
2
Expression
Min
Max
Unit
4902
EXTAL edge to GPIO out valid (GPIO out delay time)
—
32.8
ns
491
EXTAL edge to GPIO out not valid (GPIO out hold time)
4.8
—
ns
492
GPIO In valid to EXTAL edge (GPIO in set-up time)
10.2
—
ns
493
EXTAL edge to GPIO in not valid (GPIO in hold time)
1.8
—
ns
4942
Fetch to EXTAL edge before GPIO change
6.75 × TC-1.8
65.7
—
ns
495
GPIO out rise time
—
—
13
ns
496
GPIO out fall time
—
—
13
ns
VCC = 3.3 V ± 0.16 V; TJ = 0°C to +105°C, CL = 50 pF
Valid only when PLL enabled with multiplication factor equal to one.
DSP56364 Technical Data, Rev. 4.1
3-52
Freescale Semiconductor
JTAG Timing
EXTAL
(Input)
490
491
GPIO
(Output)
492
493
GPIO
(Input)
Valid
A0–A17
494
Fetch the instruction MOVE X0,X:(R0); X0 contains the new value of GPIO
and R0 contains the address of GPIO data register.
GPIO
(Output)
495
496
Figure 3-27 GPIO Timing
3.15
JTAG Timing
Table 3-22 JTAG Timing1. 2
All Frequencies
No.
Characteristics
Unit
Min
Max
500
TCK frequency of operation (1/(TC × 3); maximum 22 MHz)
0.0
22.0
MHz
501
TCK cycle time in Crystal mode
45.0
—
ns
502
TCK clock pulse width measured at 1.5 V
20.0
—
ns
503
TCK rise and fall times
0.0
3.0
ns
504
Boundary scan input data setup time
5.0
—
ns
505
Boundary scan input data hold time
24.0
—
ns
506
TCK low to output data valid
0.0
40.0
ns
507
TCK low to output high impedance
0.0
40.0
ns
508
TMS, TDI data setup time
5.0
—
ns
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-53
JTAG Timing
Table 3-22 JTAG Timing1. 2 (continued)
All Frequencies
No.
1
2
Characteristics
Unit
Min
Max
509
TMS, TDI data hold time
25.0
—
ns
510
TCK low to TDO data valid
0.0
44.0
ns
511
TCK low to TDO high impedance
0.0
44.0
ns
VCC = 3.3 V ± 0.16 V; TJ = 0°C to +105°C, CL = 50 pF
All timings apply to OnCE module data transfers because it uses the JTAG port as an interface.
501
VIH
TCK
(Input)
502
502
VM
VM
VIL
503
503
AA0496
Figure 3-28 Test Clock Input Timing Diagram
TCK
(Input)
VIH
VIL
504
Data
Inputs
505
Input Data Valid
506
Data
Outputs
Output Data Valid
507
Data
Outputs
506
Data
Outputs
Output Data Valid
AA0497
Figure 3-29 Boundary Scan (JTAG) Timing Diagram
DSP56364 Technical Data, Rev. 4.1
3-54
Freescale Semiconductor
JTAG Timing
TCK
(Input)
VIH
VIL
508
TDI
TMS
(Input)
509
Input Data Valid
510
TDO
(Output)
Output Data Valid
511
TDO
(Output)
510
TDO
(Output)
Output Data Valid
AA0498
Figure 3-30 Test Access Port Timing Diagram
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
3-55
JTAG Timing
NOTES
DSP56364 Technical Data, Rev. 4.1
3-56
Freescale Semiconductor
4
4.1
Packaging
Pin-Out and Package Information
This section provides information about the available package for this product, including diagrams of the
package pinouts and tables describing how the signals described in Section 2, "Signal/Connection
Descriptions" are allocated for the package. The DSP56364 is available in a 100-pin TQFP package.
Table 4-1 and Table 4-2show the pin/name assignments for the packages.
4.1.1
TQFP Package Description
Top view of the 100-pin TQFP package is shown in Figure 4-1 with its pin-outs. The 100-pin TQFP
package mechanical drawing is shown in Figure 4-2.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
4-1
VCCD
D3
D2
D1
78
77
76
D5
82
79
D6
83
D4
D7
84
GNDD
NC
85
80
NC
86
81
GNDQ
VCCLQ
GPIO0
91
87
VCCS
92
88
GNDS
93
NC
GPIO1
94
VCCHQ
GPIO2
95
89
GPIO3
96
90
TDI
TDO
97
TCK
99
98
TMS
100
Pin-Out and Package Information
MODD
1
75
D0
MODB
2
74
A17
MODA
3
73
A16
FST
4
72
GNDA
FSR
5
71
VCCA
SCKT
6
70
A15
SCKR
7
69
A14
VCCS
8
68
A13
GNDS
9
67
A12
HCKT
10
66
VCCLQ
VCCLQ
11
65
GNDQ
GNDQ
12
64
GNDA
HCKR
13
63
VCCA
SDO0
14
62
A11
VCCHQ
15
61
VCCHQ
DSP56364
100-Pin TQPF
SDO1
16
60
A10
SDO2/SDI3
17
59
A9
SDO3/SDI2
18
58
A8
SDO4/SDI1
19
57
A7
SDO5/SDI0
20
56
GNDA
42
43
44
45
46
47
48
49
VCCC
GNDC
AA1
AA0
A0
A1
VCCA
GNDA
50
41
RD
A2
40
WR
37
VCCLQ
39
36
GNDQ
38
35
VCCHQ
TA
34
EXTAL
CAS
33
GNDP
A3
32
51
PCAP
25
31
MISO/SDA
30
A4
NC
52
VCCP
24
29
A5
MOSI/HA0
RESET
53
28
23
PINIT/NMI
A6
SS/HA2
27
VCCA
54
26
55
HREQ
21
22
SCK/SCL
VCCS
GNDS
Figure 4-1 DSP56364 100-Pin Thin Quad Flat Pack (TQFP), Top View
DSP56364 Technical Data, Rev. 4.1
4-2
Freescale Semiconductor
Pin-Out and Package Information
Table 4-1 DSP56364 100-Pin TQFP Signal Identification by Pin Number
Pin
No.
Signal Name
Pin
No.
Signal Name
Pin
No.
Signal Name
Pin
No.
Signal Name
1
MODD/IRQD
26
SCK/SCL
51
A3
76
D1
2
MODB/IRQB
27
HREQ
52
A4
77
D2
3
MODA/IRQA
28
PINIT/NMI
53
A5
78
D3
4
FST
29
RESET
54
A6
79
VCCD
5
FSR
30
No Connect
55
VCCA
80
GNDD
6
SCKT
31
VCCP
56
GNDA
81
D4
7
SCKR
32
PCAP
57
A7
82
D5
8
VCCS
33
GNDP
58
A8
83
D6
9
GNDS
34
EXTAL
59
A9
84
D7
10
HCKT
35
VCCHQ
60
A10
85
No Connect
11
VCCLQ
36
GNDQ
61
VCCHQ
86
No Connect
12
GNDQ
37
VCCLQ
62
A11
87
VCCLQ
13
HCKR
38
TA
63
VCCA
88
GNDQ
14
SDO0
39
CAS
64
GNDA
89
VCCHQ
15
VCCHQ
40
WR
65
GNDQ
90
No Connect
16
SDO1
41
RD
66
VCCLQ
91
GPIO0
17
SDO2/SDI3
42
VCCC
67
A12
92
VCCS
18
SDO3/SDI2
43
GNDC
68
A13
93
GNDS
19
SDO4/SDI1
44
AA1/RAS1
69
A14
94
GPIO1
20
SDO5/SDI0
45
AA0/RAS0
70
A15
95
GPIO2
21
VCCS
46
A0
71
VCCA
96
GPIO3
22
GNDS
47
A1
72
GNDA
97
TDO
23
SS/HA2
48
VCCA
73
A16
98
TDI
24
MOSI/HA0
49
GNDA
74
A17
99
TCK
25
MISO/SDA
50
A2
75
D0
100
TMS
Note: Signal names are based on configured functionality. Most pins supply a single signal. Some pins provide a signal
with dual functionality, such as the MODx/IRQx pins that select an operating mode after RESET is deasserted,
but act as interrupt lines during operation.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
4-3
Pin-Out and Package Information
Table 4-2 DSP56364 100-Pin TQFP Signal Identification by Name
Signal Name
Pin
No.
Signal Name
Pin
No.
Signal Name
Pin
No.
Signal Name
Pin
No.
A0
46
D4
81
HCKR
13
SDO4/SDI1
19
A1
47
D5
82
HCKT
10
TA
38
A10
60
D6
83
HREQ
27
TCK
99
A11
62
D7
84
MISO/SDA
25
TDI
98
A12
67
EXTAL
34
MODA/IRQA
3
TD0
97
A13
68
FSR
5
MODB/IRQB
2
TMS
100
A14
69
FST
4
MODD/IRQD
1
VCCA
48
A15
70
GNDA
49
MOSI/HA0
24
VCCA
55
A16
73
GNDA
56
No Connect
30
VCCA
63
A17
74
GNDA
64
No Connect
85
VCCA
71
A2
50
GNDA
72
No Connect
86
VCCC
42
A3
51
GNDC
43
No Connect
90
VCCD
79
A4
52
GNDD
80
PCAP
32
VCCHQ
15
A5
53
GNDP
33
PINIT/NMI
28
VCCHQ
35
A6
54
GNDQ
12
RD
41
VCCHQ
61
A7
57
GNDQ
36
RESET
29
VCCHQ
89
A8
58
GNDQ
65
SCK/SCL
26
VCCLQ
11
A9
59
GNDQ
88
SCKR
7
VCCLQ
37
AA0
45
GNDS
9
SCKT
6
VCCLQ
66
AA1
44
GNDS
22
SDO0
14
VCCLQ
87
CAS
39
GNDS
93
SDO1
16
VCCP
31
D0
75
GPIO0
91
SDO5/SDI0
20
VCCS
8
D1
76
GPIO1
94
SS/HA2
23
VCCS
21
D2
77
GPIO2
95
SDO2/SDI3
17
VCCS
92
D3
78
GPIO3
96
SDO3/SDI2
18
WR
40
DSP56364 Technical Data, Rev. 4.1
4-4
Freescale Semiconductor
Pin-Out and Package Information
4.1.2
TQFP Package Mechanical Drawing
Figure 4-2 DSP56364 100-pin TQFP Package
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
4-5
Pin-Out and Package Information
DSP56364 Technical Data, Rev. 4.1
4-6
Freescale Semiconductor
5
5.1
Design Considerations
Thermal Design Considerations
An estimation of the chip junction temperature, TJ, in °C can be obtained from the following equation:
T J = T A + ( P D × R θJA )
Where:
TA
= ambient temperature °C
RqJA = package junction-to-ambient thermal resistance °C/W
PD
= power dissipation in package W
Historically, thermal resistance has been expressed as the sum of a junction-to-case thermal resistance and
a case-to-ambient thermal resistance.
R θJA = R θJC + R θCA
Where:
RθJA = package junction-to-ambient thermal resistance °C/W
RθJC = package junction-to-case thermal resistance °C/W
RθCA = package case-to-ambient thermal resistance °C/W
RθJC is device-related and cannot be influenced by the user. The user controls the thermal environment to
change the case-to-ambient thermal resistance, RθCA. For example, the user can change the air flow around
the device, add a heat sink, change the mounting arrangement on the printed circuit board (PCB), or
otherwise change the thermal dissipation capability of the area surrounding the device on a PCB. This
model is most useful for ceramic packages with heat sinks; some 90% of the heat flow is dissipated through
the case to the heat sink and out to the ambient environment. For ceramic packages, in situations where
the heat flow is split between a path to the case and an alternate path through the PCB, analysis of the
device thermal performance may need the additional modeling capability of a system level thermal
simulation tool.
The thermal performance of plastic packages is more dependent on the temperature of the PCB to which
the package is mounted. Again, if the estimations obtained from RθJA do not satisfactorily answer whether
the thermal performance is adequate, a system level model may be appropriate.
A complicating factor is the existence of three common ways for determining the junction-to-case thermal
resistance in plastic packages.
• To minimize temperature variation across the surface, the thermal resistance is measured from the
junction to the outside surface of the package (case) closest to the chip mounting area when that
surface has a proper heat sink.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
5-1
Electrical Design Considerations
•
•
To define a value approximately equal to a junction-to-board thermal resistance, the thermal
resistance is measured from the junction to where the leads are attached to the case.
If the temperature of the package case (TT) is determined by a thermocouple, the thermal resistance
is computed using the value obtained by the equation:
( TJ – TT ) ⁄ PD
As noted above, the junction-to-case thermal resistances quoted in this data sheet are determined using the
first definition. From a practical standpoint, that value is also suitable for determining the junction
temperature from a case thermocouple reading in forced convection environments. In natural convection,
using the junction-to-case thermal resistance to estimate junction temperature from a thermocouple
reading on the case of the package will estimate a junction temperature slightly hotter than actual
temperature. Hence, the new thermal metric, thermal characterization parameter or ΨJT, has been defined
to be (TJ – TT)/PD. This value gives a better estimate of the junction temperature in natural convection
when using the surface temperature of the package. Remember that surface temperature readings of
packages are subject to significant errors caused by inadequate attachment of the sensor to the surface and
to errors caused by heat loss to the sensor. The recommended technique is to attach a 40-gauge
thermocouple wire and bead to the top center of the package with thermally conductive epoxy.
5.2
Electrical Design Considerations
CAUTION
This device contains circuitry protecting against damage due to high static
voltage or electrical fields. However, normal precautions should be taken to
avoid exceeding maximum voltage ratings. Reliability of operation is
enhanced if unused inputs are tied to an appropriate logic voltage level (e.g.,
either GND or VCC). The suggested value for a pull-up or pull-down resistor
is 10 k ohm.
Use the following list of recommendations to assure correct DSP operation:
• Provide a low-impedance path from the board power supply to each VCC pin on the DSP and from
the board ground to each GND pin.
• Use at least six 0.01–0.1 μF bypass capacitors positioned as close as possible to the four sides of
the package to connect the VCC power source to GND.
• Ensure that capacitor leads and associated printed circuit traces that connect to the chip VCC and
GND pins are less than 1.2 cm (0.5 inch) per capacitor lead.
• Use at least a four-layer PCB with two inner layers for VCC and GND.
• Because the DSP output signals have fast rise and fall times, PCB trace lengths should be minimal.
This recommendation particularly applies to the address and data buses as well as the IRQA,
IRQB, IRQD, and TA pins. Maximum PCB trace lengths on the order of 15 cm (6 inches) are
recommended.
• Consider all device loads as well as parasitic capacitance due to PCB traces when calculating
capacitance. This is especially critical in systems with higher capacitive loads that could create
higher transient currents in the VCC and GND circuits.
DSP56364 Technical Data, Rev. 4.1
5-2
Freescale Semiconductor
Power Consumption Considerations
•
•
•
•
•
5.3
All inputs must be terminated (i.e., not allowed to float) using CMOS levels, except for the three
pins with internal pull-up resistors (TMS, TDI, TCK).
Take special care to minimize noise levels on the VCCP and GNDP pins.
If multiple DSP56364 devices are on the same board, check for cross-talk or excessive spikes on
the supplies due to synchronous operation of the devices.
RESET must be asserted when the chip is powered up. A stable EXTAL signal must be supplied
before deassertion of RESET.
At power-up, ensure that the voltage difference between the 5 V tolerant pins and the chip VCC
never exceeds 3.95 V.
Power Consumption Considerations
Power dissipation is a key issue in portable DSP applications. Some of the factors which affect current
consumption are described in this section. Most of the current consumed by CMOS devices is alternating
current (ac), which is charging and discharging the capacitances of the pins and internal nodes.
Current consumption is described by the following formula:
I = C×V×f
where
C
V
f
= node/pin capacitance
= voltage swing
= frequency of node/pin toggle
Example 1. Current Consumption
For a Port A address pin loaded with 50 pF capacitance, operating at 3.3 V, and with a 100
MHz clock, toggling at its maximum possible rate (50 MHz), the current consumption is
I = 50 × 10
– 12
6
× 3.3 × 50 × 10 = 8.25mA
The maximum internal current (ICCImax) value reflects the typical possible switching of the internal buses
on best-case operation conditions, which is not necessarily a real application case. The typical internal
current (ICCItyp) value reflects the average switching of the internal buses on typical operating conditions.
For applications that require very low current consumption, do the following:
• Set the EBD bit when not accessing external memory.
• Minimize external memory accesses and use internal memory accesses.
• Minimize the number of pins that are switching.
• Minimize the capacitive load on the pins.
• Connect the unused inputs to pull-up or pull-down resistors.
• Disable unused peripherals.
One way to evaluate power consumption is to use a current per MIPS measurement methodology to
minimize specific board effects (i.e., to compensate for measured board current not caused by the DSP).
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
5-3
PLL Performance Issues
A benchmark power consumption test algorithm is listed in Appendix A, "IBIS Model". Use the test
algorithm, specific test current measurements, and the following equation to derive the current per MIPS
value.
I ⁄ MIPS = I ⁄ MHz = ( I typF2 – I typF1 ) ⁄ ( F2 – F1 )
where:
ItypF2
ItypF1
F2
F1
=
=
=
=
current at F2
current at F1
high frequency (any specified operating frequency)
low frequency (any specified operating frequency lower than F2)
NOTE
F1 should be significantly less than F2. For example, F2 could be 66 MHz
and F1 could be 33 MHz. The degree of difference between F1 and F2
determines the amount of precision with which the current rating can be
determined for an application.
5.4
PLL Performance Issues
The following explanations should be considered as general observations on expected PLL behavior.
There is no testing that verifies these exact numbers. These observations were measured on a limited
number of parts and were not verified over the entire temperature and voltage ranges.
5.4.1
Input (EXTAL) Jitter Requirements
The allowed jitter on the frequency of EXTAL is 0.5%. If the rate of change of the frequency of EXTAL
is slow (i.e., it does not jump between the minimum and maximum values in one cycle) or the frequency
of the jitter is fast (i.e., it does not stay at an extreme value for a long time), then the allowed jitter can be
2%. The phase and frequency jitter performance results are only valid if the input jitter is less than the
prescribed values.
DSP56364 Technical Data, Rev. 4.1
5-4
Freescale Semiconductor
6
Ordering Information
Consult a Freescale Semiconductor sales office or authorized distributor to determine product availability
and to place an order.
Table 6-1 Ordering Information1, 2
Part
Supply
Voltage
Package Type
Pin
Count
Frequency
(MHz)
Order Number
DSP56364
3.3 V
Thin quad flat pack (TQFP)
100
100
XCB56364FU100
Quad flat pack (QFP)
112
100
XCB56364PV100
1
The DSP56364 can include factory-programmed ROM. The listed ‘B’ ROM code is a generic unused ROM available
to any customer. Variations will be supported for Dolby digital (AC-3), DTS, MPEG2, and other features. These
products are only available to authorized licensees of those technologies. Please consult the web site at
www.freescale.com/dsp for current availability.
2 Future products in the DSP56364 family may include other ROM-based options. For additional information on future
part development, or to request customer-specific ROM-based support, call your local Freescale Semiconductor
sales office or authorized distributor.
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
6-1
NOTES
DSP56364 Technical Data, Rev. 4.1
6-2
Freescale Semiconductor
Appendix A IBIS Model
IBIS Model
[IBIS Ver]
3.2
[File name]
56364_e.ibs
[File Rev]
e
[Date]
Feb 13, 2002
[Component]
56364
[Manufacturer]
Freescale SEMI CONDUCTOR Ltd.
[Package]
| variable
typ
min
max
R_pkg
45.0m
22.0m
75.0m
L_pkg
2.5nH
1.1nH
4.3nH
C_pkg
1.3pF
1.2pF
1.4pF
[Pin]
signal_name
model_name
R_pin
1
irqd_
ipad5v_io
2
irqb_
ipad5v_io
3
irqa_
ipad5v_io
4
fst
ipad5v_io
5
fsr
ipad5v_io
6
sckt
ipad5v_io
7
sckr
ipad5v_io
8
vccs
power
9
gnds
gnd
10
hckt
ipad5v_io
11
vcclq
power
12
gndq
gnd
13
hckr
ipad5v_io
14
sdo0
ipad5v_io
15
vcchq
power
16
sdo1
ipad5v_io
17
sdo2/sdi3
ipad5v_io
18
sdo3/sdi2
ipad5v_io
19
sdo4/sdi1
ipad5v_io
20
sdo5/sdi0
ipad5v_io
21
vccs
power
22
gnds
gnd
23
ss_/ha2
ipad5v_io
24
mosi/ha0
ipad5v_io
25
miso/sda
ipad5i_io
26
sck/scl
ipad5i_io
27
hreq_
ipad5i_io
28
pinit/nmi_
ipad5v_io
29
reset_
ipad5v_io
31
vccp
power
32
pcap
power
33
gndp
gnd
34
extal
ipadex_i
35
vcchq
power
L_pin
C_pin
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-1
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
87
88
89
91
92
93
gndq
vcclq
ta_
cas_
wr_
rd_
vccc
gndc
aa1/ras1_
aa0/ras0_
a0
a1
vcca
gnda
a2
a3
a4
a5
a6
vcca
gnda
a7
a8
a9
a10
vcchq
a11
vcca
gnda
gndq
vcclq
a12
a13
a14
a15
vcca
gnda
a16
a17
d0
d1
d2
d3
vccd
gndd
d4
d5
d6
d7
vcclq
gndq
vcchq
gpio0
vccs
gnds
gnd
power
ipadn_io
ipadm_3st
ipadn_io
ipadn_io
power
gnd
ipado_3st
ipado_3st
ipada_3st
ipada_3st
power
gnd
ipada_3st
ipada_3st
ipada_3st
ipada_3st
ipada_3st
power
gnd
ipada_3st
ipada_3st
ipada_3st
ipada_3st
power
ipada_3st
power
gnd
gnd
power
power
ipada_3st
ipada_3st
ipada_3st
power
gnd
ipada_3st
ipada_3st
ipadd_io
ipadd_io
ipadd_io
ipadd_io
power
gnd
ipadd_io
ipadd_io
ipadd_io
ipadd_io
power
gnd
power
ipad5v_io
power
gnd
DSP56364 Technical Data, Rev. 4.1
A-2
Freescale Semiconductor
94
95
96
97
98
99
100
gpio1
gpio2
gpio3
tdo
tdi
tck
tms
ipad5v_io
ipad5v_io
ipad5v_io
ipad5f_io
ipad5f_io
ipad5f_io
ipad5f_io
[Model]
ipad5f_io
| ""
Model_type
I/O
Vinl = 0.8
Vinh = 2
| variable
typ
min
max
C_comp
1.96p
1.87p
2.06p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-142.303u -76.239u -215.182u
-3.20V
-149.700u -80.226u -226.432u
-3.10V
-157.861u -84.616u -238.866u
-3.00V
-166.908u -89.472u -252.678u
-2.90V
-176.992u -94.869u -268.107u
-2.80V
-188.295u -100.900u -285.446u
-2.70V
-201.049u -107.679u -305.068u
-2.60V
-215.545u -115.349u -327.446u
-2.50V
-232.155u -124.094u -353.191u
-2.40V
-251.367u -134.145u -383.107u
-2.30V
-273.825u -145.808u -418.273u
-2.20V
-300.403u -159.488u -460.167u
-2.10V
-332.314u -175.737u -510.874u
-2.00V
-371.286u -195.318u -573.418u
-1.90V
-419.868u -219.325u -652.360u
-1.80V
-481.968u -249.369u -754.892u
-1.70V
-563.882u -287.925u -893.013u
-1.60V
-676.382u -338.973u
-1.088m
-1.50V
-839.410u -409.300u
-1.383m
-1.40V
-1.094m -511.367u
-1.873m
-1.30V
-1.537m -670.350u
-2.819m
-1.20V
-2.451m -943.845u
-5.162m
-1.10V
-4.857m
-1.486m -12.214m
-1.00V
-10.606m
-2.746m -20.764m
-0.90V
-14.267m
-5.259m -21.749m
-0.80V
-13.851m
-7.108m -20.142m
-0.70V
-12.481m
-7.168m -18.211m
-0.60V
-10.883m
-6.348m -15.981m
-0.50V
-9.156m
-5.339m -13.503m
-0.40V
-7.378m
-4.288m -10.922m
-0.30V
-5.572m
-3.224m
-8.282m
-0.20V
-3.741m
-2.154m
-5.584m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-3
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
-1.885m
1.898p
1.857m
3.630m
5.323m
6.936m
8.467m
9.915m
11.275m
12.546m
13.723m
36.925m
39.391m
41.612m
43.585m
45.305m
46.773m
47.997m
48.985m
49.733m
50.257m
50.612m
50.858m
51.040m
51.182m
51.302m
51.405m
51.497m
51.581m
51.658m
51.727m
51.757m
51.229m
49.190m
49.441m
51.034m
54.363m
57.165m
58.834m
60.328m
61.725m
63.035m
64.319m
65.598m
66.836m
67.999m
69.069m
70.046m
70.938m
71.751m
72.476m
73.089m
73.531m
73.651m
72.901m
-1.080m
1.419p
1.057m
2.064m
3.023m
3.935m
4.798m
5.611m
6.371m
7.078m
7.726m
20.745m
22.074m
23.244m
24.247m
25.079m
25.741m
26.251m
26.633m
26.905m
27.092m
27.223m
27.321m
27.399m
27.465m
27.522m
27.572m
27.618m
27.657m
27.674m
27.587m
27.577m
28.700m
30.042m
31.171m
32.199m
33.153m
34.039m
34.872m
35.686m
36.495m
37.291m
38.051m
38.755m
39.394m
39.962m
40.453m
40.840m
41.065m
40.952m
40.067m
39.395m
39.313m
39.358m
39.410m
-2.825m
1.871p
2.800m
5.482m
8.052m
10.508m
12.849m
15.073m
17.176m
19.155m
21.011m
56.704m
60.708m
64.383m
67.726m
70.735m
73.414m
75.766m
77.783m
79.441m
80.724m
81.651m
82.294m
82.744m
83.074m
83.332m
83.543m
83.724m
83.884m
84.030m
84.165m
84.290m
84.409m
84.515m
84.491m
81.077m
79.736m
80.276m
82.430m
85.482m
91.743m
94.219m
96.276m
98.249m
100.059m
101.849m
103.628m
105.345m
106.956m
108.448m
109.826m
111.106m
112.297m
113.400m
114.401m
DSP56364 Technical Data, Rev. 4.1
A-4
Freescale Semiconductor
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
71.005m
70.389m
70.321m
70.361m
70.422m
70.489m
70.557m
70.624m
70.690m
70.753m
70.817m
70.881m
70.949m
39.460m
39.508m
39.552m
39.595m
39.634m
39.672m
39.708m
39.743m
39.777m
39.812m
39.848m
39.886m
39.929m
115.267m
115.917m
116.139m
114.582m
111.344m
110.612m
110.449m
110.455m
110.515m
110.595m
110.686m
110.783m
110.885m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
75.797u
7.914u 161.477u
-3.20V
90.464u
17.699u 181.779u
-3.10V
105.160u
27.445u 202.314u
-3.00V
119.836u
37.119u 223.007u
-2.90V
134.451u
46.694u 243.785u
-2.80V
148.966u
56.144u 264.581u
-2.70V
163.342u
65.447u 285.332u
-2.60V
177.543u
74.582u 305.982u
-2.50V
191.536u
83.527u 326.474u
-2.40V
205.285u
92.262u 346.757u
-2.30V
218.754u 100.766u 366.776u
-2.20V
231.907u 109.016u 386.478u
-2.10V
244.706u 116.988u 405.807u
-2.00V
257.106u 124.659u 424.699u
-1.90V
269.061u 131.998u 443.089u
-1.80V
280.519u 138.978u 460.899u
-1.70V
291.423u 145.565u 478.046u
-1.60V
301.710u 151.723u 494.457u
-1.50V
311.348u 157.417u 521.406u
-1.40V
729.899u 162.626u
1.612m
-1.30V
10.510m 445.517u
14.832m
-1.20V
9.629m
6.444m
13.576m
-1.10V
8.670m
5.833m
12.231m
-1.00V
7.693m
5.190m
10.854m
-0.90V
6.732m
4.551m
9.483m
-0.80V
5.825m
3.942m
8.169m
-0.70V
5.004m
3.382m
6.971m
-0.60V
4.261m
2.869m
5.921m
-0.50V
3.549m
2.381m
4.953m
-0.40V
2.841m
1.902m
3.978m
-0.30V
2.135m
1.426m
2.987m
-0.20V
1.437m 951.489u
2.003m
-0.10V
722.340u 478.341u
1.005m
-0.00V
22.329p
3.311p
24.081p
0.10V
-708.556u -465.927u -990.647u
0.20V
-1.377m -903.637u
-1.943m
0.30V
-2.007m
-1.319m
-2.832m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-5
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
-2.614m
-3.192m
-3.738m
-4.253m
-4.736m
-5.185m
-5.600m
-5.980m
-6.324m
-6.631m
-29.730m
-30.749m
-31.630m
-32.393m
-33.055m
-33.632m
-34.135m
-34.575m
-34.960m
-35.302m
-35.608m
-35.884m
-36.137m
-36.370m
-36.586m
-36.788m
-36.978m
-37.157m
-37.327m
-37.489m
-37.643m
-37.791m
-37.933m
-38.070m
-38.202m
-38.332m
-38.460m
-38.590m
-38.714m
-38.828m
-38.949m
-39.076m
-39.211m
-39.357m
-39.516m
-39.693m
-39.893m
-40.121m
-40.384m
-40.689m
-41.043m
-41.444m
-41.886m
-42.370m
-42.899m
-1.710m
-2.079m
-2.423m
-2.742m
-3.037m
-3.305m
-3.547m
-3.762m
-3.948m
-17.709m
-18.279m
-18.747m
-19.131m
-19.454m
-19.730m
-19.973m
-20.188m
-20.381m
-20.556m
-20.715m
-20.861m
-20.997m
-21.123m
-21.241m
-21.352m
-21.457m
-21.556m
-21.650m
-21.741m
-21.827m
-21.909m
-21.989m
-22.067m
-22.143m
-22.216m
-22.284m
-22.352m
-22.420m
-22.490m
-22.561m
-22.635m
-22.713m
-22.798m
-22.892m
-22.997m
-23.116m
-23.253m
-23.411m
-23.595m
-23.801m
-24.032m
-24.288m
-24.570m
-24.880m
-25.217m
-3.702m
-4.537m
-5.336m
-6.096m
-6.817m
-7.499m
-8.139m
-8.737m
-9.292m
-9.802m
-10.265m
-45.983m
-47.620m
-49.086m
-50.392m
-51.551m
-52.571m
-53.463m
-54.240m
-54.917m
-55.510m
-56.035m
-56.505m
-56.932m
-57.322m
-57.683m
-58.019m
-58.334m
-58.631m
-58.913m
-59.181m
-59.436m
-59.681m
-59.916m
-60.142m
-60.361m
-60.573m
-60.780m
-60.986m
-61.194m
-61.406m
-61.623m
-61.819m
-62.024m
-62.254m
-62.506m
-62.785m
-63.098m
-63.453m
-63.860m
-64.330m
-64.874m
-65.505m
-66.214m
-66.983m
DSP56364 Technical Data, Rev. 4.1
A-6
Freescale Semiconductor
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
-43.473m
-44.095m
-44.769m
-45.498m
-46.287m
-47.140m
-48.049m
-48.990m
I(typ)
-1.875
-1.793
-1.711
-1.548
-1.466
-1.385
-1.303
-1.221
-1.140
-1.059
-977.735m
-896.773m
-735.446m
-655.171m
-575.242m
-495.760m
-416.878m
-338.839m
-262.067m
-187.395m
-116.756m
-16.024m
-2.254m
-476.015u
-85.877u
-8.033u
-432.304n
-20.874n
-964.564p
-72.583p
-33.685p
-27.665p
-22.754p
-18.303p
-14.129p
-9.979p
-5.833p
-1.689p
2.454p
6.596p
14.877p
19.017p
-25.585m
-25.983m
-26.415m
-26.884m
-27.390m
-27.929m
-28.487m
-29.080m
-67.815m
-68.711m
-69.678m
-70.721m
-71.848m
-73.065m
-74.374m
-75.748m
I(min)
I(max)
-1.074
-1.029
-983.765m
-893.931m
-849.071m
-804.256m
-759.489m
-714.777m
-670.127m
-625.548m
-581.048m
-536.642m
-448.177m
-404.164m
-360.342m
-316.758m
-273.482m
-230.618m
-188.327m
-146.891m
-106.839m
-37.029m
-14.319m
-2.883m
-295.354u
-33.637u
-3.576u
-340.944n
-30.895n
-2.560n
-210.508p
-30.628p
13.546p
48.356p
81.869p
114.849p
147.499p
179.924p
212.188p
244.335p
308.388p
340.335p
-2.155
-2.059
-1.963
-1.771
-1.675
-1.579
-1.483
-1.388
-1.292
-1.197
-1.102
-1.007
-817.634m
-723.409m
-629.587m
-536.295m
-443.730m
-352.222m
-262.384m
-175.533m
-95.231m
-6.612m
-2.370m
-845.181u
-147.930u
-9.999u
-310.975n
-8.593n
-258.649p
-43.910p
-34.610p
-29.748p
-25.110p
-20.906p
-16.971p
-13.050p
-9.130p
-5.210p
-1.291p
2.628p
10.466p
14.384p
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-7
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
|
[POWER_clamp]
|
|Voltage
|
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
23.157p
27.297p
31.436p
35.576p
39.715p
43.855p
47.995p
56.277p
60.418p
64.561p
68.706p
72.847p
76.869p
80.074p
82.499p
84.837p
89.018p
89.573p
103.108p
I(typ)
372.250p
404.143p
436.027p
467.910p
499.805p
531.722p
563.675p
627.761p
659.933p
692.106p
723.142p
751.973p
780.264p
808.442p
835.513p
860.391p
1.265n
1.305n
1.593n
I(min)
-33.685p
-72.583p
-964.564p
-20.874n
-432.304n
-8.033u
-85.877u
-2.254m
-16.024m
-55.636m
-116.756m
-187.395m
-262.067m
-338.839m
-416.878m
-495.760m
-655.171m
-735.446m
-815.997m
-896.773m
-977.735m
-1.059
-1.140
-1.221
-1.303
-1.466
-1.548
-1.630
-1.711
-1.793
-1.875
-340.944n
-3.576u
-33.637u
-295.354u
-2.883m
-14.319m
-37.029m
-106.839m
-146.891m
-188.327m
-230.618m
-273.482m
-316.758m
-360.342m
-404.164m
-448.177m
-536.642m
-581.048m
-625.548m
-670.127m
-714.777m
-759.489m
-804.256m
-849.071m
-893.931m
-983.765m
-1.029
-1.074
-1.119
-1.164
-1.209
18.302p
22.221p
26.139p
30.057p
33.974p
37.892p
41.810p
49.646p
53.564p
57.482p
61.400p
65.319p
69.237p
73.156p
77.065p
80.794p
86.195p
88.344p
90.478p
I(max)
-20.906p
-25.110p
-29.748p
-34.610p
-43.910p
-258.649p
-8.593n
-9.999u
-147.930u
-845.181u
-2.370m
-6.612m
-33.199m
-95.231m
-175.533m
-262.384m
-443.730m
-536.295m
-629.587m
-723.409m
-817.634m
-912.174m
-1.007
-1.102
-1.197
-1.388
-1.483
-1.579
-1.675
-1.771
-1.867
DSP56364 Technical Data, Rev. 4.1
A-8
Freescale Semiconductor
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
2.04/136.004p 1.86/237.542p 2.23/85.504p
|
dV/dt_r
2.05/194.744p 1.86/343.805p 2.23/118.850p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipad5i_io
| ""
Model_type
I/O
Vinl = 0.8
Vinh = 2
| variable
typ
min
max
C_comp
4.44p
3.89p
4.56p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-142.303u -76.239u -215.182u
-3.20V
-149.700u -80.226u -226.432u
-3.10V
-157.861u -84.616u -238.866u
-3.00V
-166.908u -89.472u -252.678u
-2.90V
-176.992u -94.869u -268.107u
-2.80V
-188.295u -100.900u -285.446u
-2.70V
-201.049u -107.679u -305.068u
-2.60V
-215.545u -115.349u -327.446u
-2.50V
-232.155u -124.094u -353.191u
-2.40V
-251.367u -134.145u -383.107u
-2.30V
-273.825u -145.808u -418.273u
-2.20V
-300.403u -159.488u -460.167u
-2.10V
-332.314u -175.737u -510.874u
-2.00V
-371.286u -195.318u -573.418u
-1.90V
-419.868u -219.325u -652.360u
-1.80V
-481.968u -249.369u -754.892u
-1.70V
-563.882u -287.925u -893.013u
-1.60V
-676.382u -338.973u
-1.088m
-1.50V
-839.410u -409.300u
-1.383m
-1.40V
-1.094m -511.367u
-1.873m
-1.30V
-1.537m -670.350u
-2.819m
-1.20V
-2.451m -943.845u
-5.162m
-1.10V
-4.857m
-1.486m -12.214m
-1.00V
-10.606m
-2.746m -20.764m
-0.90V
-14.267m
-5.259m -21.749m
-0.80V
-13.851m
-7.108m -20.142m
-0.70V
-12.481m
-7.168m -18.211m
-0.60V
-10.883m
-6.348m -15.981m
-0.50V
-9.156m
-5.339m -13.503m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-9
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
-7.378m
-5.572m
-3.741m
-1.885m
1.898p
1.857m
3.630m
5.323m
6.936m
8.467m
9.915m
11.275m
12.546m
13.723m
36.925m
39.391m
41.612m
43.585m
45.305m
46.773m
47.997m
48.985m
49.733m
50.257m
50.612m
50.858m
51.040m
51.182m
51.302m
51.405m
51.497m
51.581m
51.658m
51.729m
51.781m
51.640m
50.282m
50.273m
51.871m
55.121m
57.228m
58.838m
60.328m
61.725m
63.035m
64.321m
65.602m
66.844m
68.012m
69.088m
70.072m
70.973m
71.794m
72.529m
73.152m
-4.288m
-3.224m
-2.154m
-1.080m
1.419p
1.057m
2.064m
3.023m
3.935m
4.798m
5.611m
6.371m
7.078m
7.726m
20.745m
22.074m
23.244m
24.247m
25.079m
25.741m
26.251m
26.633m
26.905m
27.092m
27.223m
27.321m
27.399m
27.465m
27.522m
27.572m
27.618m
27.658m
27.683m
27.643m
27.704m
28.793m
30.065m
31.174m
32.200m
33.153m
34.039m
34.872m
35.687m
36.498m
37.296m
38.059m
38.767m
39.409m
39.982m
40.478m
40.871m
41.102m
40.996m
40.118m
39.453m
-10.922m
-8.282m
-5.584m
-2.825m
1.871p
2.800m
5.482m
8.052m
10.508m
12.849m
15.073m
17.176m
19.155m
21.011m
56.704m
60.708m
64.383m
67.726m
70.735m
73.414m
75.766m
77.783m
79.441m
80.724m
81.651m
82.294m
82.744m
83.074m
83.332m
83.543m
83.724m
83.884m
84.030m
84.165m
84.290m
84.409m
84.519m
84.574m
83.365m
80.948m
81.423m
83.424m
87.158m
91.951m
94.228m
96.276m
98.249m
100.060m
101.853m
103.638m
105.361m
106.982m
108.484m
109.875m
111.168m
DSP56364 Technical Data, Rev. 4.1
A-10
Freescale Semiconductor
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
73.605m
73.737m
72.999m
71.115m
70.512m
70.457m
70.511m
70.586m
70.667m
70.749m
70.831m
70.911m
70.989m
71.068m
71.148m
71.230m
39.379m
39.432m
39.492m
39.551m
39.608m
39.661m
39.713m
39.762m
39.809m
39.855m
39.899m
39.944m
39.988m
40.034m
40.083m
40.136m
112.374m
113.492m
114.510m
115.392m
116.061m
116.301m
114.763m
111.545m
110.833m
110.689m
110.716m
110.796m
110.897m
111.009m
111.127m
111.250m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
357.190u 184.381u 591.381u
-3.20V
356.622u 184.121u 590.188u
-3.10V
356.193u 183.920u 589.287u
-3.00V
355.875u 183.765u 588.617u
-2.90V
355.641u 183.645u 588.129u
-2.80V
355.468u 183.550u 587.779u
-2.70V
355.340u 183.472u 587.528u
-2.60V
355.242u 183.405u 587.349u
-2.50V
355.163u 183.345u 587.218u
-2.40V
355.097u 183.288u 587.118u
-2.30V
355.036u 183.233u 587.036u
-2.20V
354.978u 183.177u 586.964u
-2.10V
354.920u 183.119u 586.896u
-2.00V
354.860u 183.060u 586.829u
-1.90V
354.799u 182.997u 586.762u
-1.80V
354.734u 182.931u 586.692u
-1.70V
354.666u 182.862u 586.621u
-1.60V
354.595u 182.788u 586.574u
-1.50V
354.559u 182.711u 597.934u
-1.40V
764.198u 182.650u
1.674m
-1.30V
10.536m 460.815u
14.880m
-1.20V
9.648m
6.455m
13.612m
-1.10V
8.683m
5.841m
12.257m
-1.00V
7.701m
5.195m
10.870m
-0.90V
6.737m
4.554m
9.492m
-0.80V
5.827m
3.944m
8.173m
-0.70V
5.004m
3.383m
6.972m
-0.60V
4.262m
2.870m
5.921m
-0.50V
3.549m
2.382m
4.953m
-0.40V
2.841m
1.902m
3.978m
-0.30V
2.134m
1.426m
2.985m
-0.20V
1.434m 951.249u
2.002m
-0.10V
721.882u 477.946u
1.005m
-0.00V
23.094p
36.805p
24.891p
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-11
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
-708.040u -465.659u -990.277u
-1.374m -903.549u
-1.941m
-2.007m
-1.319m
-2.832m
-2.614m
-1.710m
-3.702m
-3.192m
-2.079m
-4.537m
-3.738m
-2.423m
-5.336m
-4.253m
-2.742m
-6.096m
-4.736m
-3.037m
-6.817m
-5.185m
-3.305m
-7.499m
-5.600m
-3.547m
-8.139m
-5.980m
-3.762m
-8.737m
-6.324m
-3.948m
-9.292m
-6.631m -17.709m
-9.802m
-29.730m -18.279m -10.265m
-30.749m -18.747m -45.983m
-31.630m -19.131m -47.620m
-32.393m -19.454m -49.086m
-33.055m -19.730m -50.392m
-33.632m -19.973m -51.551m
-34.135m -20.188m -52.571m
-34.575m -20.381m -53.463m
-34.960m -20.556m -54.240m
-35.302m -20.715m -54.917m
-35.608m -20.861m -55.510m
-35.884m -20.997m -56.035m
-36.137m -21.123m -56.505m
-36.370m -21.241m -56.932m
-36.586m -21.352m -57.322m
-36.788m -21.457m -57.683m
-36.978m -21.556m -58.019m
-37.157m -21.650m -58.334m
-37.327m -21.741m -58.631m
-37.489m -21.827m -58.913m
-37.643m -21.909m -59.181m
-37.791m -21.989m -59.436m
-37.933m -22.067m -59.681m
-38.070m -22.143m -59.916m
-38.202m -22.216m -60.142m
-38.332m -22.284m -60.361m
-38.460m -22.352m -60.573m
-38.590m -22.420m -60.780m
-38.714m -22.490m -60.986m
-38.828m -22.561m -61.194m
-38.949m -22.635m -61.406m
-39.076m -22.713m -61.623m
-39.211m -22.798m -61.819m
-39.357m -22.892m -62.024m
-39.516m -22.997m -62.254m
-39.693m -23.116m -62.506m
-39.893m -23.253m -62.785m
-40.121m -23.411m -63.098m
-40.384m -23.595m -63.453m
-40.689m -23.801m -63.860m
-41.043m -24.032m -64.330m
-41.444m -24.288m -64.874m
DSP56364 Technical Data, Rev. 4.1
A-12
Freescale Semiconductor
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
-41.886m
-42.370m
-42.899m
-43.473m
-44.095m
-44.769m
-45.498m
-46.287m
-47.140m
-48.049m
-48.990m
I(typ)
-1.875
-1.793
-1.711
-1.548
-1.466
-1.385
-1.303
-1.221
-1.140
-1.059
-977.740m
-896.779m
-735.452m
-655.177m
-575.247m
-495.766m
-416.883m
-338.844m
-262.072m
-187.399m
-116.760m
-16.027m
-2.255m
-476.049u
-85.878u
-8.033u
-432.308n
-20.878n
-968.068p
-75.987p
-36.990p
-30.869p
-25.858p
-21.307p
-17.033p
-12.783p
-8.537p
-4.293p
-49.635f
-24.570m
-24.880m
-25.217m
-25.585m
-25.983m
-26.415m
-26.884m
-27.390m
-27.929m
-28.487m
-29.080m
-65.505m
-66.214m
-66.983m
-67.815m
-68.711m
-69.678m
-70.721m
-71.848m
-73.065m
-74.374m
-75.748m
I(min)
I(max)
-1.074
-1.029
-983.769m
-893.934m
-849.075m
-804.259m
-759.493m
-714.781m
-670.131m
-625.551m
-581.052m
-536.646m
-448.180m
-404.167m
-360.345m
-316.761m
-273.485m
-230.621m
-188.330m
-146.893m
-106.842m
-37.031m
-14.321m
-2.884m
-295.501u
-33.646u
-3.576u
-340.971n
-30.900n
-2.564n
-214.009p
-34.018p
10.263p
45.181p
78.801p
111.888p
144.645p
177.177p
209.548p
-2.155
-2.059
-1.963
-1.771
-1.675
-1.579
-1.483
-1.388
-1.292
-1.197
-1.102
-1.007
-817.639m
-723.415m
-629.593m
-536.300m
-443.735m
-352.227m
-262.388m
-175.537m
-95.235m
-6.614m
-2.370m
-845.183u
-147.930u
-9.999u
-310.979n
-8.597n
-262.449p
-47.610p
-38.210p
-33.249p
-28.510p
-24.206p
-20.171p
-16.150p
-12.130p
-8.110p
-4.091p
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-13
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
|
[POWER_clamp]
|
|Voltage
|
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
4.192p
12.674p
16.914p
21.154p
25.393p
29.633p
-31.788p
38.112p
42.352p
46.592p
55.074p
59.316p
63.559p
67.803p
72.044p
76.162p
79.409p
81.838p
84.178p
88.733p
90.025p
96.129p
I(typ)
-36.990p
-75.987p
-968.068p
-20.878n
-432.308n
-8.033u
-85.878u
-2.255m
-16.027m
-55.640m
-116.760m
-187.399m
-262.072m
-338.844m
-416.883m
-495.766m
-655.177m
-735.452m
-816.003m
-896.779m
-977.740m
-1.059
-1.140
-1.221
-1.303
-1.466
-1.548
-1.630
241.802p
306.070p
338.124p
370.146p
402.147p
434.138p
466.129p
498.131p
530.156p
562.217p
626.519p
658.799p
691.080p
722.224p
751.129p
779.443p
807.731p
835.534p
864.770p
1.234n
1.247n
1.274n
-71.907f
7.965p
11.984p
16.002p
20.020p
24.038p
28.056p
-33.622p
36.092p
40.110p
48.146p
52.164p
56.182p
60.200p
64.219p
68.237p
72.256p
76.265p
80.080p
85.501p
87.652p
89.793p
I(min)
I(max)
-340.971n
-3.576u
-33.646u
-295.501u
-2.884m
-14.321m
-37.031m
-106.842m
-146.893m
-188.330m
-230.621m
-273.485m
-316.761m
-360.345m
-404.167m
-448.180m
-536.646m
-581.052m
-625.551m
-670.131m
-714.781m
-759.493m
-804.259m
-849.075m
-893.934m
-983.769m
-1.029
-1.074
-24.206p
-28.510p
-33.249p
-38.210p
-47.610p
-262.449p
-8.597n
-9.999u
-147.930u
-845.183u
-2.370m
-6.614m
-33.203m
-95.235m
-175.537m
-262.388m
-443.735m
-536.300m
-629.593m
-723.415m
-817.639m
-912.179m
-1.007
-1.102
-1.197
-1.388
-1.483
-1.579
DSP56364 Technical Data, Rev. 4.1
A-14
Freescale Semiconductor
6.40V
6.50V
6.60V
-1.711
-1.793
-1.875
-1.119
-1.164
-1.209
-1.675
-1.771
-1.867
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
2.01/129.093p 1.83/223.594p 2.20/79.668p
|
dV/dt_r
2.02/200.492p 1.83/352.515p 2.20/122.321p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipad5v_io
| ""
Model_type
I/O
Vinl = 0.8
Vinh = 2
| variable
typ
min
max
C_comp
1.96p
1.87p
2.06p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-142.303u -76.239u -215.182u
-3.20V
-149.700u -80.226u -226.432u
-3.10V
-157.861u -84.616u -238.866u
-3.00V
-166.908u -89.472u -252.678u
-2.90V
-176.992u -94.869u -268.107u
-2.80V
-188.295u -100.900u -285.446u
-2.70V
-201.049u -107.679u -305.068u
-2.60V
-215.545u -115.349u -327.446u
-2.50V
-232.155u -124.094u -353.191u
-2.40V
-251.367u -134.145u -383.107u
-2.30V
-273.825u -145.808u -418.273u
-2.20V
-300.403u -159.488u -460.167u
-2.10V
-332.314u -175.737u -510.874u
-2.00V
-371.286u -195.318u -573.418u
-1.90V
-419.868u -219.325u -652.360u
-1.80V
-481.968u -249.369u -754.892u
-1.70V
-563.882u -287.925u -893.013u
-1.60V
-676.382u -338.973u
-1.088m
-1.50V
-839.410u -409.300u
-1.383m
-1.40V
-1.094m -511.367u
-1.873m
-1.30V
-1.537m -670.350u
-2.819m
-1.20V
-2.451m -943.845u
-5.162m
-1.10V
-4.857m
-1.486m -12.214m
-1.00V
-10.606m
-2.746m -20.764m
-0.90V
-14.267m
-5.259m -21.749m
-0.80V
-13.851m
-7.108m -20.142m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-15
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
-12.481m
-10.883m
-9.156m
-7.378m
-5.572m
-3.741m
-1.885m
1.898p
1.857m
3.630m
5.323m
6.936m
8.467m
9.915m
11.275m
12.546m
13.723m
36.925m
39.391m
41.612m
43.585m
45.305m
46.773m
47.997m
48.985m
49.733m
50.257m
50.612m
50.858m
51.040m
51.182m
51.302m
51.405m
51.497m
51.581m
51.658m
51.727m
51.757m
51.229m
49.190m
49.441m
51.034m
54.363m
57.165m
58.834m
60.328m
61.725m
63.035m
64.319m
65.598m
66.836m
67.999m
69.069m
70.046m
70.938m
-7.168m
-6.348m
-5.339m
-4.288m
-3.224m
-2.154m
-1.080m
1.419p
1.057m
2.064m
3.023m
3.935m
4.798m
5.611m
6.371m
7.078m
7.726m
20.745m
22.074m
23.244m
24.247m
25.079m
25.741m
26.251m
26.633m
26.905m
27.092m
27.223m
27.321m
27.399m
27.465m
27.522m
27.572m
27.618m
27.657m
27.674m
27.587m
27.577m
28.700m
30.042m
31.171m
32.199m
33.153m
34.039m
34.872m
35.686m
36.495m
37.291m
38.051m
38.755m
39.394m
39.962m
40.453m
40.840m
41.065m
-18.211m
-15.981m
-13.503m
-10.922m
-8.282m
-5.584m
-2.825m
1.871p
2.800m
5.482m
8.052m
10.508m
12.849m
15.073m
17.176m
19.155m
21.011m
56.704m
60.708m
64.383m
67.726m
70.735m
73.414m
75.766m
77.783m
79.441m
80.724m
81.651m
82.294m
82.744m
83.074m
83.332m
83.543m
83.724m
83.884m
84.030m
84.165m
84.290m
84.409m
84.515m
84.491m
81.077m
79.736m
80.276m
82.430m
85.482m
91.743m
94.219m
96.276m
98.249m
100.059m
101.849m
103.628m
105.345m
106.956m
DSP56364 Technical Data, Rev. 4.1
A-16
Freescale Semiconductor
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
71.751m
72.476m
73.089m
73.531m
73.651m
72.901m
71.005m
70.389m
70.321m
70.361m
70.422m
70.489m
70.557m
70.624m
70.690m
70.753m
70.817m
70.881m
70.949m
40.952m
40.067m
39.395m
39.313m
39.358m
39.410m
39.460m
39.508m
39.552m
39.595m
39.634m
39.672m
39.708m
39.743m
39.777m
39.812m
39.848m
39.886m
39.929m
108.448m
109.826m
111.106m
112.297m
113.400m
114.401m
115.267m
115.917m
116.139m
114.582m
111.344m
110.612m
110.449m
110.455m
110.515m
110.595m
110.686m
110.783m
110.885m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
75.797u
7.914u 161.477u
-3.20V
90.464u
17.699u 181.779u
-3.10V
105.160u
27.445u 202.314u
-3.00V
119.836u
37.119u 223.007u
-2.90V
134.451u
46.694u 243.785u
-2.80V
148.966u
56.144u 264.581u
-2.70V
163.342u
65.447u 285.332u
-2.60V
177.543u
74.582u 305.982u
-2.50V
191.536u
83.527u 326.474u
-2.40V
205.285u
92.262u 346.757u
-2.30V
218.754u 100.766u 366.776u
-2.20V
231.907u 109.016u 386.478u
-2.10V
244.706u 116.988u 405.807u
-2.00V
257.106u 124.659u 424.699u
-1.90V
269.061u 131.998u 443.089u
-1.80V
280.519u 138.978u 460.899u
-1.70V
291.423u 145.565u 478.046u
-1.60V
301.710u 151.723u 494.457u
-1.50V
311.348u 157.417u 521.406u
-1.40V
729.899u 162.626u
1.612m
-1.30V
10.510m 445.517u
14.832m
-1.20V
9.629m
6.444m
13.576m
-1.10V
8.670m
5.833m
12.231m
-1.00V
7.693m
5.190m
10.854m
-0.90V
6.732m
4.551m
9.483m
-0.80V
5.825m
3.942m
8.169m
-0.70V
5.004m
3.382m
6.971m
-0.60V
4.261m
2.869m
5.921m
-0.50V
3.549m
2.381m
4.953m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-17
-0.40V
-0.30V
-0.20V
-0.10V
-0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
2.841m
1.902m
3.978m
2.135m
1.426m
2.987m
1.437m 951.489u
2.003m
722.340u 478.341u
1.005m
22.329p
36.936p
24.081p
-708.556u -465.927u -990.647u
-1.377m -903.637u
-1.943m
-2.007m
-1.319m
-2.832m
-2.614m
-1.710m
-3.702m
-3.192m
-2.079m
-4.537m
-3.738m
-2.423m
-5.336m
-4.253m
-2.742m
-6.096m
-4.736m
-3.037m
-6.817m
-5.185m
-3.305m
-7.499m
-5.600m
-3.547m
-8.139m
-5.980m
-3.762m
-8.737m
-6.324m
-3.948m
-9.292m
-6.631m -17.709m
-9.802m
-29.730m -18.279m -10.265m
-30.749m -18.747m -45.983m
-31.630m -19.131m -47.620m
-32.393m -19.454m -49.086m
-33.055m -19.730m -50.392m
-33.632m -19.973m -51.551m
-34.135m -20.188m -52.571m
-34.575m -20.381m -53.463m
-34.960m -20.556m -54.240m
-35.302m -20.715m -54.917m
-35.608m -20.861m -55.510m
-35.884m -20.997m -56.035m
-36.137m -21.123m -56.505m
-36.370m -21.241m -56.932m
-36.586m -21.352m -57.322m
-36.788m -21.457m -57.683m
-36.978m -21.556m -58.019m
-37.157m -21.650m -58.334m
-37.327m -21.741m -58.631m
-37.489m -21.827m -58.913m
-37.643m -21.909m -59.181m
-37.791m -21.989m -59.436m
-37.933m -22.067m -59.681m
-38.070m -22.143m -59.916m
-38.202m -22.216m -60.142m
-38.332m -22.284m -60.361m
-38.460m -22.352m -60.573m
-38.590m -22.420m -60.780m
-38.714m -22.490m -60.986m
-38.828m -22.561m -61.194m
-38.949m -22.635m -61.406m
-39.076m -22.713m -61.623m
-39.211m -22.798m -61.819m
-39.357m -22.892m -62.024m
-39.516m -22.997m -62.254m
-39.693m -23.116m -62.506m
-39.893m -23.253m -62.785m
DSP56364 Technical Data, Rev. 4.1
A-18
Freescale Semiconductor
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
-40.121m
-40.384m
-40.689m
-41.043m
-41.444m
-41.886m
-42.370m
-42.899m
-43.473m
-44.095m
-44.769m
-45.498m
-46.287m
-47.140m
-48.049m
-48.990m
I(typ)
-1.875
-1.793
-1.711
-1.548
-1.466
-1.385
-1.303
-1.221
-1.140
-1.059
-977.735m
-896.773m
-735.446m
-655.171m
-575.242m
-495.760m
-416.878m
-338.839m
-262.067m
-187.395m
-116.756m
-16.024m
-2.254m
-476.015u
-85.877u
-8.033u
-432.304n
-20.874n
-964.564p
-72.583p
-33.685p
-27.665p
-22.754p
-18.303p
-23.411m
-23.595m
-23.801m
-24.032m
-24.288m
-24.570m
-24.880m
-25.217m
-25.585m
-25.983m
-26.415m
-26.884m
-27.390m
-27.929m
-28.487m
-29.080m
-63.098m
-63.453m
-63.860m
-64.330m
-64.874m
-65.505m
-66.214m
-66.983m
-67.815m
-68.711m
-69.678m
-70.721m
-71.848m
-73.065m
-74.374m
-75.748m
I(min)
I(max)
-1.074
-1.029
-983.765m
-893.931m
-849.071m
-804.256m
-759.489m
-714.777m
-670.127m
-625.548m
-581.048m
-536.642m
-448.177m
-404.164m
-360.342m
-316.758m
-273.482m
-230.618m
-188.327m
-146.891m
-106.839m
-37.029m
-14.319m
-2.883m
-295.354u
-33.637u
-3.576u
-340.944n
-30.895n
-2.560n
-210.508p
-30.628p
13.546p
48.356p
-2.155
-2.059
-1.963
-1.771
-1.675
-1.579
-1.483
-1.388
-1.292
-1.197
-1.102
-1.007
-817.634m
-723.409m
-629.587m
-536.295m
-443.730m
-352.222m
-262.384m
-175.533m
-95.231m
-6.612m
-2.370m
-845.181u
-147.930u
-9.999u
-310.975n
-8.593n
-258.649p
-43.910p
-34.610p
-29.748p
-25.110p
-20.906p
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-19
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
|
[POWER_clamp]
|
|Voltage
|
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
-14.129p
-9.979p
-5.833p
-1.689p
2.454p
6.596p
14.877p
19.017p
23.157p
27.297p
31.436p
35.576p
39.715p
43.855p
47.995p
56.277p
60.418p
64.561p
68.706p
72.847p
76.869p
80.074p
82.499p
84.837p
89.018p
89.573p
103.108p
I(typ)
-33.685p
-72.583p
-964.564p
-20.874n
-432.304n
-8.033u
-85.877u
-2.254m
-16.024m
-55.636m
-116.756m
-187.395m
-262.067m
-338.839m
-416.878m
-495.760m
-655.171m
-735.446m
-815.997m
-896.773m
-977.735m
-1.059
-1.140
81.869p
114.849p
147.499p
179.924p
212.188p
244.335p
308.388p
340.335p
372.250p
404.143p
436.027p
467.910p
499.805p
531.722p
563.675p
627.761p
659.933p
692.106p
723.142p
751.973p
780.264p
808.442p
835.513p
860.391p
1.265n
1.305n
1.593n
-16.971p
-13.050p
-9.130p
-5.210p
-1.291p
2.628p
10.466p
14.384p
18.302p
22.221p
26.139p
30.057p
33.974p
37.892p
41.810p
49.646p
53.564p
57.482p
61.400p
65.319p
69.237p
73.156p
77.065p
80.794p
86.195p
88.344p
90.478p
I(min)
I(max)
-340.944n
-3.576u
-33.637u
-295.354u
-2.883m
-14.319m
-37.029m
-106.839m
-146.891m
-188.327m
-230.618m
-273.482m
-316.758m
-360.342m
-404.164m
-448.177m
-536.642m
-581.048m
-625.548m
-670.127m
-714.777m
-759.489m
-804.256m
-20.906p
-25.110p
-29.748p
-34.610p
-43.910p
-258.649p
-8.593n
-9.999u
-147.930u
-845.181u
-2.370m
-6.612m
-33.199m
-95.231m
-175.533m
-262.384m
-443.730m
-536.295m
-629.587m
-723.409m
-817.634m
-912.174m
-1.007
DSP56364 Technical Data, Rev. 4.1
A-20
Freescale Semiconductor
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-1.221 -849.071m
-1.303 -893.931m
-1.466 -983.765m
-1.548
-1.029
-1.630
-1.074
-1.711
-1.119
-1.793
-1.164
-1.875
-1.209
-1.102
-1.197
-1.388
-1.483
-1.579
-1.675
-1.771
-1.867
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
2.04/134.002p 1.86/235.405p 2.23/85.874p
|
dV/dt_r
2.05/194.838p 1.86/341.412p 2.23/118.822p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipada_3st
| ""
Model_type
3-state
| variable
typ
min
max
C_comp
2.32p
2.17p
2.48p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-157.134u -99.256u -219.000u
-3.20V
-165.037u -104.127u -230.250u
-3.10V
-173.749u -109.479u -242.685u
-3.00V
-183.400u -115.386u -256.500u
-2.90V
-194.148u -121.936u -271.934u
-2.80V
-206.189u -129.240u -289.286u
-2.70V
-219.766u -137.431u -308.933u
-2.60V
-235.190u -146.680u -331.355u
-2.50V
-252.856u -157.199u -357.176u
-2.40V
-273.283u -169.265u -387.219u
-2.30V
-297.162u -183.236u -422.595u
-2.20V
-325.427u -199.590u -464.837u
-2.10V
-359.384u -218.976u -516.117u
-2.00V
-400.901u -242.299u -579.623u
-1.90V
-452.750u -270.851u -660.217u
-1.80V
-519.217u -306.549u -765.681u
-1.70V
-607.277u -352.346u -909.270u
-1.60V
-729.045u -413.024u
-1.115m
-1.50V
-907.407u -496.811u
-1.434m
-1.40V
-1.191m -619.011u
-1.987m
-1.30V
-1.699m -811.079u
-3.133m
-1.20V
-2.799m
-1.146m
-6.243m
-1.10V
-5.689m
-1.822m -12.974m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-21
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
-10.416m
-3.302m
-12.342m
-5.449m
-11.672m
-6.479m
-10.528m
-6.146m
-9.204m
-5.387m
-7.770m
-4.535m
-6.286m
-3.652m
-4.766m
-2.754m
-3.214m
-1.846m
-1.627m -928.990u
32.871e-18 18.541e-18
1.604m 910.814u
3.124m
1.775m
4.566m
2.595m
5.928m
3.372m
7.210m
4.105m
8.411m
4.792m
9.529m
5.432m
10.562m
6.023m
11.508m
6.563m
12.367m
7.051m
13.138m
7.486m
13.821m
7.865m
14.417m
8.189m
14.930m
64.562m
117.094m
66.208m
119.708m
67.513m
121.667m
68.498m
123.055m
69.206m
124.020m
69.710m
124.711m
70.083m
125.232m
70.374m
125.650m
70.612m
126.000m
70.814m
126.305m
70.992m
126.577m
71.151m
126.823m
71.296m
127.050m
71.428m
127.260m
71.551m
127.457m
71.666m
127.643m
71.774m
127.818m
71.876m
127.986m
71.973m
128.147m
72.066m
128.304m
72.156m
128.458m
72.245m
128.614m
72.335m
128.776m
72.428m
128.948m
72.527m
129.140m
72.638m
129.361m
72.764m
129.621m
72.914m
129.934m
73.093m
130.316m
73.311m
130.784m
73.579m
-17.948m
-17.964m
-16.692m
-15.152m
-13.338m
-11.313m
-9.190m
-6.999m
-4.740m
-2.410m
-1.607f
2.391m
4.661m
6.817m
8.858m
10.784m
12.593m
14.284m
15.855m
17.306m
18.639m
19.856m
20.957m
21.944m
22.817m
23.575m
184.138m
187.874m
190.647m
192.621m
194.017m
195.034m
195.815m
196.447m
196.983m
197.453m
197.876m
198.263m
198.622m
198.958m
199.275m
199.576m
199.863m
200.138m
200.405m
200.667m
200.928m
201.194m
201.472m
201.774m
202.113m
202.503m
202.966m
203.524m
204.203m
DSP56364 Technical Data, Rev. 4.1
A-22
Freescale Semiconductor
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
131.358m
132.060m
132.912m
133.939m
135.166m
136.619m
138.324m
140.308m
142.597m
145.217m
148.192m
151.545m
155.300m
159.478m
164.097m
169.177m
174.734m
180.781m
187.333m
194.400m
201.993m
210.118m
73.906m
74.304m
74.787m
75.368m
76.060m
76.878m
77.836m
78.948m
80.230m
81.694m
83.355m
85.224m
87.316m
89.640m
92.208m
95.029m
98.112m
101.465m
105.096m
109.009m
113.211m
117.705m
205.033m
206.045m
207.276m
208.763m
210.544m
212.659m
215.149m
218.056m
221.419m
225.277m
229.669m
234.630m
240.194m
246.393m
253.255m
260.806m
269.070m
278.065m
287.810m
298.319m
309.602m
321.670m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
132.979u 100.794u 170.075u
-3.20V
138.984u 105.115u 178.000u
-3.10V
145.559u 109.825u 186.702u
-3.00V
152.789u 114.981u 196.300u
-2.90V
160.778u 120.648u 206.941u
-2.80V
169.651u 126.906u 218.803u
-2.70V
179.562u 133.852u 232.110u
-2.60V
190.706u 141.605u 247.141u
-2.50V
203.326u 150.317u 264.253u
-2.40V
217.736u 160.174u 283.910u
-2.30V
234.344u 171.418u 306.723u
-2.20V
253.692u 184.362u 333.513u
-2.10V
276.513u 199.421u 365.415u
-2.00V
303.830u 217.155u 404.033u
-1.90V
337.102u 238.340u 451.722u
-1.80V
378.494u 264.081u 512.067u
-1.70V
431.351u 296.004u 590.810u
-1.60V
501.113u 336.601u 697.730u
-1.50V
597.240u 389.880u 850.877u
-1.40V
737.641u 462.700u
1.087m
-1.30V
960.395u 567.748u
1.497m
-1.20V
1.361m 731.012u
2.348m
-1.10V
2.237m
1.013m
4.712m
-1.00V
4.644m
1.583m
10.148m
-0.90V
8.090m
2.907m
12.062m
-0.80V
8.032m
4.727m
11.029m
-0.70V
7.118m
4.754m
9.778m
-0.60V
6.128m
4.128m
8.443m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-23
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
-0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.109m
3.441m
7.052m
4.082m
2.746m
5.644m
3.056m
2.053m
4.233m
2.033m
1.363m
2.821m
1.014m 678.856u
1.410m
58.687e-18 58.622e-18 117.504e-18
-987.106u -655.604u
-1.381m
-1.928m
-1.274m
-2.709m
-2.828m
-1.859m
-3.988m
-3.685m
-2.412m
-5.216m
-4.499m
-2.931m
-6.392m
-5.269m
-3.416m
-7.516m
-5.994m
-3.866m
-8.587m
-6.673m
-4.280m
-9.602m
-7.306m
-4.658m -10.561m
-7.890m
-4.999m -11.461m
-8.424m
-5.301m -12.302m
-8.907m
-5.563m -13.081m
-9.339m -65.539m -13.798m
-110.103m -67.611m -154.438m
-113.807m -69.311m -170.370m
-117.010m -70.713m -176.323m
-119.783m -71.893m -181.647m
-122.195m -72.910m -186.387m
-124.297m -73.804m -190.581m
-126.131m -74.599m -194.261m
-127.733m -75.311m -197.468m
-129.139m -75.954m -200.255m
-130.384m -76.540m -202.683m
-131.498m -77.077m -204.814m
-132.504m -77.575m -206.704m
-133.423m -78.037m -208.399m
-134.270m -78.470m -209.937m
-135.057m -78.877m -211.346m
-135.792m -79.261m -212.650m
-136.483m -79.625m -213.864m
-137.136m -79.971m -215.004m
-137.756m -80.302m -216.079m
-138.345m -80.617m -217.098m
-138.908m -80.920m -218.067m
-139.447m -81.210m -218.993m
-139.964m -81.490m -219.880m
-140.462m -81.761m -220.732m
-140.943m -82.022m -221.552m
-141.408m -82.277m -222.344m
-141.860m -82.525m -223.112m
-142.300m -82.769m -223.858m
-142.733m -83.010m -224.586m
-143.159m -83.250m -225.300m
-143.585m -83.493m -226.006m
-144.013m -83.740m -226.709m
-144.449m -83.996m -227.417m
-144.899m -84.265m -228.137m
-145.370m -84.551m -228.879m
-145.871m -84.861m -229.656m
DSP56364 Technical Data, Rev. 4.1
A-24
Freescale Semiconductor
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
-146.411m -85.200m
-147.001m -85.575m
-147.652m -85.993m
-148.379m -86.464m
-149.195m -86.995m
-150.115m -87.597m
-151.157m -88.280m
-152.339m -89.054m
-153.678m -89.930m
-155.194m -90.921m
-156.907m -92.038m
-158.839m -93.294m
-161.011m -94.701m
-163.444m -96.273m
-166.160m -98.023m
-169.182m -99.963m
-172.531m -102.106m
I(typ)
I(min)
-2.637
-2.521
-2.406
-2.174
-2.059
-1.943
-1.828
-1.713
-1.598
-1.483
-1.368
-1.254
-1.026
-912.311m
-799.377m
-687.103m
-575.715m
-465.583m
-357.354m
-252.314m
-153.494m
-19.457m
-3.535m
-877.640u
-156.838u
-14.514u
-780.351n
-37.668n
-1.699n
-92.071p
-27.709p
-22.802p
-19.598p
-1.514
-1.451
-1.387
-1.259
-1.195
-1.132
-1.068
-1.004
-941.073m
-877.750m
-814.544m
-751.475m
-625.847m
-563.357m
-501.149m
-439.297m
-377.904m
-317.129m
-257.221m
-198.614m
-142.138m
-45.305m
-16.226m
-3.288m
-397.909u
-53.601u
-6.086u
-598.098n
-55.739n
-5.410n
-1.212n
-890.771p
-810.054p
-230.481m
-231.368m
-232.336m
-233.404m
-234.592m
-235.924m
-237.426m
-239.124m
-241.046m
-243.223m
-245.685m
-248.465m
-251.595m
-255.109m
-259.041m
-263.425m
-268.293m
I(max)
-3.063
-2.926
-2.789
-2.515
-2.378
-2.242
-2.105
-1.969
-1.833
-1.697
-1.561
-1.425
-1.155
-1.021
-886.904m
-753.859m
-621.897m
-491.519m
-363.667m
-240.395m
-127.373m
-11.215m
-4.650m
-1.613m
-271.662u
-18.044u
-560.308n
-15.437n
-411.332p
-29.683p
-18.939p
-16.163p
-13.516p
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-25
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
|
[POWER_clamp]
|
|Voltage
|
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
-16.468p
-13.353p
-10.247p
-7.147p
-4.050p
-955.896f
2.136p
8.315p
11.404p
14.492p
17.579p
20.666p
23.754p
26.841p
29.929p
33.018p
39.198p
42.291p
45.385p
48.483p
51.583p
54.673p
57.468p
59.647p
61.717p
65.859p
68.003p
72.601p
I(typ)
-745.765p -10.874p
-683.799p
-8.234p
-622.802p
-5.595p
-562.404p
-2.956p
-502.414p -318.962f
-442.712p
2.318p
-383.217p
4.954p
-264.634p
10.227p
-205.467p
12.862p
-146.346p
15.498p
-87.245p
18.133p
-28.141p
20.768p
30.987p
23.404p
90.164p
26.039p
149.414p
28.674p
208.769p
31.310p
327.949p
36.581p
387.873p
39.216p
448.012p
41.852p
507.296p
44.489p
563.856p
47.125p
619.785p
49.762p
676.156p
52.401p
733.868p
55.040p
807.258p
57.675p
5.906n
61.928p
59.801n
63.585p
620.266n
65.236p
I(min)
-27.709p
-92.071p
-1.699n
-37.668n
-780.351n
-14.514u
-156.838u
-3.535m
-19.457m
-69.631m
-153.494m
-252.314m
-357.354m
-465.583m
-575.715m
-687.103m
-912.311m
-1.026
-1.140
-1.254
-1.368
-1.483
-598.098n
-6.086u
-53.601u
-397.909u
-3.288m
-16.226m
-45.305m
-142.138m
-198.614m
-257.221m
-317.129m
-377.904m
-439.297m
-501.149m
-563.357m
-625.847m
-751.475m
-814.544m
-877.750m
-941.073m
-1.004
-1.068
I(max)
-10.874p
-13.516p
-16.163p
-18.939p
-29.683p
-411.332p
-15.437n
-18.044u
-271.662u
-1.613m
-4.650m
-11.215m
-43.562m
-127.373m
-240.395m
-363.667m
-621.897m
-753.859m
-886.904m
-1.021
-1.155
-1.290
DSP56364 Technical Data, Rev. 4.1
A-26
Freescale Semiconductor
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-1.598
-1.713
-1.828
-2.059
-2.174
-2.290
-2.406
-2.521
-2.637
-1.132
-1.195
-1.259
-1.387
-1.451
-1.514
-1.578
-1.642
-1.706
-1.425
-1.561
-1.697
-1.969
-2.105
-2.242
-2.378
-2.515
-2.652
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
1.99/110.010p 1.81/184.463p 2.17/69.974p
|
dV/dt_r
2.04/120.172p 1.85/212.126p 2.21/73.179p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipadd_io
| ""
Model_type
I/O
Vinl = 0.8
Vinh = 2
| variable
typ
min
max
C_comp
2.34p
2.21p
2.52p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-157.134u -99.256u -219.000u
-3.20V
-165.037u -104.127u -230.250u
-3.10V
-173.749u -109.479u -242.685u
-3.00V
-183.400u -115.386u -256.500u
-2.90V
-194.148u -121.936u -271.934u
-2.80V
-206.189u -129.240u -289.286u
-2.70V
-219.766u -137.431u -308.933u
-2.60V
-235.190u -146.680u -331.355u
-2.50V
-252.856u -157.199u -357.176u
-2.40V
-273.283u -169.265u -387.219u
-2.30V
-297.162u -183.236u -422.595u
-2.20V
-325.427u -199.590u -464.837u
-2.10V
-359.384u -218.976u -516.117u
-2.00V
-400.901u -242.299u -579.623u
-1.90V
-452.750u -270.851u -660.217u
-1.80V
-519.217u -306.549u -765.681u
-1.70V
-607.277u -352.346u -909.270u
-1.60V
-729.045u -413.024u
-1.115m
-1.50V
-907.407u -496.811u
-1.434m
-1.40V
-1.191m -619.011u
-1.987m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-27
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
-1.699m -811.079u
-2.799m
-1.146m
-5.689m
-1.822m
-10.416m
-3.302m
-12.342m
-5.449m
-11.672m
-6.479m
-10.528m
-6.146m
-9.204m
-5.387m
-7.770m
-4.535m
-6.286m
-3.652m
-4.766m
-2.754m
-3.214m
-1.846m
-1.627m -928.990u
32.871e-18 18.540e-18
1.604m 910.814u
3.124m
1.775m
4.566m
2.595m
5.928m
3.372m
7.210m
4.105m
8.411m
4.792m
9.529m
5.432m
10.562m
6.023m
11.508m
6.563m
12.367m
7.051m
13.138m
7.486m
13.821m
7.865m
14.417m
8.189m
14.930m
64.562m
117.094m
66.208m
119.708m
67.513m
121.667m
68.498m
123.055m
69.206m
124.020m
69.710m
124.711m
70.083m
125.232m
70.374m
125.650m
70.612m
126.000m
70.814m
126.305m
70.992m
126.577m
71.151m
126.823m
71.296m
127.050m
71.428m
127.260m
71.551m
127.457m
71.666m
127.643m
71.774m
127.818m
71.876m
127.986m
71.973m
128.147m
72.066m
128.304m
72.156m
128.458m
72.245m
128.614m
72.335m
128.776m
72.428m
128.948m
72.527m
129.140m
72.638m
129.361m
72.764m
129.621m
72.914m
-3.133m
-6.243m
-12.974m
-17.948m
-17.964m
-16.692m
-15.152m
-13.338m
-11.313m
-9.190m
-6.999m
-4.740m
-2.410m
-1.607f
2.391m
4.661m
6.817m
8.858m
10.784m
12.593m
14.284m
15.855m
17.306m
18.639m
19.856m
20.957m
21.944m
22.817m
23.575m
184.138m
187.874m
190.647m
192.621m
194.017m
195.034m
195.815m
196.447m
196.983m
197.453m
197.876m
198.263m
198.622m
198.958m
199.275m
199.576m
199.863m
200.138m
200.405m
200.667m
200.928m
201.194m
201.472m
201.774m
202.113m
202.503m
DSP56364 Technical Data, Rev. 4.1
A-28
Freescale Semiconductor
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
129.934m
130.316m
130.784m
131.358m
132.060m
132.912m
133.939m
135.166m
136.619m
138.324m
140.308m
142.597m
145.217m
148.192m
151.545m
155.300m
159.478m
164.097m
169.177m
174.734m
180.781m
187.333m
194.400m
201.993m
210.118m
73.093m
73.311m
73.579m
73.906m
74.304m
74.787m
75.368m
76.060m
76.878m
77.836m
78.948m
80.230m
81.694m
83.355m
85.224m
87.316m
89.640m
92.208m
95.029m
98.112m
101.465m
105.096m
109.009m
113.211m
117.705m
202.966m
203.524m
204.203m
205.033m
206.045m
207.276m
208.763m
210.544m
212.659m
215.149m
218.056m
221.419m
225.277m
229.669m
234.630m
240.194m
246.393m
253.255m
260.806m
269.070m
278.065m
287.810m
298.319m
309.602m
321.670m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
132.979u 100.794u 170.075u
-3.20V
138.984u 105.115u 178.000u
-3.10V
145.559u 109.825u 186.702u
-3.00V
152.789u 114.981u 196.300u
-2.90V
160.778u 120.648u 206.941u
-2.80V
169.651u 126.906u 218.803u
-2.70V
179.562u 133.852u 232.110u
-2.60V
190.706u 141.605u 247.141u
-2.50V
203.326u 150.317u 264.253u
-2.40V
217.736u 160.174u 283.910u
-2.30V
234.344u 171.418u 306.723u
-2.20V
253.692u 184.362u 333.513u
-2.10V
276.513u 199.421u 365.415u
-2.00V
303.830u 217.155u 404.033u
-1.90V
337.102u 238.340u 451.722u
-1.80V
378.494u 264.081u 512.067u
-1.70V
431.351u 296.004u 590.810u
-1.60V
501.113u 336.601u 697.730u
-1.50V
597.240u 389.880u 850.877u
-1.40V
737.641u 462.700u
1.087m
-1.30V
960.395u 567.748u
1.497m
-1.20V
1.361m 731.012u
2.348m
-1.10V
2.237m
1.013m
4.712m
-1.00V
4.644m
1.583m
10.148m
-0.90V
8.090m
2.907m
12.062m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-29
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
-0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
8.032m
4.727m
11.029m
7.118m
4.754m
9.778m
6.128m
4.128m
8.443m
5.109m
3.441m
7.052m
4.082m
2.746m
5.644m
3.056m
2.053m
4.233m
2.033m
1.363m
2.821m
1.014m 678.856u
1.410m
58.687e-18 58.622e-18 117.504e-18
-987.106u -655.604u
-1.381m
-1.928m
-1.274m
-2.709m
-2.828m
-1.859m
-3.988m
-3.685m
-2.412m
-5.216m
-4.499m
-2.931m
-6.392m
-5.269m
-3.416m
-7.516m
-5.994m
-3.866m
-8.587m
-6.673m
-4.280m
-9.602m
-7.306m
-4.658m -10.561m
-7.890m
-4.999m -11.461m
-8.424m
-5.301m -12.302m
-8.907m
-5.563m -13.081m
-9.339m -65.539m -13.798m
-110.103m -67.611m -154.438m
-113.807m -69.311m -170.370m
-117.010m -70.713m -176.323m
-119.783m -71.893m -181.647m
-122.195m -72.910m -186.387m
-124.297m -73.804m -190.581m
-126.131m -74.599m -194.261m
-127.733m -75.311m -197.468m
-129.139m -75.954m -200.255m
-130.384m -76.540m -202.683m
-131.498m -77.077m -204.814m
-132.504m -77.575m -206.704m
-133.423m -78.037m -208.399m
-134.270m -78.470m -209.937m
-135.057m -78.877m -211.346m
-135.792m -79.261m -212.650m
-136.483m -79.625m -213.864m
-137.136m -79.971m -215.004m
-137.756m -80.302m -216.079m
-138.345m -80.617m -217.098m
-138.908m -80.920m -218.067m
-139.447m -81.210m -218.993m
-139.964m -81.490m -219.880m
-140.462m -81.761m -220.732m
-140.943m -82.022m -221.552m
-141.408m -82.277m -222.344m
-141.860m -82.525m -223.112m
-142.300m -82.769m -223.858m
-142.733m -83.010m -224.586m
-143.159m -83.250m -225.300m
-143.585m -83.493m -226.006m
-144.013m -83.740m -226.709m
-144.449m -83.996m -227.417m
DSP56364 Technical Data, Rev. 4.1
A-30
Freescale Semiconductor
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
-144.899m -84.265m
-145.370m -84.551m
-145.871m -84.861m
-146.411m -85.200m
-147.001m -85.575m
-147.652m -85.993m
-148.379m -86.464m
-149.195m -86.995m
-150.115m -87.597m
-151.157m -88.280m
-152.339m -89.054m
-153.678m -89.930m
-155.194m -90.921m
-156.907m -92.038m
-158.839m -93.294m
-161.011m -94.701m
-163.444m -96.273m
-166.160m -98.023m
-169.182m -99.963m
-172.531m -102.106m
I(typ)
I(min)
-2.637
-2.521
-2.406
-2.174
-2.059
-1.943
-1.828
-1.713
-1.598
-1.483
-1.368
-1.254
-1.026
-912.311m
-799.377m
-687.103m
-575.715m
-465.583m
-357.354m
-252.314m
-153.494m
-19.457m
-3.535m
-877.640u
-156.838u
-14.514u
-780.351n
-37.668n
-1.699n
-92.071p
-1.514
-1.451
-1.387
-1.259
-1.195
-1.132
-1.068
-1.004
-941.073m
-877.750m
-814.544m
-751.475m
-625.847m
-563.357m
-501.149m
-439.297m
-377.904m
-317.129m
-257.221m
-198.614m
-142.138m
-45.305m
-16.226m
-3.288m
-397.909u
-53.601u
-6.086u
-598.098n
-55.739n
-5.410n
-228.137m
-228.879m
-229.656m
-230.481m
-231.368m
-232.336m
-233.404m
-234.592m
-235.924m
-237.426m
-239.124m
-241.046m
-243.223m
-245.685m
-248.465m
-251.595m
-255.109m
-259.041m
-263.425m
-268.293m
I(max)
-3.063
-2.926
-2.789
-2.515
-2.378
-2.242
-2.105
-1.969
-1.833
-1.697
-1.561
-1.425
-1.155
-1.021
-886.904m
-753.859m
-621.897m
-491.519m
-363.667m
-240.395m
-127.373m
-11.215m
-4.650m
-1.613m
-271.662u
-18.044u
-560.308n
-15.437n
-411.332p
-29.683p
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-31
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
|
[POWER_clamp]
|
|Voltage
|
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
-27.709p
-22.802p
-19.598p
-16.468p
-13.353p
-10.247p
-7.147p
-4.050p
-955.896f
2.136p
8.315p
11.404p
14.492p
17.579p
20.666p
23.754p
26.841p
29.929p
33.018p
39.198p
42.291p
45.385p
48.483p
51.583p
54.673p
57.468p
59.647p
61.717p
65.859p
68.003p
72.601p
I(typ)
-1.212n -18.939p
-890.771p -16.163p
-810.054p -13.516p
-745.765p -10.874p
-683.799p
-8.234p
-622.802p
-5.595p
-562.404p
-2.956p
-502.414p -318.962f
-442.712p
2.318p
-383.217p
4.954p
-264.634p
10.227p
-205.467p
12.862p
-146.346p
15.498p
-87.245p
18.133p
-28.141p
20.768p
30.987p
23.404p
90.164p
26.039p
149.414p
28.674p
208.769p
31.310p
327.949p
36.581p
387.873p
39.216p
448.012p
41.852p
507.296p
44.489p
563.856p
47.125p
619.785p
49.762p
676.156p
52.401p
733.868p
55.040p
807.258p
57.675p
5.906n
61.928p
59.801n
63.585p
620.266n
65.236p
I(min)
-27.709p
-92.071p
-1.699n
-37.668n
-780.351n
-14.514u
-156.838u
-3.535m
-19.457m
-69.631m
-153.494m
-252.314m
-357.354m
-465.583m
-575.715m
-687.103m
-912.311m
-1.026
-1.140
-598.098n
-6.086u
-53.601u
-397.909u
-3.288m
-16.226m
-45.305m
-142.138m
-198.614m
-257.221m
-317.129m
-377.904m
-439.297m
-501.149m
-563.357m
-625.847m
-751.475m
-814.544m
-877.750m
I(max)
-10.874p
-13.516p
-16.163p
-18.939p
-29.683p
-411.332p
-15.437n
-18.044u
-271.662u
-1.613m
-4.650m
-11.215m
-43.562m
-127.373m
-240.395m
-363.667m
-621.897m
-753.859m
-886.904m
DSP56364 Technical Data, Rev. 4.1
A-32
Freescale Semiconductor
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-1.254 -941.073m
-1.368
-1.004
-1.483
-1.068
-1.598
-1.132
-1.713
-1.195
-1.828
-1.259
-2.059
-1.387
-2.174
-1.451
-2.290
-1.514
-2.406
-1.578
-2.521
-1.642
-2.637
-1.706
-1.021
-1.155
-1.290
-1.425
-1.561
-1.697
-1.969
-2.105
-2.242
-2.378
-2.515
-2.652
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
1.99/104.603p 1.81/183.924p 2.18/69.643p
|
dV/dt_r
2.04/123.810p 1.85/215.062p 2.20/73.602p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipadex_i
| ""
Model_type
Input
Vinl = 0.8
Vinh = 2
| variable
typ
min
max
C_comp
2.92p
2.78p
2.96p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[GND_clamp]
|
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-831.819m -473.616m -909.150m
-3.20V
-796.528m -454.528m -869.534m
-3.10V
-761.255m -435.451m -829.938m
-2.90V
-690.773m -397.335m -750.811m
-2.80V
-655.569m -378.299m -711.286m
-2.70V
-620.391m -359.279m -671.789m
-2.60V
-585.244m -340.277m -632.324m
-2.50V
-550.131m -321.295m -592.895m
-2.40V
-515.057m -302.336m -553.507m
-2.30V
-480.027m -283.402m -514.167m
-2.20V
-445.047m -264.496m -474.880m
-2.10V
-410.126m -245.624m -435.657m
-1.90V
-340.501m -207.998m -357.451m
-1.80V
-305.826m -189.259m -318.503m
-1.70V
-271.273m -170.582m -279.692m
-1.60V
-236.871m -151.981m -241.057m
-1.50V
-202.665m -133.474m -202.657m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-33
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
-168.722m
-135.151m
-102.140m
-70.064m
-14.097m
-1.307m
-36.639u
-903.944n
-22.242n
-567.014p
-32.976p
-18.575p
-16.945p
-15.630p
-14.322p
-13.014p
-11.707p
-10.399p
-9.092p
-7.784p
-6.477p
-5.169p
-3.862p
-1.246p
61.165f
1.369p
2.676p
3.984p
5.291p
6.599p
7.906p
9.214p
11.829p
13.137p
14.444p
15.752p
17.059p
18.367p
19.674p
20.982p
22.290p
24.905p
26.212p
27.520p
-115.088m
-96.861m
-78.852m
-61.160m
-27.650m
-13.160m
-3.159m
-256.975u
-13.934u
-730.372n
-38.990n
-2.810n
-867.431p
-713.428p
-652.886p
-597.227p
-541.823p
-486.432p
-431.043p
-375.653p
-320.263p
-264.873p
-209.483p
-98.704p
-43.314p
12.076p
67.466p
122.856p
178.246p
233.635p
289.025p
344.415p
455.195p
510.585p
565.974p
621.364p
676.754p
732.144p
787.535p
842.946p
898.735p
1.163n
4.019n
57.671n
|
[POWER_clamp]
|
|Voltage
I(typ)
I(min)
|
3.30V
-15.630p -38.990n
3.40V
-16.945p -730.372n
3.50V
-18.575p -13.934u
3.60V
-32.976p -256.975u
3.70V
-567.014p
-3.159m
3.80V
-22.242n -13.160m
-164.583m
-126.991m
-90.181m
-54.834m
-2.799m
-53.501u
-768.589n
-10.997n
-172.415p
-16.888p
-13.767p
-12.822p
-11.909p
-10.996p
-10.084p
-9.171p
-8.258p
-7.345p
-6.432p
-5.520p
-4.607p
-3.694p
-2.781p
-955.508f
-42.711f
870.085f
1.783p
2.696p
3.609p
4.521p
5.434p
6.347p
8.173p
9.085p
9.998p
10.911p
11.824p
12.736p
13.649p
14.562p
15.475p
17.301p
18.213p
19.126p
I(max)
-8.258p
-9.171p
-10.084p
-10.996p
-11.909p
-12.822p
DSP56364 Technical Data, Rev. 4.1
A-34
Freescale Semiconductor
3.90V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-903.944n
-1.307m
-14.097m
-39.803m
-70.064m
-102.140m
-135.151m
-168.722m
-202.665m
-236.871m
-305.826m
-340.501m
-375.273m
-410.126m
-445.047m
-480.027m
-515.057m
-550.131m
-585.244m
-655.569m
-690.773m
-726.003m
-761.255m
-796.528m
-831.819m
-27.650m
-61.160m
-78.852m
-96.861m
-115.088m
-133.474m
-151.981m
-170.582m
-189.259m
-207.998m
-245.624m
-264.496m
-283.402m
-302.336m
-321.295m
-340.277m
-359.279m
-378.299m
-397.335m
-435.451m
-454.528m
-473.616m
-492.715m
-511.823m
-530.941m
-13.767p
-172.415p
-10.997n
-768.589n
-53.501u
-2.799m
-22.990m
-54.834m
-90.181m
-126.991m
-202.657m
-241.057m
-279.692m
-318.503m
-357.451m
-396.509m
-435.657m
-474.880m
-514.167m
-592.895m
-632.324m
-671.789m
-711.286m
-750.811m
-790.363m
|
|End model
[Model]
ipadm_3st
| ""
Model_type
3-state
| variable
typ
min
max
C_comp
1.99p
1.86p
2.15p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-157.134u -99.256u -219.000u
-3.20V
-165.037u -104.127u -230.250u
-3.10V
-173.749u -109.479u -242.685u
-3.00V
-183.400u -115.386u -256.500u
-2.90V
-194.148u -121.936u -271.934u
-2.80V
-206.189u -129.240u -289.286u
-2.70V
-219.766u -137.431u -308.933u
-2.60V
-235.190u -146.680u -331.355u
-2.50V
-252.856u -157.199u -357.176u
-2.40V
-273.283u -169.265u -387.219u
-2.30V
-297.162u -183.236u -422.595u
-2.20V
-325.427u -199.590u -464.837u
-2.10V
-359.384u -218.976u -516.117u
-2.00V
-400.901u -242.299u -579.623u
-1.90V
-452.750u -270.851u -660.217u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-35
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
-519.217u
-607.277u
-729.045u
-907.407u
-1.191m
-1.699m
-2.799m
-5.689m
-10.416m
-12.342m
-11.672m
-10.528m
-9.204m
-7.770m
-6.286m
-4.766m
-3.214m
-1.627m
32.755e-18
1.604m
3.124m
4.566m
5.928m
7.210m
8.411m
9.529m
10.562m
11.508m
12.367m
13.138m
13.821m
14.417m
14.930m
86.564m
88.497m
89.946m
90.974m
91.689m
92.200m
92.586m
92.895m
93.154m
93.380m
93.581m
93.764m
93.931m
94.087m
94.233m
94.370m
94.500m
94.624m
94.744m
94.859m
94.974m
95.089m
-306.549u -765.681u
-352.346u -909.270u
-413.024u
-1.115m
-496.811u
-1.434m
-619.011u
-1.987m
-811.079u
-3.133m
-1.146m
-6.243m
-1.822m -12.974m
-3.302m -17.948m
-5.449m -17.964m
-6.479m -16.692m
-6.146m -15.152m
-5.387m -13.338m
-4.535m -11.313m
-3.652m
-9.190m
-2.754m
-6.999m
-1.846m
-4.740m
-928.990u
-2.410m
18.548e-18
-1.607f
910.814u
2.391m
1.775m
4.661m
2.595m
6.817m
3.372m
8.858m
4.105m
10.784m
4.792m
12.593m
5.432m
14.284m
6.023m
15.855m
6.563m
17.306m
7.051m
18.639m
7.486m
19.856m
7.865m
20.957m
8.189m
21.944m
47.725m
22.817m
48.943m
23.575m
49.908m 136.139m
50.637m 138.902m
51.160m 140.954m
51.534m 142.415m
51.810m 143.449m
52.024m 144.201m
52.201m 144.779m
52.351m 145.246m
52.482m 145.642m
52.600m 145.990m
52.706m 146.303m
52.804m 146.590m
52.895m 146.855m
52.980m 147.104m
53.060m 147.338m
53.135m 147.560m
53.207m 147.772m
53.276m 147.976m
53.343m 148.174m
53.408m 148.367m
53.475m 148.560m
DSP56364 Technical Data, Rev. 4.1
A-36
Freescale Semiconductor
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
95.208m
95.336m
95.478m
95.641m
95.833m
96.065m
96.347m
96.693m
97.117m
97.636m
98.266m
99.024m
99.931m
101.005m
102.264m
103.730m
105.422m
107.357m
109.556m
112.034m
114.809m
117.897m
121.311m
125.066m
129.172m
133.642m
138.485m
143.709m
149.320m
155.326m
53.543m
53.617m
53.699m
53.792m
53.902m
54.035m
54.196m
54.394m
54.635m
54.930m
55.287m
55.716m
56.227m
56.831m
57.539m
58.361m
59.308m
60.391m
61.618m
63.000m
64.545m
66.263m
68.160m
70.245m
72.524m
75.002m
77.685m
80.578m
83.683m
87.004m
148.757m
148.963m
149.186m
149.436m
149.725m
150.067m
150.479m
150.981m
151.594m
152.342m
153.252m
154.350m
155.666m
157.230m
159.070m
161.218m
163.704m
166.555m
169.801m
173.468m
177.581m
182.163m
187.235m
192.816m
198.924m
205.573m
212.776m
220.544m
228.885m
237.805m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
132.979u 100.794u 170.075u
-3.20V
138.984u 105.115u 178.000u
-3.10V
145.559u 109.825u 186.702u
-3.00V
152.789u 114.981u 196.300u
-2.90V
160.778u 120.648u 206.941u
-2.80V
169.651u 126.906u 218.803u
-2.70V
179.562u 133.852u 232.110u
-2.60V
190.706u 141.605u 247.141u
-2.50V
203.326u 150.317u 264.253u
-2.40V
217.736u 160.174u 283.910u
-2.30V
234.344u 171.418u 306.723u
-2.20V
253.692u 184.362u 333.513u
-2.10V
276.513u 199.421u 365.415u
-2.00V
303.830u 217.155u 404.033u
-1.90V
337.102u 238.340u 451.722u
-1.80V
378.494u 264.081u 512.067u
-1.70V
431.351u 296.004u 590.810u
-1.60V
501.113u 336.601u 697.730u
-1.50V
597.240u 389.880u 850.877u
-1.40V
737.641u 462.700u
1.087m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-37
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
-0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
960.396u 567.748u
1.497m
1.361m 731.012u
2.348m
2.237m
1.013m
4.712m
4.644m
1.583m
10.148m
8.090m
2.907m
12.062m
8.032m
4.727m
11.029m
7.118m
4.754m
9.778m
6.128m
4.128m
8.443m
5.109m
3.441m
7.052m
4.082m
2.746m
5.644m
3.056m
2.053m
4.233m
2.033m
1.363m
2.821m
1.014m 678.856u
1.410m
58.687e-18 58.622e-18 117.504e-18
-987.106u -655.604u
-1.381m
-1.928m
-1.274m
-2.709m
-2.828m
-1.859m
-3.988m
-3.685m
-2.412m
-5.216m
-4.499m
-2.931m
-6.392m
-5.269m
-3.416m
-7.516m
-5.994m
-3.866m
-8.587m
-6.673m
-4.280m
-9.602m
-7.306m
-4.658m -10.561m
-7.890m
-4.999m -11.461m
-8.424m
-5.301m -12.302m
-8.907m
-5.563m -13.081m
-9.339m -47.451m -13.837m
-79.705m -48.954m -118.519m
-82.391m -50.187m -123.324m
-84.713m -51.203m -127.640m
-86.724m -52.057m -131.501m
-88.472m -52.794m -134.939m
-89.996m -53.442m -137.982m
-91.327m -54.017m -140.655m
-92.489m -54.533m -142.987m
-93.511m -54.999m -145.014m
-94.415m -55.424m -146.781m
-95.224m -55.814m -148.333m
-95.955m -56.174m -149.709m
-96.623m -56.510m -150.943m
-97.238m -56.824m -152.063m
-97.809m -57.119m -153.088m
-98.343m -57.398m -154.036m
-98.846m -57.662m -154.920m
-99.320m -57.913m -155.749m
-99.770m -58.152m -156.531m
-100.198m -58.381m -157.272m
-100.607m -58.601m -157.977m
-100.998m -58.812m -158.650m
-101.374m -59.015m -159.295m
-101.735m -59.211m -159.914m
-102.084m -59.401m -160.510m
-102.422m -59.585m -161.086m
-102.750m -59.766m -161.644m
-103.070m -59.942m -162.186m
DSP56364 Technical Data, Rev. 4.1
A-38
Freescale Semiconductor
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-103.384m
-103.694m
-104.002m
-104.313m
-104.629m
-104.955m
-105.296m
-105.659m
-106.050m
-106.477m
-106.949m
-107.474m
-108.064m
-108.730m
-109.483m
-110.337m
-111.305m
-112.401m
-113.640m
-115.036m
-116.606m
-118.365m
-120.329m
-122.513m
-124.935m
I(typ)
-60.117m
-60.291m
-60.467m
-60.647m
-60.832m
-61.027m
-61.234m
-61.459m
-61.704m
-61.975m
-62.278m
-62.619m
-63.003m
-63.439m
-63.932m
-64.492m
-65.126m
-65.843m
-66.651m
-67.560m
-68.578m
-69.715m
-70.981m
-72.384m
-73.935m
I(min)
-2.165
-2.070
-1.975
-1.786
-1.691
-1.597
-1.503
-1.408
-1.314
-1.220
-1.126
-1.032
-845.771m
-752.887m
-660.410m
-568.461m
-477.221m
-386.980m
-298.248m
-212.028m
-130.668m
-17.375m
-2.837m
-656.331u
-116.521u
-1.242
-1.190
-1.138
-1.033
-981.185m
-929.174m
-877.220m
-825.330m
-773.514m
-721.779m
-670.140m
-618.610m
-515.958m
-464.892m
-414.052m
-363.494m
-313.301m
-263.597m
-214.579m
-166.582m
-120.248m
-40.029m
-14.886m
-3.014m
-336.317u
-162.715m
-163.234m
-163.747m
-164.257m
-164.770m
-165.293m
-165.831m
-166.394m
-166.991m
-167.634m
-168.334m
-169.106m
-169.965m
-170.928m
-172.012m
-173.239m
-174.627m
-176.199m
-177.978m
-179.986m
-182.247m
-184.785m
-187.626m
-190.793m
-194.311m
I(max)
-2.500
-2.388
-2.277
-2.054
-1.942
-1.831
-1.720
-1.609
-1.498
-1.387
-1.276
-1.166
-945.908m
-836.403m
-727.373m
-618.970m
-511.430m
-405.149m
-300.867m
-200.187m
-107.496m
-8.803m
-3.451m
-1.195m
-201.636u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-39
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
|
[POWER_clamp]
|
|Voltage
|
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
-10.789u
-580.051n
-27.994n
-1.269n
-74.463p
-26.215p
-22.114p
-19.278p
-16.497p
-13.726p
-10.963p
-8.203p
-5.446p
-2.691p
62.079f
5.566p
8.316p
11.067p
13.817p
16.567p
19.317p
22.067p
24.817p
27.568p
33.072p
35.825p
38.581p
41.339p
44.098p
46.849p
49.356p
51.378p
53.315p
57.193p
59.183p
62.959p
I(typ)
-41.964u -13.420u
-4.632u -416.799n
-450.005n -11.484n
-41.862n -311.158p
-4.218n -27.092p
-1.078n -18.737p
-826.325p -16.303p
-754.146p -13.966p
-694.188p -11.632p
-635.953p
-9.300p
-578.437p
-6.968p
-521.365p
-4.637p
-464.595p
-2.307p
-408.039p
22.980f
-351.636p
2.353p
-239.133p
7.011p
-182.975p
9.340p
-126.851p
11.669p
-70.743p
13.998p
-14.634p
16.327p
41.493p
18.656p
97.654p
20.985p
153.868p
23.313p
210.159p
25.642p
323.083p
30.300p
379.789p
32.629p
436.650p
34.958p
492.867p
37.288p
547.026p
39.618p
600.695p
41.948p
654.682p
44.279p
709.650p
46.611p
776.122p
48.939p
4.552n
52.772p
44.522n
54.319p
466.732n
55.861p
I(min)
-26.215p
-74.463p
-1.269n
-27.994n
-580.051n
-10.789u
-116.521u
-2.837m
-17.375m
-60.888m
-130.668m
-212.028m
-298.248m
-386.980m
I(max)
-450.005n -11.632p
-4.632u -13.966p
-41.964u -16.303p
-336.317u -18.737p
-3.014m -27.092p
-14.886m -311.158p
-40.029m -11.484n
-120.248m -13.420u
-166.582m -201.636u
-214.579m
-1.195m
-263.597m
-3.451m
-313.301m
-8.803m
-363.494m -37.420m
-414.052m -107.496m
DSP56364 Technical Data, Rev. 4.1
A-40
Freescale Semiconductor
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-477.221m
-568.461m
-752.887m
-845.771m
-938.979m
-1.032
-1.126
-1.220
-1.314
-1.408
-1.503
-1.691
-1.786
-1.881
-1.975
-2.070
-2.165
-464.892m
-515.958m
-618.610m
-670.140m
-721.779m
-773.514m
-825.330m
-877.220m
-929.174m
-981.185m
-1.033
-1.138
-1.190
-1.242
-1.294
-1.346
-1.399
-200.187m
-300.867m
-511.430m
-618.970m
-727.373m
-836.403m
-945.908m
-1.056
-1.166
-1.276
-1.387
-1.609
-1.720
-1.831
-1.942
-2.054
-2.165
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
1.99/116.478p 1.81/206.384p 2.17/80.687p
|
dV/dt_r
2.02/147.722p 1.84/253.853p 2.19/93.030p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipadn_io
| ""
Model_type
I/O
Vinl = 0.8
Vinh = 2
| variable
typ
min
max
C_comp
2.03p
1.90p
2.18p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-157.134u -99.256u -219.000u
-3.20V
-165.037u -104.127u -230.250u
-3.10V
-173.749u -109.479u -242.685u
-3.00V
-183.400u -115.386u -256.500u
-2.90V
-194.148u -121.936u -271.934u
-2.80V
-206.189u -129.240u -289.286u
-2.70V
-219.766u -137.431u -308.933u
-2.60V
-235.190u -146.680u -331.355u
-2.50V
-252.856u -157.199u -357.176u
-2.40V
-273.283u -169.265u -387.219u
-2.30V
-297.162u -183.236u -422.595u
-2.20V
-325.427u -199.590u -464.837u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-41
-2.10V
-2.00V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
-359.384u
-400.901u
-452.750u
-519.217u
-607.277u
-729.045u
-907.407u
-1.191m
-1.699m
-2.799m
-5.689m
-10.416m
-12.342m
-11.672m
-10.528m
-9.204m
-7.770m
-6.286m
-4.766m
-3.214m
-1.627m
32.755e-18
1.604m
3.124m
4.566m
5.928m
7.210m
8.411m
9.529m
10.562m
11.508m
12.367m
13.138m
13.821m
14.417m
14.930m
86.564m
88.497m
89.946m
90.974m
91.689m
92.200m
92.586m
92.895m
93.154m
93.380m
93.581m
93.764m
93.931m
94.087m
94.233m
94.370m
94.500m
94.624m
94.744m
-218.976u -516.117u
-242.299u -579.623u
-270.851u -660.217u
-306.549u -765.681u
-352.346u -909.270u
-413.024u
-1.115m
-496.811u
-1.434m
-619.011u
-1.987m
-811.079u
-3.133m
-1.146m
-6.243m
-1.822m -12.974m
-3.302m -17.948m
-5.449m -17.964m
-6.479m -16.692m
-6.146m -15.152m
-5.387m -13.338m
-4.535m -11.313m
-3.652m
-9.190m
-2.754m
-6.999m
-1.846m
-4.740m
-928.990u
-2.410m
18.548e-18
-1.607f
910.814u
2.391m
1.775m
4.661m
2.595m
6.817m
3.372m
8.858m
4.105m
10.784m
4.792m
12.593m
5.432m
14.284m
6.023m
15.855m
6.563m
17.306m
7.051m
18.639m
7.486m
19.856m
7.865m
20.957m
8.189m
21.944m
47.725m
22.817m
48.943m
23.575m
49.908m 136.139m
50.637m 138.902m
51.160m 140.954m
51.534m 142.415m
51.810m 143.449m
52.024m 144.201m
52.201m 144.779m
52.351m 145.246m
52.482m 145.642m
52.600m 145.990m
52.706m 146.303m
52.804m 146.590m
52.895m 146.855m
52.980m 147.104m
53.060m 147.338m
53.135m 147.560m
53.207m 147.772m
53.276m 147.976m
DSP56364 Technical Data, Rev. 4.1
A-42
Freescale Semiconductor
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
94.859m
94.974m
95.089m
95.208m
95.336m
95.478m
95.641m
95.833m
96.065m
96.347m
96.693m
97.117m
97.636m
98.266m
99.024m
99.931m
101.005m
102.264m
103.730m
105.422m
107.357m
109.556m
112.034m
114.809m
117.897m
121.311m
125.066m
129.172m
133.642m
138.485m
143.709m
149.320m
155.326m
53.343m
53.408m
53.475m
53.543m
53.617m
53.699m
53.792m
53.902m
54.035m
54.196m
54.394m
54.635m
54.930m
55.287m
55.716m
56.227m
56.831m
57.539m
58.361m
59.308m
60.391m
61.618m
63.000m
64.545m
66.263m
68.160m
70.245m
72.524m
75.002m
77.685m
80.578m
83.683m
87.004m
148.174m
148.367m
148.560m
148.757m
148.963m
149.186m
149.436m
149.725m
150.067m
150.479m
150.981m
151.594m
152.342m
153.252m
154.350m
155.666m
157.230m
159.070m
161.218m
163.704m
166.555m
169.801m
173.468m
177.581m
182.163m
187.235m
192.816m
198.924m
205.573m
212.776m
220.544m
228.885m
237.805m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
132.979u 100.794u 170.075u
-3.20V
138.984u 105.115u 178.000u
-3.10V
145.559u 109.825u 186.702u
-3.00V
152.789u 114.981u 196.300u
-2.90V
160.778u 120.648u 206.941u
-2.80V
169.651u 126.906u 218.803u
-2.70V
179.562u 133.852u 232.110u
-2.60V
190.706u 141.605u 247.141u
-2.50V
203.326u 150.317u 264.253u
-2.40V
217.736u 160.174u 283.910u
-2.30V
234.344u 171.418u 306.723u
-2.20V
253.692u 184.362u 333.513u
-2.10V
276.513u 199.421u 365.415u
-2.00V
303.830u 217.155u 404.033u
-1.90V
337.102u 238.340u 451.722u
-1.80V
378.494u 264.081u 512.067u
-1.70V
431.351u 296.004u 590.810u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-43
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
-0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
501.113u 336.601u 697.730u
597.240u 389.880u 850.877u
737.641u 462.700u
1.087m
960.396u 567.748u
1.497m
1.361m 731.012u
2.348m
2.237m
1.013m
4.712m
4.644m
1.583m
10.148m
8.090m
2.907m
12.062m
8.032m
4.727m
11.029m
7.118m
4.754m
9.778m
6.128m
4.128m
8.443m
5.109m
3.441m
7.052m
4.082m
2.746m
5.644m
3.056m
2.053m
4.233m
2.033m
1.363m
2.821m
1.014m 678.856u
1.410m
58.687e-18 58.622e-18 117.504e-18
-987.106u -655.604u
-1.381m
-1.928m
-1.274m
-2.709m
-2.828m
-1.859m
-3.988m
-3.685m
-2.412m
-5.216m
-4.499m
-2.931m
-6.392m
-5.269m
-3.416m
-7.516m
-5.994m
-3.866m
-8.587m
-6.673m
-4.280m
-9.602m
-7.306m
-4.658m -10.561m
-7.890m
-4.999m -11.461m
-8.424m
-5.301m -12.302m
-8.907m
-5.563m -13.081m
-9.339m -47.451m -13.901m
-79.705m -48.954m -118.519m
-82.391m -50.187m -123.324m
-84.713m -51.203m -127.640m
-86.724m -52.057m -131.501m
-88.472m -52.794m -134.939m
-89.996m -53.442m -137.982m
-91.327m -54.017m -140.655m
-92.489m -54.533m -142.987m
-93.511m -54.999m -145.014m
-94.415m -55.424m -146.781m
-95.224m -55.814m -148.333m
-95.955m -56.174m -149.709m
-96.623m -56.510m -150.943m
-97.238m -56.824m -152.063m
-97.809m -57.119m -153.088m
-98.343m -57.398m -154.036m
-98.846m -57.662m -154.920m
-99.320m -57.913m -155.749m
-99.770m -58.152m -156.531m
-100.198m -58.381m -157.272m
-100.607m -58.601m -157.977m
-100.998m -58.812m -158.650m
-101.374m -59.015m -159.295m
-101.735m -59.211m -159.914m
-102.084m -59.401m -160.510m
DSP56364 Technical Data, Rev. 4.1
A-44
Freescale Semiconductor
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-0.90V
-102.422m
-102.750m
-103.070m
-103.384m
-103.694m
-104.002m
-104.313m
-104.629m
-104.955m
-105.296m
-105.659m
-106.050m
-106.477m
-106.949m
-107.474m
-108.064m
-108.730m
-109.483m
-110.337m
-111.305m
-112.401m
-113.640m
-115.036m
-116.606m
-118.365m
-120.329m
-122.513m
-124.935m
I(typ)
-59.585m
-59.766m
-59.942m
-60.117m
-60.291m
-60.467m
-60.647m
-60.832m
-61.027m
-61.234m
-61.459m
-61.704m
-61.975m
-62.278m
-62.619m
-63.003m
-63.439m
-63.932m
-64.492m
-65.126m
-65.843m
-66.651m
-67.560m
-68.578m
-69.715m
-70.981m
-72.384m
-73.935m
I(min)
-2.165
-2.070
-1.975
-1.786
-1.691
-1.597
-1.503
-1.408
-1.314
-1.220
-1.126
-1.032
-845.771m
-752.887m
-660.410m
-568.461m
-477.221m
-386.980m
-298.248m
-212.028m
-130.668m
-17.375m
-1.242
-1.190
-1.138
-1.033
-981.185m
-929.174m
-877.220m
-825.330m
-773.514m
-721.779m
-670.140m
-618.610m
-515.958m
-464.892m
-414.052m
-363.494m
-313.301m
-263.597m
-214.579m
-166.582m
-120.248m
-40.029m
-161.086m
-161.644m
-162.186m
-162.715m
-163.234m
-163.747m
-164.257m
-164.770m
-165.293m
-165.831m
-166.394m
-166.991m
-167.634m
-168.334m
-169.106m
-169.965m
-170.928m
-172.012m
-173.239m
-174.627m
-176.199m
-177.978m
-179.986m
-182.247m
-184.785m
-187.626m
-190.793m
-194.311m
I(max)
-2.500
-2.388
-2.277
-2.054
-1.942
-1.831
-1.720
-1.609
-1.498
-1.387
-1.276
-1.166
-945.908m
-836.403m
-727.373m
-618.970m
-511.430m
-405.149m
-300.867m
-200.187m
-107.496m
-8.803m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-45
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
-2.837m
-656.331u
-116.521u
-10.789u
-580.051n
-27.994n
-1.269n
-74.463p
-26.215p
-22.114p
-19.278p
-16.497p
-13.726p
-10.963p
-8.203p
-5.446p
-2.691p
62.079f
5.566p
8.316p
11.067p
13.817p
16.567p
19.317p
22.067p
24.817p
27.568p
33.072p
35.825p
38.581p
41.339p
44.098p
46.849p
49.356p
51.378p
53.315p
57.193p
59.183p
62.959p
-14.886m
-3.451m
-3.014m
-1.195m
-336.317u -201.636u
-41.964u -13.420u
-4.632u -416.799n
-450.005n -11.484n
-41.862n -311.158p
-4.218n -27.092p
-1.078n -18.737p
-826.325p -16.303p
-754.146p -13.966p
-694.188p -11.632p
-635.953p
-9.300p
-578.437p
-6.968p
-521.365p
-4.637p
-464.595p
-2.307p
-408.039p
22.980f
-351.636p
2.353p
-239.133p
7.011p
-182.975p
9.340p
-126.851p
11.669p
-70.743p
13.998p
-14.634p
16.327p
41.493p
18.656p
97.654p
20.985p
153.868p
23.313p
210.159p
25.642p
323.083p
30.300p
379.789p
32.629p
436.650p
34.958p
492.867p
37.288p
547.026p
39.618p
600.695p
41.948p
654.682p
44.279p
709.650p
46.611p
776.122p
48.939p
4.552n
52.772p
44.522n
54.319p
466.732n
55.861p
|
[POWER_clamp]
|
|Voltage
I(typ)
I(min)
I(max)
|
3.30V
-26.215p -450.005n -11.632p
3.40V
-74.463p
-4.632u -13.966p
3.50V
-1.269n -41.964u -16.303p
3.60V
-27.994n -336.317u -18.737p
3.70V
-580.051n
-3.014m -27.092p
3.80V
-10.789u -14.886m -311.158p
3.90V
-116.521u -40.029m -11.484n
4.10V
-2.837m -120.248m -13.420u
4.20V
-17.375m -166.582m -201.636u
4.30V
-60.888m -214.579m
-1.195m
4.40V
-130.668m -263.597m
-3.451m
DSP56364 Technical Data, Rev. 4.1
A-46
Freescale Semiconductor
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-212.028m
-298.248m
-386.980m
-477.221m
-568.461m
-752.887m
-845.771m
-938.979m
-1.032
-1.126
-1.220
-1.314
-1.408
-1.503
-1.691
-1.786
-1.881
-1.975
-2.070
-2.165
-313.301m
-363.494m
-414.052m
-464.892m
-515.958m
-618.610m
-670.140m
-721.779m
-773.514m
-825.330m
-877.220m
-929.174m
-981.185m
-1.033
-1.138
-1.190
-1.242
-1.294
-1.346
-1.399
-8.803m
-37.420m
-107.496m
-200.187m
-300.867m
-511.430m
-618.970m
-727.373m
-836.403m
-945.908m
-1.056
-1.166
-1.276
-1.387
-1.609
-1.720
-1.831
-1.942
-2.054
-2.165
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
2.00/112.556p 1.82/199.937p 2.17/74.356p
|
dV/dt_r
2.02/146.245p 1.84/252.851p 2.20/93.872p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipadni_io
| ""
Model_type
I/O
Vinl = 0.8
Vinh = 2
| variable
typ
min
max
C_comp
2.01p
1.89p
2.17p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-157.134u -99.256u -219.000u
-3.20V
-165.037u -104.127u -230.250u
-3.10V
-173.749u -109.479u -242.685u
-3.00V
-183.400u -115.386u -256.500u
-2.90V
-194.148u -121.936u -271.934u
-2.80V
-206.189u -129.240u -289.286u
-2.70V
-219.766u -137.431u -308.933u
-2.60V
-235.190u -146.680u -331.355u
-2.50V
-252.856u -157.199u -357.176u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-47
-2.40V
-2.30V
-2.20V
-2.10V
-2.00V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
-273.283u
-297.162u
-325.427u
-359.384u
-400.901u
-452.750u
-519.217u
-607.277u
-729.045u
-907.407u
-1.191m
-1.699m
-2.799m
-5.689m
-10.416m
-12.342m
-11.672m
-10.528m
-9.204m
-7.770m
-6.286m
-4.766m
-3.214m
-1.627m
32.755e-18
1.604m
3.124m
4.566m
5.928m
7.210m
8.411m
9.529m
10.562m
11.508m
12.367m
13.138m
13.821m
14.417m
14.930m
86.564m
88.497m
89.946m
90.974m
91.689m
92.200m
92.586m
92.895m
93.154m
93.380m
93.581m
93.764m
93.931m
94.087m
94.233m
94.370m
-169.265u -387.219u
-183.236u -422.595u
-199.590u -464.837u
-218.976u -516.117u
-242.299u -579.623u
-270.851u -660.217u
-306.549u -765.681u
-352.346u -909.270u
-413.024u
-1.115m
-496.811u
-1.434m
-619.011u
-1.987m
-811.079u
-3.133m
-1.146m
-6.243m
-1.822m -12.974m
-3.302m -17.948m
-5.449m -17.964m
-6.479m -16.692m
-6.146m -15.152m
-5.387m -13.338m
-4.535m -11.313m
-3.652m
-9.190m
-2.754m
-6.999m
-1.846m
-4.740m
-928.990u
-2.410m
18.548e-18
-1.607f
910.814u
2.391m
1.775m
4.661m
2.595m
6.817m
3.372m
8.858m
4.105m
10.784m
4.792m
12.593m
5.432m
14.284m
6.023m
15.855m
6.563m
17.306m
7.051m
18.639m
7.486m
19.856m
7.865m
20.957m
8.189m
21.944m
47.725m
22.817m
48.943m
23.575m
49.908m 136.139m
50.637m 138.902m
51.160m 140.954m
51.534m 142.415m
51.810m 143.449m
52.024m 144.201m
52.201m 144.779m
52.351m 145.246m
52.482m 145.642m
52.600m 145.990m
52.706m 146.303m
52.804m 146.590m
52.895m 146.855m
52.980m 147.104m
53.060m 147.338m
DSP56364 Technical Data, Rev. 4.1
A-48
Freescale Semiconductor
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
94.500m
94.624m
94.744m
94.859m
94.974m
95.089m
95.208m
95.336m
95.478m
95.641m
95.833m
96.065m
96.347m
96.693m
97.117m
97.636m
98.266m
99.024m
99.931m
101.005m
102.264m
103.730m
105.422m
107.357m
109.556m
112.034m
114.809m
117.897m
121.311m
125.066m
129.172m
133.642m
138.485m
143.709m
149.320m
155.326m
53.135m
53.207m
53.276m
53.343m
53.408m
53.475m
53.543m
53.617m
53.699m
53.792m
53.902m
54.035m
54.196m
54.394m
54.635m
54.930m
55.287m
55.716m
56.227m
56.831m
57.539m
58.361m
59.308m
60.391m
61.618m
63.000m
64.545m
66.263m
68.160m
70.245m
72.524m
75.002m
77.685m
80.578m
83.683m
87.004m
147.560m
147.772m
147.976m
148.174m
148.367m
148.560m
148.757m
148.963m
149.186m
149.436m
149.725m
150.067m
150.479m
150.981m
151.594m
152.342m
153.252m
154.350m
155.666m
157.230m
159.070m
161.218m
163.704m
166.555m
169.801m
173.468m
177.581m
182.163m
187.235m
192.816m
198.924m
205.573m
212.776m
220.544m
228.885m
237.805m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
132.979u 100.794u 170.075u
-3.20V
138.984u 105.115u 178.000u
-3.10V
145.559u 109.825u 186.702u
-3.00V
152.789u 114.981u 196.300u
-2.90V
160.778u 120.648u 206.941u
-2.80V
169.651u 126.906u 218.803u
-2.70V
179.562u 133.852u 232.110u
-2.60V
190.706u 141.605u 247.141u
-2.50V
203.326u 150.317u 264.253u
-2.40V
217.736u 160.174u 283.910u
-2.30V
234.344u 171.418u 306.723u
-2.20V
253.692u 184.362u 333.513u
-2.10V
276.513u 199.421u 365.415u
-2.00V
303.830u 217.155u 404.033u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-49
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
-0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
337.102u 238.340u 451.722u
378.494u 264.081u 512.067u
431.351u 296.004u 590.810u
501.113u 336.601u 697.730u
597.240u 389.880u 850.877u
737.641u 462.700u
1.087m
960.396u 567.748u
1.497m
1.361m 731.012u
2.348m
2.237m
1.013m
4.712m
4.644m
1.583m
10.148m
8.090m
2.907m
12.062m
8.032m
4.727m
11.029m
7.118m
4.754m
9.778m
6.128m
4.128m
8.443m
5.109m
3.441m
7.052m
4.082m
2.746m
5.644m
3.056m
2.053m
4.233m
2.033m
1.363m
2.821m
1.014m 678.856u
1.410m
58.687e-18 58.622e-18 117.504e-18
-987.106u -655.604u
-1.381m
-1.928m
-1.274m
-2.709m
-2.828m
-1.859m
-3.988m
-3.685m
-2.412m
-5.216m
-4.499m
-2.931m
-6.392m
-5.269m
-3.416m
-7.516m
-5.994m
-3.866m
-8.587m
-6.673m
-4.280m
-9.602m
-7.306m
-4.658m -10.561m
-7.890m
-4.999m -11.461m
-8.424m
-5.301m -12.302m
-8.907m
-5.563m -13.081m
-9.339m -47.451m -13.901m
-79.705m -48.954m -118.519m
-82.391m -50.187m -123.324m
-84.713m -51.203m -127.640m
-86.724m -52.057m -131.501m
-88.472m -52.794m -134.939m
-89.996m -53.442m -137.982m
-91.327m -54.017m -140.655m
-92.489m -54.533m -142.987m
-93.511m -54.999m -145.014m
-94.415m -55.424m -146.781m
-95.224m -55.814m -148.333m
-95.955m -56.174m -149.709m
-96.623m -56.510m -150.943m
-97.238m -56.824m -152.063m
-97.809m -57.119m -153.088m
-98.343m -57.398m -154.036m
-98.846m -57.662m -154.920m
-99.320m -57.913m -155.749m
-99.770m -58.152m -156.531m
-100.198m -58.381m -157.272m
-100.607m -58.601m -157.977m
-100.998m -58.812m -158.650m
DSP56364 Technical Data, Rev. 4.1
A-50
Freescale Semiconductor
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-101.374m
-101.735m
-102.084m
-102.422m
-102.750m
-103.070m
-103.384m
-103.694m
-104.002m
-104.313m
-104.629m
-104.955m
-105.296m
-105.659m
-106.050m
-106.477m
-106.949m
-107.474m
-108.064m
-108.730m
-109.483m
-110.337m
-111.305m
-112.401m
-113.640m
-115.036m
-116.606m
-118.365m
-120.329m
-122.513m
-124.935m
I(typ)
-59.015m
-59.211m
-59.401m
-59.585m
-59.766m
-59.942m
-60.117m
-60.291m
-60.467m
-60.647m
-60.832m
-61.027m
-61.234m
-61.459m
-61.704m
-61.975m
-62.278m
-62.619m
-63.003m
-63.439m
-63.932m
-64.492m
-65.126m
-65.843m
-66.651m
-67.560m
-68.578m
-69.715m
-70.981m
-72.384m
-73.935m
I(min)
-2.165
-2.070
-1.975
-1.786
-1.691
-1.597
-1.503
-1.408
-1.314
-1.220
-1.126
-1.032
-845.771m
-752.887m
-660.410m
-568.461m
-477.221m
-386.980m
-298.248m
-1.242
-1.190
-1.138
-1.033
-981.185m
-929.174m
-877.220m
-825.330m
-773.514m
-721.779m
-670.140m
-618.610m
-515.958m
-464.892m
-414.052m
-363.494m
-313.301m
-263.597m
-214.579m
-159.295m
-159.914m
-160.510m
-161.086m
-161.644m
-162.186m
-162.715m
-163.234m
-163.747m
-164.257m
-164.770m
-165.293m
-165.831m
-166.394m
-166.991m
-167.634m
-168.334m
-169.106m
-169.965m
-170.928m
-172.012m
-173.239m
-174.627m
-176.199m
-177.978m
-179.986m
-182.247m
-184.785m
-187.626m
-190.793m
-194.311m
I(max)
-2.500
-2.388
-2.277
-2.054
-1.942
-1.831
-1.720
-1.609
-1.498
-1.387
-1.276
-1.166
-945.908m
-836.403m
-727.373m
-618.970m
-511.430m
-405.149m
-300.867m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-51
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
-212.028m
-130.668m
-17.375m
-2.837m
-656.331u
-116.521u
-10.789u
-580.051n
-27.994n
-1.269n
-74.463p
-26.215p
-22.114p
-19.278p
-16.497p
-13.726p
-10.963p
-8.203p
-5.446p
-2.691p
62.079f
5.566p
8.316p
11.067p
13.817p
16.567p
19.317p
22.067p
24.817p
27.568p
33.072p
35.825p
38.581p
41.339p
44.098p
46.849p
49.356p
51.378p
53.315p
57.193p
59.183p
62.959p
-166.582m
-120.248m
-40.029m
-14.886m
-3.014m
-336.317u
-41.964u
-4.632u
-450.005n
-41.862n
-4.218n
-1.078n
-826.325p
-754.146p
-694.188p
-635.953p
-578.437p
-521.365p
-464.595p
-408.039p
-351.636p
-239.133p
-182.975p
-126.851p
-70.743p
-14.634p
41.493p
97.654p
153.868p
210.159p
323.083p
379.789p
436.650p
492.867p
547.026p
600.695p
654.682p
709.650p
776.122p
4.552n
44.522n
466.732n
-200.187m
-107.496m
-8.803m
-3.451m
-1.195m
-201.636u
-13.420u
-416.799n
-11.484n
-311.158p
-27.092p
-18.737p
-16.303p
-13.966p
-11.632p
-9.300p
-6.968p
-4.637p
-2.307p
22.980f
2.353p
7.011p
9.340p
11.669p
13.998p
16.327p
18.656p
20.985p
23.313p
25.642p
30.300p
32.629p
34.958p
37.288p
39.618p
41.948p
44.279p
46.611p
48.939p
52.772p
54.319p
55.861p
|
[POWER_clamp]
|
|Voltage
I(typ)
I(min)
I(max)
|
3.30V
-26.215p -450.005n -11.632p
3.40V
-74.463p
-4.632u -13.966p
3.50V
-1.269n -41.964u -16.303p
3.60V
-27.994n -336.317u -18.737p
3.70V
-580.051n
-3.014m -27.092p
3.80V
-10.789u -14.886m -311.158p
3.90V
-116.521u -40.029m -11.484n
4.10V
-2.837m -120.248m -13.420u
DSP56364 Technical Data, Rev. 4.1
A-52
Freescale Semiconductor
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-17.375m
-60.888m
-130.668m
-212.028m
-298.248m
-386.980m
-477.221m
-568.461m
-752.887m
-845.771m
-938.979m
-1.032
-1.126
-1.220
-1.314
-1.408
-1.503
-1.691
-1.786
-1.881
-1.975
-2.070
-2.165
-166.582m
-214.579m
-263.597m
-313.301m
-363.494m
-414.052m
-464.892m
-515.958m
-618.610m
-670.140m
-721.779m
-773.514m
-825.330m
-877.220m
-929.174m
-981.185m
-1.033
-1.138
-1.190
-1.242
-1.294
-1.346
-1.399
-201.636u
-1.195m
-3.451m
-8.803m
-37.420m
-107.496m
-200.187m
-300.867m
-511.430m
-618.970m
-727.373m
-836.403m
-945.908m
-1.056
-1.166
-1.276
-1.387
-1.609
-1.720
-1.831
-1.942
-2.054
-2.165
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
2.00/113.266p 1.82/197.371p 2.17/74.028p
|
dV/dt_r
2.02/147.014p 1.84/251.849p 2.20/93.411p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[Model]
ipado_3st
| ""
Model_type
3-state
| variable
typ
min
max
C_comp
1.99p
1.86p
2.15p
| variable
typ
min
max
[Temperature Range] 40.0
0.0
120.0
| variable
typ
min
max
[Voltage Range]
3.30V
3.00V
3.60V
|
[Pulldown]
| pulldown in the table = pulldown subtract gnd_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
-157.134u -99.256u -219.000u
-3.20V
-165.037u -104.127u -230.250u
-3.10V
-173.749u -109.479u -242.685u
-3.00V
-183.400u -115.386u -256.500u
-2.90V
-194.148u -121.936u -271.934u
-2.80V
-206.189u -129.240u -289.286u
-2.70V
-219.766u -137.431u -308.933u
-2.60V
-235.190u -146.680u -331.355u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-53
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-2.00V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
-252.856u
-273.283u
-297.162u
-325.427u
-359.384u
-400.901u
-452.750u
-519.217u
-607.277u
-729.045u
-907.407u
-1.191m
-1.699m
-2.799m
-5.689m
-10.416m
-12.342m
-11.672m
-10.528m
-9.204m
-7.770m
-6.286m
-4.766m
-3.214m
-1.627m
32.755e-18
1.604m
3.124m
4.566m
5.928m
7.210m
8.411m
9.529m
10.562m
11.508m
12.367m
13.138m
13.821m
14.417m
14.930m
86.564m
88.497m
89.946m
90.974m
91.689m
92.200m
92.586m
92.895m
93.154m
93.380m
93.581m
93.764m
93.931m
94.087m
94.233m
-157.199u -357.176u
-169.265u -387.219u
-183.236u -422.595u
-199.590u -464.837u
-218.976u -516.117u
-242.299u -579.623u
-270.851u -660.217u
-306.549u -765.681u
-352.346u -909.270u
-413.024u
-1.115m
-496.811u
-1.434m
-619.011u
-1.987m
-811.079u
-3.133m
-1.146m
-6.243m
-1.822m -12.974m
-3.302m -17.948m
-5.449m -17.964m
-6.479m -16.692m
-6.146m -15.152m
-5.387m -13.338m
-4.535m -11.313m
-3.652m
-9.190m
-2.754m
-6.999m
-1.846m
-4.740m
-928.990u
-2.410m
18.548e-18
-1.607f
910.814u
2.391m
1.775m
4.661m
2.595m
6.817m
3.372m
8.858m
4.105m
10.784m
4.792m
12.593m
5.432m
14.284m
6.023m
15.855m
6.563m
17.306m
7.051m
18.639m
7.486m
19.856m
7.865m
20.957m
8.189m
21.944m
47.725m
22.817m
48.943m
23.575m
49.908m 136.139m
50.637m 138.902m
51.160m 140.954m
51.534m 142.415m
51.810m 143.449m
52.024m 144.201m
52.201m 144.779m
52.351m 145.246m
52.482m 145.642m
52.600m 145.990m
52.706m 146.303m
52.804m 146.590m
52.895m 146.855m
52.980m 147.104m
DSP56364 Technical Data, Rev. 4.1
A-54
Freescale Semiconductor
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
94.370m
94.500m
94.624m
94.744m
94.859m
94.974m
95.089m
95.208m
95.336m
95.478m
95.641m
95.833m
96.065m
96.347m
96.693m
97.117m
97.636m
98.266m
99.024m
99.931m
101.005m
102.264m
103.730m
105.422m
107.357m
109.556m
112.034m
114.809m
117.897m
121.311m
125.066m
129.172m
133.642m
138.485m
143.709m
149.320m
155.326m
53.060m
53.135m
53.207m
53.276m
53.343m
53.408m
53.475m
53.543m
53.617m
53.699m
53.792m
53.902m
54.035m
54.196m
54.394m
54.635m
54.930m
55.287m
55.716m
56.227m
56.831m
57.539m
58.361m
59.308m
60.391m
61.618m
63.000m
64.545m
66.263m
68.160m
70.245m
72.524m
75.002m
77.685m
80.578m
83.683m
87.004m
147.338m
147.560m
147.772m
147.976m
148.174m
148.367m
148.560m
148.757m
148.963m
149.186m
149.436m
149.725m
150.067m
150.479m
150.981m
151.594m
152.342m
153.252m
154.350m
155.666m
157.230m
159.070m
161.218m
163.704m
166.555m
169.801m
173.468m
177.581m
182.163m
187.235m
192.816m
198.924m
205.573m
212.776m
220.544m
228.885m
237.805m
|
[Pullup]
| pullup in the table = pullup subtract power_clamp
|Voltage
I(typ)
I(min)
I(max)
|
-3.30V
132.979u 100.794u 170.075u
-3.20V
138.984u 105.115u 178.000u
-3.10V
145.559u 109.825u 186.702u
-3.00V
152.789u 114.981u 196.300u
-2.90V
160.778u 120.648u 206.941u
-2.80V
169.651u 126.906u 218.803u
-2.70V
179.562u 133.852u 232.110u
-2.60V
190.706u 141.605u 247.141u
-2.50V
203.326u 150.317u 264.253u
-2.40V
217.736u 160.174u 283.910u
-2.30V
234.344u 171.418u 306.723u
-2.20V
253.692u 184.362u 333.513u
-2.10V
276.513u 199.421u 365.415u
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-55
-2.00V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-1.30V
-1.20V
-1.10V
-1.00V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
-0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.00V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
303.830u 217.155u 404.033u
337.102u 238.340u 451.722u
378.494u 264.081u 512.067u
431.351u 296.004u 590.810u
501.113u 336.601u 697.730u
597.240u 389.880u 850.877u
737.641u 462.700u
1.087m
960.396u 567.748u
1.497m
1.361m 731.012u
2.348m
2.237m
1.013m
4.712m
4.644m
1.583m
10.148m
8.090m
2.907m
12.062m
8.032m
4.727m
11.029m
7.118m
4.754m
9.778m
6.128m
4.128m
8.443m
5.109m
3.441m
7.052m
4.082m
2.746m
5.644m
3.056m
2.053m
4.233m
2.033m
1.363m
2.821m
1.014m 678.856u
1.410m
58.687e-18 58.622e-18 117.504e-18
-987.106u -655.604u
-1.381m
-1.928m
-1.274m
-2.709m
-2.828m
-1.859m
-3.988m
-3.685m
-2.412m
-5.216m
-4.499m
-2.931m
-6.392m
-5.269m
-3.416m
-7.516m
-5.994m
-3.866m
-8.587m
-6.673m
-4.280m
-9.602m
-7.306m
-4.658m -10.561m
-7.890m
-4.999m -11.461m
-8.424m
-5.301m -12.302m
-8.907m
-5.563m -13.081m
-9.339m -47.451m -13.837m
-79.705m -48.954m -118.519m
-82.391m -50.187m -123.324m
-84.713m -51.203m -127.640m
-86.724m -52.057m -131.501m
-88.472m -52.794m -134.939m
-89.996m -53.442m -137.982m
-91.327m -54.017m -140.655m
-92.489m -54.533m -142.987m
-93.511m -54.999m -145.014m
-94.415m -55.424m -146.781m
-95.224m -55.814m -148.333m
-95.955m -56.174m -149.709m
-96.623m -56.510m -150.943m
-97.238m -56.824m -152.063m
-97.809m -57.119m -153.088m
-98.343m -57.398m -154.036m
-98.846m -57.662m -154.920m
-99.320m -57.913m -155.749m
-99.770m -58.152m -156.531m
-100.198m -58.381m -157.272m
-100.607m -58.601m -157.977m
DSP56364 Technical Data, Rev. 4.1
A-56
Freescale Semiconductor
3.50V
3.60V
3.70V
3.80V
3.90V
4.00V
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.00V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.00V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
|
[GND_clamp]
|
|Voltage
|
-3.30V
-3.20V
-3.10V
-2.90V
-2.80V
-2.70V
-2.60V
-2.50V
-2.40V
-2.30V
-2.20V
-2.10V
-1.90V
-1.80V
-1.70V
-1.60V
-1.50V
-1.40V
-100.998m
-101.374m
-101.735m
-102.084m
-102.422m
-102.750m
-103.070m
-103.384m
-103.694m
-104.002m
-104.313m
-104.629m
-104.955m
-105.296m
-105.659m
-106.050m
-106.477m
-106.949m
-107.474m
-108.064m
-108.730m
-109.483m
-110.337m
-111.305m
-112.401m
-113.640m
-115.036m
-116.606m
-118.365m
-120.329m
-122.513m
-124.935m
I(typ)
-58.812m
-59.015m
-59.211m
-59.401m
-59.585m
-59.766m
-59.942m
-60.117m
-60.291m
-60.467m
-60.647m
-60.832m
-61.027m
-61.234m
-61.459m
-61.704m
-61.975m
-62.278m
-62.619m
-63.003m
-63.439m
-63.932m
-64.492m
-65.126m
-65.843m
-66.651m
-67.560m
-68.578m
-69.715m
-70.981m
-72.384m
-73.935m
I(min)
-2.165
-2.070
-1.975
-1.786
-1.691
-1.597
-1.503
-1.408
-1.314
-1.220
-1.126
-1.032
-845.771m
-752.887m
-660.410m
-568.461m
-477.221m
-386.980m
-1.242
-1.190
-1.138
-1.033
-981.185m
-929.174m
-877.220m
-825.330m
-773.514m
-721.779m
-670.140m
-618.610m
-515.958m
-464.892m
-414.052m
-363.494m
-313.301m
-263.597m
-158.650m
-159.295m
-159.914m
-160.510m
-161.086m
-161.644m
-162.186m
-162.715m
-163.234m
-163.747m
-164.257m
-164.770m
-165.293m
-165.831m
-166.394m
-166.991m
-167.634m
-168.334m
-169.106m
-169.965m
-170.928m
-172.012m
-173.239m
-174.627m
-176.199m
-177.978m
-179.986m
-182.247m
-184.785m
-187.626m
-190.793m
-194.311m
I(max)
-2.500
-2.388
-2.277
-2.054
-1.942
-1.831
-1.720
-1.609
-1.498
-1.387
-1.276
-1.166
-945.908m
-836.403m
-727.373m
-618.970m
-511.430m
-405.149m
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-57
-1.30V
-1.20V
-1.10V
-0.90V
-0.80V
-0.70V
-0.60V
-0.50V
-0.40V
-0.30V
-0.20V
-0.10V
0.00V
0.10V
0.20V
0.30V
0.40V
0.50V
0.60V
0.70V
0.80V
0.90V
1.10V
1.20V
1.30V
1.40V
1.50V
1.60V
1.70V
1.80V
1.90V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.10V
3.20V
3.30V
-298.248m
-212.028m
-130.668m
-17.375m
-2.837m
-656.331u
-116.521u
-10.789u
-580.051n
-27.994n
-1.269n
-74.463p
-26.215p
-22.114p
-19.278p
-16.497p
-13.726p
-10.963p
-8.203p
-5.446p
-2.691p
62.079f
5.566p
8.316p
11.067p
13.817p
16.567p
19.317p
22.067p
24.817p
27.568p
33.072p
35.825p
38.581p
41.339p
44.098p
46.849p
49.356p
51.378p
53.315p
57.193p
59.183p
62.959p
-214.579m
-166.582m
-120.248m
-40.029m
-14.886m
-3.014m
-336.317u
-41.964u
-4.632u
-450.005n
-41.862n
-4.218n
-1.078n
-826.325p
-754.146p
-694.188p
-635.953p
-578.437p
-521.365p
-464.595p
-408.039p
-351.636p
-239.133p
-182.975p
-126.851p
-70.743p
-14.634p
41.493p
97.654p
153.868p
210.159p
323.083p
379.789p
436.650p
492.867p
547.026p
600.695p
654.682p
709.650p
776.122p
4.552n
44.522n
466.732n
-300.867m
-200.187m
-107.496m
-8.803m
-3.451m
-1.195m
-201.636u
-13.420u
-416.799n
-11.484n
-311.158p
-27.092p
-18.737p
-16.303p
-13.966p
-11.632p
-9.300p
-6.968p
-4.637p
-2.307p
22.980f
2.353p
7.011p
9.340p
11.669p
13.998p
16.327p
18.656p
20.985p
23.313p
25.642p
30.300p
32.629p
34.958p
37.288p
39.618p
41.948p
44.279p
46.611p
48.939p
52.772p
54.319p
55.861p
|
[POWER_clamp]
|
|Voltage
I(typ)
I(min)
I(max)
|
3.30V
-26.215p -450.005n -11.632p
3.40V
-74.463p
-4.632u -13.966p
3.50V
-1.269n -41.964u -16.303p
3.60V
-27.994n -336.317u -18.737p
3.70V
-580.051n
-3.014m -27.092p
3.80V
-10.789u -14.886m -311.158p
3.90V
-116.521u -40.029m -11.484n
DSP56364 Technical Data, Rev. 4.1
A-58
Freescale Semiconductor
4.10V
4.20V
4.30V
4.40V
4.50V
4.60V
4.70V
4.80V
4.90V
5.10V
5.20V
5.30V
5.40V
5.50V
5.60V
5.70V
5.80V
5.90V
6.10V
6.20V
6.30V
6.40V
6.50V
6.60V
-2.837m
-17.375m
-60.888m
-130.668m
-212.028m
-298.248m
-386.980m
-477.221m
-568.461m
-752.887m
-845.771m
-938.979m
-1.032
-1.126
-1.220
-1.314
-1.408
-1.503
-1.691
-1.786
-1.881
-1.975
-2.070
-2.165
-120.248m
-166.582m
-214.579m
-263.597m
-313.301m
-363.494m
-414.052m
-464.892m
-515.958m
-618.610m
-670.140m
-721.779m
-773.514m
-825.330m
-877.220m
-929.174m
-981.185m
-1.033
-1.138
-1.190
-1.242
-1.294
-1.346
-1.399
-13.420u
-201.636u
-1.195m
-3.451m
-8.803m
-37.420m
-107.496m
-200.187m
-300.867m
-511.430m
-618.970m
-727.373m
-836.403m
-945.908m
-1.056
-1.166
-1.276
-1.387
-1.609
-1.720
-1.831
-1.942
-2.054
-2.165
|
[Ramp]
|Voltage
I(typ)
I(min)
I(max)
|
dV/dt_f
1.99/130.331p 1.81/220.000p 2.17/83.712p
|
dV/dt_r
2.03/153.657p 1.84/260.814p 2.20/92.663p
R_load=10000ohms
| R_load was connected to ground for Ramp_up test and power for Ramp_dn test
|
|End model
[End]
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
A-59
NOTES
DSP56364 Technical Data, Rev. 4.1
A-60
Freescale Semiconductor
Index
out of page and refresh timings
11 wait states 31
15 wait states 33
4 wait states 27
8 wait states 29
Page mode
read accesses 26
wait states selection guide 17
write accesses 25
Page mode timings
1 wait state 17
2 wait states 20
3 wait states 22
4 wait states 23
refresh access 37
A
ac electrical characteristics 4
B
Boundary Scan (JTAG Port) timing diagram 54
bus
external address 4
external data 4
C
Clock 4
clock
external 4
operation 6
clocks
internal 4
configuration 3
D
dc electrical characteristics 3
design considerations
electrical 3
PLL 4
power consumption 3
thermal 1
DRAM
out of page
wait states selection guide 27
E
electrical design considerations 3
emory 3
Enhanced Serial Audio Interface 9
ESAI 9
receiver timing 51, 52
timings 47
transmitter timing 50
EXTAL jitter 4
external address bus 4
external bus control 4, 5
external clock operation 4
external data bus 4
external interrupt timing (negative edge-triggered)
11
external level-sensitive fast interrupt timing 10
external memory access (DMA Source) timing 12
External Memory Expansion Port 4, 12
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
Index-1
F
O
functional signal groups 1
OnCE module 12
operating mode select timing 11
G
P
GPIO timing 52
Ground 3
PLL 3
I
internal clocks 4
interrupt and mode control 6
interrupt control 6
interrupt timing 7
external level-sensitive fast 10
external negative edge-triggered 11
J
Jitter 4
JTAG 12
JTAG Port
timing 53, 54
package
TQFP description 1, 3
Peripheral modules 3
Phase Lock Loop 6
PLL 4, 6
Characteristics 6
performance issues 4
PLL design considerations 4
PLL performance issues 4
Port A 4
Port C 9
Power 2
power consumption design considerations 3
R
recovery from Stop state using IRQA 11, 12
RESET 6
Reset timing 7, 10
S
M
maximum ratings 1, 2
Memory 3
Memory Configuration 3
mode control 6
Mode select timing 7
Serial Audio Interface (ESAI) 3
Serial Host Interface 7
Serial Host Interface (SHI) 3
SHI 7
signal groupings 1
signals 1
SRAM
DSP56364 Technical Data, Rev. 4.1
Index-2
Freescale Semiconductor
read and write accesses 12
Stop state
recovery from 11, 12
Stop timing 7
supply voltage 2
T
Test Access Port timing diagram 55
Test Clock (TCLK) input timing diagram 54
thermal characteristics 2
thermal design considerations 1
Timing
Enhanced Serial Audio Interface (ESAI) 50
General Purpose I/O (GPIO) Timing 47
OnCE™ (On Chip Emulator) Timing 47
Serial Host Interface (SHI) SPI Protocol Timing 37
Serial Host Interface (SHI) Timing 37
timing
interrupt 7
mode select 7
Reset 7
Stop 7
TQFP
pin list by number 3
pin-out drawing (top) 1
DSP56364 Technical Data, Rev. 4.1
Freescale Semiconductor
Index-3
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Rev. 4.1
10/2007
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