OKI ML66Q525B-NLA 16-bit microcontroller Datasheet

OKI Semiconductor
ML66525 Family
FEDL66525-02
Issue Date: July 19, 2002
16-Bit Microcontroller
GENERAL DESCRIPTION
The ML66525 family devices are high-performance 16-bit CMOS microcontrollers that utilize the nX-8/500S,
Oki’s proprietary CPU core.
Data from a personal computer with a USB connector can be automatically, quickly written or read to and from
NAND type Flash Memory via USB I/F and NAND Flash Memory I/F.
The ML66525 family devices support clock gear functions, a sub-clock and HALT/STOP mode, which are
suitable for low power applications.
The ML66525 family devices are provided with interfaces to external devices such as a 4-channel multi-functional
serial interface with internal 32-byte FIFO and a high-speed bus interface that has separate address and data buses
and does not require external address latches.
A wide variety of internal multi-functional timers enable various timing controls such as periodic and timed
measurements.
With a 16-bit CPU core that enables high-speed arithmetic computations and a variety of bit processing functions,
these general-purpose microcontrollers are optimally suited for Digital Audio devices such as MP3 players, voice
recorders, handy games, and PC peripheral control systems (to control devices that can be connected to USB and
store data into memory).
The ML66525 family devices also include the flash ROM version device (ML66Q525B) that is programmable
with a single 3 V power supply (2.4 to 3.6 V).
[ Note ] ML66525A/ML66Q525A are supplied as stock lasts.
APPLICATIONS
• Small-sized handy systems that require USB control and Storage control (Digital Audio players, etc)
• PC Peripheral Control Systems
ORDERING INFORMATION
Order Code or Product Name
Package
Remark
ML66525B-xxTB *1
100-pin plastic TQFP
mask ROM version (2.4 to 3.6 V)
ML66Q525B-NTB *2
(TQFP100-P-1414-0.50-K)
ML66525B flash ROM version (2.4 to 3.6 V)
ML66525B-xxLA *1
144-pin plastic LFBGA
ML66525B BGA package version (2.4 to 3.6 V)
(P-LFBGA144-1111-0.80)
ML66Q525B-NLA *2
ML66Q525B BGA package version (2.4 to 3.6 V)
*1 : The “xx” of “-xx” stands for the code number.
*2 : The “N” of “-N” stands for the flash ROM blank version.
When OKI programs and ship the flash ROM, the part number is changed from ”–N” to ”–XX” (code
number ) , for example, ML66Q525B-999TB.
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FEDL66525-02
OKI Semiconductor
ML66525 Family
FEATURES
Parameter
Operating temperature
Power supply voltage/
ML66525B
–30 to +70°C
VDD = 2.4 to 3.6 V / f = 24 MHz
Maximum operating frequency
Minimum instruction execution time
Internal ROM size (max. external)
Internal RAM size (max. external)
I/O ports
Timers
Serial port
A/D converter
External interrupts
USB control
NAND Flash Memory control
Interrupt priority
Others
Flash ROM version
83 nsec@24 MHz
61 µ[email protected] kHz
128 KB (1 MB)
6 KB (1 MB)
64 I/O pins (with programmable pull-up resistors)
6 input-only pins
1 output-only pin
16-bit auto-reload timer × 2ch
8-bit auto-reload timer × 1ch
8-bit auto-reload timer
8-bit auto-reload timer (also functions as watchdog timer) × 1ch
Watch timer × 1ch
8-bit PWM × 2ch (can also be used as 16-bit PWM × 1ch)
Synchronous (with 32-byte FIFO) × 1ch
Synchronous (Shift register type) × 1ch
Synchronous/UART × 2ch
10-bit × 4ch
Non-maskable × 1ch
Maskable × 6ch
Compliant with USB spec. version 1.1
High-speed transfer at 12 Mbps
Internal PLL(x2 , x3 , x4) -> 48 MHz
Internal transceiver
Vbus detection circuit (connection to USB host : detect/non-detect)
Bus power available
EP0 (IN 32 bytes, OUT 32 bytes), control transfer
EP1 (64 bytes × 2), bulk/interrupt transfer
EP2 (64 bytes × 2), bulk/interrupt transfer
EP3 (32 bytes), bulk/interrupt transfer
EP4 (64 bytes × 2), bulk/isochronous/interrupt transfer
EP5 (64 bytes × 2), bulk/isochronous/interrupt transfer
Automatic, high-speed data transfer
ECC circuit
Automatic, high-speed 512-byte data transfer
3 levels
External bus Interface (separate address and data buses)
Dual clocks function
Clock gear function
Different power available among USB, CPU core, and I/O port
ML66Q525B
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ML66525 Family
FUNCTIONAL DESCRIPTION
1. High-performance CPU
The ML66525 family devices include the high-performance CPU, powerful bit manipulation instruction set, a
variety of symmetrical addressing modes, and ROM WINDOW function, and also supports the best-optimized
C compiler.
2. A variety of power saving modes
Attaching a 32.768-kHz crystal produces a real time clock signal from the internal clock timer. A single clock
can be used in place of dual clocks.
Switching the CPU clock to the dual clocks (1/2 or 1/4 of the main clock) enables operation in a low power
consumption mode. The clock gear function allows a 1/2 or 1/4 clock signal of the main clock to be selected as
the CPU operating clock.
The ML66525 family devices are provided with a wide range of standby control functions such as the STOP
mode that stops the oscillation circuit, the quick restart STOP mode that stops the CPU and peripherals while
the oscillation circuit is operating, and the HALT mode that shuts down the CPU while peripherals are
operating.
3. USB control
The family include USB controller which compliant with USB specification version 1.1 and can be transferred
data with 12Mbps circuit.
Also, USB controller have 6 kinds of endpoint and apply for control/bulk/isochronous/interrupt transfer.
With NAND Flash Memory control circuit, high speed data transfer is possible.
4. NAND Flash Memory control
The family include control circuit of NAND Flash Memory. Automatically data read from and write to outside
NAND Flash Memory with 528 byte.
Also, include ECC circuit which detect data error and correct data error.
5. ML66Q525B with flash memory programmable with single power supply
In addition to mask ROM version devices, the ML66525 family devices include the ML66Q525B with internal
128 Kbytes of flash memory that can be programmed with a single power supply. The flash memory of the
ML66Q525B can be programmed with a low power supply (2.4 to 3.6 V) using the internal voltage booster
circuit.
6. Multifunctional, high-precision analog-to-digital converter
The family devices include a high-precision 10-bit analog-to-digital converter with four channels and are ideal
for such analog control functions as processing audio signals, processing sensor inputs, detecting key switch
states, and controlling battery use in portable equipment. Each channel has its own result register readily
accessible from the software.
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ML66525 Family
7. Multifunctional PWM
The family devices support both 8- and 16-bit PWM operations. Choosing between the time base counter
output and the overflow from an 8-bit auto-reload time as the PWM counter clock source provides a great
number of possibilities over a broad frequency range. The 16-bit PWM configuration supports a high-speed
synchronization mode that generates a high-precision output signal with less ripple suitable for
digital-to-analog applications.
8. Programmable pull-up resistors
Building the pull-up resistors into the chip contributes overall design compactness.
Making them programmable on a per-bit basis allows complete flexibility in circuit board layout and system
design. These programmable pull-up resistors are available for all I/O pins except ports that have specific
functions such as oscillator connection pins.
9. High-speed bus interface
The interface to external devices uses separate data and address buses.
This arrangement permits a rapid bus access for controlling the system from the microcontroller.
10. A variety of external interrupts
There are a total of seven interrupt channels for use in communicating with external devices; six channels for
maskable interrupts and one channel for non-maskable interrupts.
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FEDL66525-02
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ML66525 Family
BLOCK DIAGRAM
NMI
EXINT0
to
EXINT4
EXINT8/9
Interrupt
CPU Core
RESn
System
Control
16-bit Timer0
RXD1
TXD1
RXC1
TXC1
SIO1
(UART/SYNC)
ALU
Control Registers
8-bit
Timer4/BRG
RXD6
TXD6
RXC6
TXC6
OSC0
OSC1n
XT0
XT1n
SSP
LRB
ALU Control
ACC
SIO6
PSW
PC
DSR TSR CSR
(UART/SYNC)
8-bit
Timer3/BRG
Memory Control
Pointing Registers
Local Registers
SIO3
(SYNC)
8-bit
Timer5/BRG
SIOI4
SIOO4
SIOCK4
ROM
128 Kbyte
RAM
4Kbyte
SIO4
(32-byte FIFO
SYNC)
Instruction
Decoder
+ 2Kbyte
Also functions as transfer RAM
8-bit
Timer6/WDT
Bus Port Control
SIOI3
SIOO3
SIOCK3
TBC
8-bit PWM0
8-bit PWM1
Port Control
RTC
8-bit Timer9
VREF
AGND
AI0 to AI3
10-bit A/D
Converter
USB DMA
transfer
PUCTL
USB
D+/D–
(Compliant
with ver1.1)
DMA
(USB ↔
Transfer
RAM)
D0 to D7
A0 to A19
P0 (8 bit)
P1 (8 bit)
P2 (4 bit)
P3 (3 bit)
P4 (8 bit)
P6 (4 bit)
16-bit Timer7
PWMOUT0
PWMOUT1
EAn
PSENn
RDn
WRn
FLASH media
DMA transfer bus
Transfer
RAM
(512 bytes
× 4 banks)
Flash media
control
DMA
(Media ↔
Transfer RAM)
P7 (2 bit)
P8 (4 bit)
P9 (1 bit)
P10 (6 bit)
P12 (4 bit)
P13 (2 bit)
P15 (4 bit)
P20 (8 bit)
P21 (5 bit)
FD0 to FD7
FRDn
FWRn
FCLE
FALE
FRB
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FEDL66525-02
OKI Semiconductor
ML66525 Family
1
80
85
90
100
75
5
70
10
65
15
60
20
55
50
45
40
VDD_CORE
P2_3/A19
P2_2/A18
P2_1/A17
P2_0/A16
VTM
P1_7/A15
P1_6/A14
P1_5/A13
P1_4/A12
P1_3/A11
P1_2/A10
P1_1/A9
P1_0/A8
P4_7/A7
P4_6/A6
P4_5/A5
P4_4/A4
P4_3/A3
P4_2/A2
P4_1/A1
P4_0/A0
VDD_CORE
GND
VDD_IO
VDD_CORE
RESn
NMI
EAn
VDD_IO
XT0
XT1n
GND
TEST
OSC0
OSC1n
VDD_IO
P13_0/EXINT8
P13_1/EXINT9
P0_0/D0
P0_1/D1
P0_2/D2
P0_3/D3
P0_4/D4
P0_5/D5
P0_6/D6
P0_7/D7
P3_1/PSENn
P3_2/RDn
P3_3/WRn
35
25
30
VBUS
P9_0/VBUSIN
P6_0/EXINT0
P6_1/EXINT1
P6_2/EXINT2
P6_3/EXINT3
P7_6/PWM0OUT
P7_7/PWM1OUT
FLAMOD
P8_0/RXD1
P8_1/TXD1
P8_2/RXC1
P8_3/TXC1
GND
VDD_IO
P10_0/SIOCK3
P10_1/SIOI3
P10_2/SIOO3
P10_3/SIOCK4
P10_4/SIOO4
P10_5/SIOI4
P15_0/RXD6
P15_1/TXD6
P15_2/RXC6
P15_3/TXC6
95
Dñ
D+
PUCTL
GND
P20_7/FD7
P20_6/FD6
P20_5/FD5
P20_4/FD4
P20_3/FD3
P20_2/FD2
P20_1/FD1
P20_0/FD0
VDD_IO
GND
P21_4/FRB
P21_3/FALE
P21_2/FCLE
P21_1/FWRn
P21_0/FRDn
AGND
AI3/P12_3
AI2/P12_2
AI1/P12_1
AI0/P12_0
VREF
PIN CONFIGURATION (TOP VIEW)
100-pin Plastic TQFP
A symbol with “n” suffixed indicates an active Low pin.
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FEDL66525-02
OKI Semiconductor
ML66525 Family
PIN CONFIGURATION (TOP VIEW)
NC
VDD_IO
P3_2/
RDn
NC
P0_5/
D5
P0_3/
D3
P13_1/
OSC0
EXINT9
GND
XT0
NMI
VDD_
CORE
NC
N
GND
P3_3/
WRn
P3_1/
PSENn
P0_4/
D4
P0_2/
D2
P0_1/
D1
VDD_IO OSC1n
TEST
XT1n
VDD_IO
P15.2/
RXC6
P15_3/
TXC6
M
P4_0/
A0
NC
VDD_
CORE
P0_7/
D7
P0_6/
D6
P0_0/
D0
P13_0/
EXINT8
NC
NC
EAn
RESn
P15_0/ P15_1/
RXD6 TXD6
L
P4_2/
A2
NC
P4_1/
A1
NC
NC
NC
NC
NC
NC
NC
P10_4/ P10_2/ P10_5/
SIOO4 SIOO3 SIOI4
K
P4_4/
A4
P4_5/
A5
P4_3/
A3
NC
NC
P10_3/
SIOCK4
J
P4_6/
A6
P4_7/
A7
P1_0/
A8
NC
NC
VDD_IO
NC
P1_1/
A9
P1_2/
A10
NC
NC
P8_3/
TXC1
P8_2/
RXC1
GND
G
P1_5/
A13
P1_4/
A12
P1_3/
A11
NC
NC
P8_1/
TXD1
P8_0/
RXD1
NC
F
NC
NC
P1_7/
A15
NC
NC
P7_6/
P7_7/
FLAMO
PWM0O
PWM1O E
D
UT
UT
NC
P1_6/
A14
VTM
NC
NC
P6_2/
EXINT2
NC
P6_3/
EXINT3
D
P2_1/
A17
P2_0/
A16
VREF
P12_1/ P12_3/ P21_4/
P20_1/ P20_7/
VDD_IO
AI1
AI3
FRB
FD1
FD7
NC
P6_0/
EXINT0
NC
P6_1/
EXINT1
C
P2_3/
A19
P2_2/
A18
NC
AGND
P20_2/ P20_3/ P20_5/
PUCTL
FD2
FD3
FD5
D-
P9_0/
VBUSIN B
NC
VDD_
CORE
13
12
NC
P21_1/ P21_3/
FWRn FALE
P12_0/ P12_2/ P21_0/
AI0
AI2
FRDn
11
10
NC
9
NC
GND
P21_2
/FCLE
P20_0
/FD0
8
7
NC
NC
P20_4/ P20_6/
FD4
FD6
6
5
NC
NC
P10_0/ P10_1/
SIOCK3 SIOI3
GND
D+
VBUS
NC
4
3
2
1
H
A
144-pin Plastic LFBGA
A symbol with “n” suffixed indicates an active Low pin.
[Note] Don’t connect NC pins with others.
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FEDL66525-02
OKI Semiconductor
ML66525 Family
PIN DESCRIPTIONS
In the Type column, “I” indicates an input pin, “O” indicates an output pin, and “I/O” indicates an I/O pin.
A symbol with “n” suffixed indicates an active Low pin.
Classification
Symbol
Description
Type
Port
P0_0/D0
to
P0_7/D7
I/O
P1_0/A8
to
P1_7/A15
I/O
P2_0/A16
to
P2_3/A19
I/O
P3_1/PSENn
I/O
Primary function
8-bit I/O port
Type
I/O
External memory access
data I/O port
O
External memory access
address output port
O
External memory access
address output port
O
External program memory
access read strobe output pin
Pull-up resistors can be
specified for each bit.
8-bit I/O port
Pull-up resistors can be
specified for each bit.
4-bit I/O port
Pull-up resistors can be
specified for each bit.
1-bit I/O port
Secondary function
Pull-up resistors can be
specified.
P3_2/RDn
O
1-bit output port
O
External data memory access
read strobe output pin
P3_3/WRn
I/O
1-bit I/O port
O
External data memory access
write strobe output pin
O
External memory access
address output port
4-bit I/O port
I
External interrupt 0 input pin
Pull-up resistors can be
specified for each bit.
I
External interrupt 1 input pin
Pull-up resistors can be
specified.
P4_0/A0
to
P4_7/A7
I/O
P6_0/EXINT0
I/O
8-bit I/O port
Pull-up resistors can be
specified for each bit.
P6_1/EXINT1
P6_2/EXINT2
P6_3/EXINT3
P7_6/PWM0OUT
I/O
P7_7/PWM1OUT
P8_0/RXD1
P8_1/TXD1
P8_2/RXC1
P8_3/TXC1
I/O
I
External interrupt 2 input pin
I
External interrupt 3 input pin
2-bit I/O port
O
PWM0 output pin
Pull-up resistors can be
specified for each bit.
O
PWM1 output pin
4-bit I/O port
I
SIO1 receive data input pin
Pull-up resistors can be
specified for each bit.
O
SIO1 transmit data output pin
I/O
SIO1 receive clock I/O pin
I/O
SIO1 transmit clock I/O pin
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Classification
Port
ML66525 Family
Symbol
P9_0/VBUSIN
Description
Type
I/O
Primary function
1-bit I/O port
Type
I
Pull-up resistors can be
specified.
P10_0/SIOCK3
I/O
6-bit I/O port
Pull-up resistors can be
specified for each bit.
P10_1/SIOI3
P10_2/SIOO3
I/O
I
P10_5/SIOI4
P12_0/AI0 to
SIO3 transmit-receive clock I/O
pin
SIO3 receive data input pin
O
SIO3 transmit data input pin
I/O
SIO4 (with internal 32-byte
FIFO) transmit-receive clock I/O
pin
O
SIO4 (with internal 32-byte
FIFO) transmit data output pin
I
SIO4 (with internal 32-byte
FIFO) receive data output pin
P10_3/SIOCK4
P10_4/SIOO4
Secondary function
Vbus detect external interrupt
input pin (5V tolerant input)
I
4-bit input port
I
A/D converter analog input port
I
2-bit input port
I
External interrupt 8 input pin
I
External interrupt 9 input pin
P12_3/AI3
P13_0/EXINT8
P13_1/EXINT9
P15_0/RXD6
I/O
P15_1/TXD6
P15_2/RXC6
4-bit I/O port
I
SIO6 receive data input pin
Pull-up resistors can be
specified for each bit.
O
SIO6 transmit data output pin
P15_3/TXC6
P20_0/FD0
to
P20_7/FD7
P21_0/FRDn
P21_1/FWRn
P21_2/FCLE
P21_3/FALE
P21_4/FRB
I/O
8-bit I/O port
I/O
SIO6 receive clock I/O pin
I/O
SIO6 transmit clock I/O pin
I/O
NAND Flash Memory access
data I/O port
Pull-up resistors can be
specified for each bit.
I/O
5-bit I/O port
O
I/O
Pull-up resistors can be
specified for each bit.
NAND Flash Memory access
read strobe output pin
O
NAND Flash Memory access
write strobe output pin
I/O
O
NAND Flash Memory access
CLE strobe output pin
I/O
O
NAND Flash Memory access
ALE strobe output pin
I/O
I
NAND Flash Memory access
Ready/Busy input pin
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FEDL66525-02
OKI Semiconductor
ML66525 Family
Classification
Symbol
Type
Power supply
VDD_IO
I
Description
IO Power supply pin
Connect all the VDD _IO pins.*
VDD_CORE
I
Core Power supply pin
Connect all the VDD _CORE pins.*
VBUS
I
USB Power supply pin (Vbus input pin)
GND
I
GND pin
Connect all the GND pins to GND.*
Oscillation
VREF
I
Analog reference voltage pin (Connect to the VDD pin when A/D converter
is not used.)
AGND
I
Analog GND pin (Connect to the GND pin when A/D converter is not
used.)
XT0
I
Sub-clock oscillation input pin
Connect to a crystal of f = 32.768 kHz.
XT1n
O
Sub-clock oscillation output pin
Connect to a crystal of f = 32.768 kHz.
The clock output is opposite in phase to XT0.
OSC0
I
Main clock oscillation input pin
Connect to a crystal or ceramic oscillator.
When an external clock is used, this pin is configured to be clock input.
OSC1n
O
Main clock oscillation output pin
Connect to a crystal or ceramic oscillator.
The clock output is opposite in phase to OSC0.
Leave this pin unconnected when an external clock is used.
USB I/F
D+
I/O
D+ pin
D–
I/O
D– pin
PUCTL
O
External control output pin
Reset
RESn
I
Reset input pin
Others
NMI
I
Non-maskable interrupt input pin
TEST
I
Test pin
Connect to the GND pin for normal operation.
VTM
I
Test pin
Connect to the GND pin for normal operation.
FLAMOD
I
Flash ROM programming mode input pin
When the FLAMOD pin is set to “L”, the device enters a programming
mode.
Connect to the VDD_IO pin when using as normal operation.
EAn
I
External program memory access input pin
When the EA pin is enabled (low level), the internal program memory is
masked and the CPU executes the program code in external program
memory through all address space.
* Connect all VDD_IO pins, all VDD_CORE pins and all GND pins.
If a device has one or more VDD_IO, VDD_CORE, or GND pins to which the power supply or the ground
potential is not connected, the family devices are not guaranteed to have normal operations.
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ML66525 Family
ABSOLUTE MAXIMUM RATINGS
Parameter
Symbol
Condition
Rated value
Unit
GND = AGND = 0 V
Ta = 25°C
–0.3 to +4.6
V
Other than P9_0
–0.3 to VDD_IO + 0.3
V
P9_0 (5 V tolerant input)
–0.3 to +0.6
V
VO
–0.3 to VDD_IO + 0.3
V
VREF
–0.3 to +4.6
V
VDD_CORE
Digital power supply voltage
Input voltage
Output voltage
Analog reference voltage
Analog input voltage
Power dissipation
VDD_IO
VBUS
VI
VAI
PD
Ta = 70°C
100-pin TQFP
per package
V
680
mW
595
mW
—
–50 to +150
°C
Symbol
Condition
Range
Unit
VDD_CORE
VDD_IO
fOSC ≤ 24 MHz
VDD_CORE ≤ VDD_IO
2.4 to 3.6
V
VREF
VDD_CORE ≤ VREF
2.4 to 3.6
V
Analog input voltage
VAI
—
AGND to VREF
V
VBUS input voltage
VBUS
—
3.0 to 3.6
V
Memory hold voltage
VDDH
fOSC = 0 Hz
2.0 to 3.6
V
USB is used
12, 16, 24
USB is unused
2 to 24
—
32.768
kHz
—
–30 to +70
°C
MOS load
20
—
6
—
1
—
Storage temperature
TSTG
144-pin LFBGA
–0.3 to VREF
RECOMMENDED OPERATING CONDITIONS
Parameter
Digital power supply voltage
Analog reference voltage
Operating frequency
fOSC
fXT
Ambient temperature
Ta
P7, P10_0 to P10_2
Fan out
N
MHz
P0, P1, P2, P3, P4,
TTL load
P6, P8, P9,
P10_3 to P10_5, P15,
P20, P21
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FEDL66525-02
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ML66525 Family
ALLOWABLE OUTPUT CURRENT VALUES
(VDD_IO = 2.4 to 3.6 V, Ta = –30 to +70°C)
Parameter
Pin
“H” output pin (1 pin)
All output pins
“H” output pins (sum total)
Sum total of all output pins
“L” output pin (1 pin)
Symbol
Min.
Typ.
Max.
IOH
—
—
–10
∑ IOH
—
—
–70
IOL
—
—
10
All output pins
Unit
Sum total of P0, P3
Sum total of P1, P2, P4
“L” output pins (sum total)
Sum total of P6, P7, P8, P9
Sum total of P10, P15
mA
35
∑ IOL
—
—
Sum total of P20, P21
70
Sum total of all output pins
160
[Note] Connect all VDD_CORE and VDD_IO pins to the power supply voltage and all GND pins to the
ground voltage. If there is a pin or pins that are not connected to the power supply voltage on
ground voltage, the device cannot be guaranteed for normal operation.
INTERNAL FLASH ROM PROGRAMMING CONDITIONS
Parameter
Supply voltage
Ambient temperature
Symbol
Condition
Rating
Unit
VDD_CORE
VDD_IO
VDD_CORE ≤ VDD_IO
2.4 to 3.6
V
During Read
–30 to +70
°C
Ta
During Programming
+0 to +50
°C
Endurance
CEP
—
100
Cycles
Blocks size
—
—
128
bytes
12/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
ELECTRICAL CHARACTERISTICS
DC Characteristics 1 (Except USB port)
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Parameter
“H” input voltage
*1
“H” input voltage
“L” input voltage
“H” output voltage
Symbol
Condition
Min.
Typ.
Max.
VIH
—
0.80 VDD
—
5.5
VIL
—
0.80 VDD
—
VDD + 0.3
–0.3
—
0.2VDD
IO = –400 µA
VDD –
0.4
—
—
IO = –2.0 mA
VDD –
0.8
—
—
IO = –200 µA
VDD –
0.4
—
—
IO = –1.0 mA
VDD –
0.8
—
—
IO = 3.2 mA
—
—
0.5
IO = 5.0 mA
—
—
0.9
IO = 1.6 mA
—
—
0.5
IO = 2.5 mA
—
—
0.9
—
—
1/–1
—
—
1/–90
—
—
15/–15
*2
VOH
“H” output voltage
“L” output voltage
*3
*2
VOL
“L” output voltage
Input leakage current
*3
*4, *6
Input current
*5
Input current
*7
IIH/IIL
VI = VDD/0 V
Unit
V
µA
ILO
VO = VDD/0 V
—
—
±10
µA
Pull-up resistance
Rpull
VI = 0 V
40
100
200
kΩ
Input capacitance
CI
—
5
—
Output capacitance
CO
—
7
—
Analog reference supply current
IREF
—
1.8
5
mA
When A/D is stopped
—
—
5
VDD = VDD_IO
*1. Applicable to P9_0 (5 V tolerant input)
*2. Applicable to P7 and P10_0 to P10_2
*3. Applicable to P0, P1, P2, P3, P4, P6, P8, P9, P10_3 to P10_5, P15, P20 and P21
µA
Output leakage current
*2, *3
fOSC = 1 MHz, Ta = 25°C
During A/D operation
pF
*4. Applicable to P12 and P13
*5. Applicable to RESn and FLAMOD
*6. Applicable to EAn, NMI, and TEST
*7. Applicable to OSC0
13/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
Supply Current
• Mask ROM version
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, VBUS = 3.0 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Mode
Symbol
Condition
Min.
Typ.
Max.
fosc = 24 MHz, No load
—
28
60
18
50
—
100
300
µA
fosc = 24 MHz, DMA/media
CPU operation mode
IDD
control stopped. No load
fXT = 32.768 kHz, DMA/media
control stopped. No load
*1
Unit
mA
Applicable
power
supply
VDD_CORE
+ VDD_IO
USB operation mode
IBUS
Setting of 48 MHz for
multiplication selection.
No Load
—
25
45
mA
VBUS
HALT mode
IDDH
fosc = 24 MHz, DMA/media
control stopped. No load
—
9
18
mA
VDD_CORE
+ VDD_IO
STOP mode
IDDS
XT is used *2
—
15
160
XT is not used *2
—
10
150
µA
VDD_CORE
+ VDD_IO
—
1
100
µA
VBUS
Suspend current
ISUSP
OSC is
stopped *1
Suspend state
OSC is stopped, XT is not used * 1
The values in the Typ. Column indicate reference values at 25°C and 3.0 V (The VBUS currents indicate
values at 3.3 V).
*1: The temperature condition ranges from –30 to +50°C
*2: The ports used as inputs are at VDD_IO or 0 V. Other ports are unloaded.
• Flash ROM version
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, VBUS = 3.0 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Mode
Symbol
Condition
Min.
Typ.
Max.
fosc = 24 MHz, No load
—
28
60
18
50
—
100
300
µA
fosc = 24 MHz, DMA/media
CPU operation mode
IDD
control stopped. No load
fXT = 32.768 kHz, DMA/media
control stopped. No load
*1
Unit
mA
Applicable
power
supply
VDD_CORE
+ VDD_IO
USB operation mode
IBUS
Setting of 48 MHz for
multiplication selection
No Load
—
25
45
mA
VBUS
HALT mode
IDDH
fosc = 24 MHz, DMA/media
control stopped. No load
—
10
20
mA
VDD_CORE
+ VDD_IO
STOP mode
IDDS
XT is used *2
—
15
160
XT is not used *2
—
10
150
µA
VDD_CORE
+ VDD_IO
Suspend current
ISUSP
—
1
100
µA
VBUS
OSC is
stopped *1
Suspend state, D+/D– fixed
OSC is stopped, XT is not used * 1
The values in the Typ. Column indicate reference values at 25°C and 3.0 V (The VBUS currents indicate
values at 3.3 V).
*1: The temperature condition ranges from –30 to +50°C
*2: The ports used as inputs are at VDD_IO or 0 V. Other ports are unloaded.
14/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
DC Characteristics 2 (USB port)
(VBUS = 3.0 to 3.6V, Ta = –30 to +70°C)
Parameter
Symbol
Condition
Min.
Typ.
Max.
Differential input sensitivity
VDI
|(D+) – (D–)|
0.2
—
—
Differential common mode range
VCM
Includes VDI
0.8
—
2.5
Single ended receiver threshold
VSE
0.8
—
2.0
15 kΩ to GND
2.8
—
—
IOH = –100 µA
VBUS – 0.2
—
—
IOH = –4 mA
2.4
—
—
1.5 kΩ to 3.6 V
—
—
0.3
—
—
±10
—
—
±10
“H” output voltage
“L” output voltage
VOH
VOL
VO = VBUS/0
Output leakage current
ILO
V
VO = VBUS/0
V
Unit
Applicable
pin
V
D+, D–
V
D+, D–
V
PUCTL
V
D+, D–
D+, D–
µA
PUCTL
15/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
AC Characteristics (Except USB port)
(1) External program memory control
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Parameter
Symbol
Condition
Cycle time
tcyc
fOSC = 24 MHz
41.67
—
Clock pulse width (HIGH level)
tφWH
16.25
—
Clock pulse width (LOW level)
tφWL
16.25
—
PSENn pulse width
tPW
(2 + 2n)tφ – 25
—
PSENn pulse delay time
tPD
—
55
Address setup time
tAS
2tφ – 25
—
Address hold time
tAH
Instruction setup time
tIS
Instruction hold time
Read data access time
Min.
VDD_CORE =
CL = 50 pF
Max.
–10
—
40
—
tIH
0
—
tACC
—
(3 + 2n)tφ – 50
Unit
ns
(Note) tφ = tcyc/2
n = 0 to 3 ( n wait cycles inserted)
tcyc
CPUCLK
tφWH
tφWL
PSENn
tPD
tPW
PC0 to 19
A0 to A19
tAS
tAH
INST0 to 7
D0 to D7
tACC
tIS
tIH
Bus timing during no wait cycle time
16/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
(2) External data memory control
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Parameter
Symbol
Condition
Min.
Max.
Cycle time
tcyc
fOSC = 24 MHz
41.67
—
Clock pulse width (HIGH level)
tφWH
16.25
—
Clock pulse width (LOW level)
tφWL
16.25
—
RDn pulse width
tRW
(2 + 2n)tφ – 25
—
WRn pulse width
tWW
(2 + 2n)tφ – 25
—
RDn pulse delay time
tRD
—
55
WRn pulse delay time
tWD
—
55
Address setup time
tAS
tφ – 20
—
CL = 50 pF
Address hold time
tAH
tφ – 20
—
Read data setup time
tRS
40
—
Read data hold time
tRH
0
—
Read data access time
tACC
—
(3 + 2n)tφ – 50
Write data setup time
tWS
2tφ – 30
—
Write data hold time
tWH
tφ – 6
—
Unit
ns
(Note) tφ = tcyc/2
n = 0 to 7 ( n wait cycles inserted)
tcyc
CPUCLK
tφWH
tφWL
RDn
tRD
tRW
RAP0 to 19
A0 to A19
tAS
tAH
DIN0 to 7
D0 to D7
tACC
tRS
tRH
WRn
tWD
tWW
RAP0 to 19
A0 to A19
tAS
D0 to D7
tAH
DOUT0 to 7
tWS
tWH
Bus timing during no wait cycle time
17/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
(3) Serial port control
1. Serial port 1, 6 (SIO1, 6)
Master mode (Clock synchronous serial port)
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Parameter
Cycle time
Symbol
Condition
Min.
Max.
tcyc
fOSC = 24 MHz
41.67
—
Serial clock cycle time
tSCKC
4 tcyc
—
Output data setup time
tSTMXS
2tφ – 10
—
Output data hold time
tSTMXH
5tφ – 20
—
CL = 50 pF
Input data setup time
tSRMXS
21
—
Input data hold time
tSRMXH
0
—
Unit
ns
(Note) tφ = tcyc/2
tcyc
CPUCLK
TXC/RXC
tSCKC
SDOUT
(TXD)
tSTMXH
tSTMXS
SDIN
(RXD)
tSRMXS
tSRMXH
18/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
Slave mode (Clock synchronous serial port)
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Parameter
Cycle time
Symbol
Condition
Min.
Max.
tcyc
fOSC = 24 MHz
41.67
—
Serial clock cycle time
tSCKC
4tcyc
—
Output data setup time
tSTMXS
2tφ – 30
—
Output data hold time
tSTMXH
4tφ – 20
—
CL = 50 pF
Input data setup time
tSRMXS
21
—
Input data hold time
tSRMXH
7
—
Unit
ns
(Note) tφ = tcyc/2
tcyc
CPUCLK
TXC/RXC
tSCKC
SDOUT
(TXD)
tSTMXS
tSTMXH
SDIN
(RXD)
tSRMXS
tSRMXH
19/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
2. Serial port 4 (SIO4)
Master mode (Clock synchronous serial port)
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Parameter
Cycle time
Symbol
Condition
Min.
tcyc
fOSC = 24 MHz
Max.
41.67
—
Serial clock cycle time
tSCKC
400
—
Output data setup time
tSTMXS
190
—
Output data hold time
tSTMXH
130
—
Input data setup time
tSRMXS
21
—
Input data hold time
tSRMXH
0
—
CL = 50 pF
Unit
ns
tcyc
CPUCLK
TXC/RXC
tSCKC
SDOUT
(TXD)
tSTMXH
tSTMXS
SDIN
(RXD)
tSRMXS
tSRMXH
20/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
Slave mode (Clock synchronous serial port)
(VDD_CORE = VDD_IO = VREF = 2.4 to 3.6 V, GND = AGND = 0 V, Ta = –30 to +70°C)
Parameter
Cycle time
Symbol
Condition
Min.
Max.
tcyc
fOSC = 24 MHz
41.67
—
Serial clock cycle time
tSCKC
400
—
Output data setup time
tSTMXS
70
—
Output data hold time
tSTMXH
180
—
CL = 50 pF
Input data setup time
tSRMXS
21
—
Input data hold time
tSRMXH
7
—
Unit
ns
tcyc
CPUCLK
TXC/RXC
tSCKC
SDOUT
(TXD)
tSTMXH
tSTMXS
SDIN
(RXD)
tSRMXS
tSRMXH
Measurement points for AC timing (except the serial port)
VDD_IO
0V
0.44VDD_IO
0.44VDD_IO
0.16VDD_IO
0.16VDD_IO
Measurement points for AC timing (the serial port)
VDD_IO
0V
0.8VDD_IO
0.8VDD_IO
0.2VDD_IO
0.2VDD_IO
21/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
A/D Converter Characteristics
(Ta = –30 to +70°C, VREF = 2.4 to 3.6 V, AGND = GND = 0 V)
Parameter
Symbol
Condition
Min.
Typ.
Max.
Unit
n
Refer to measurement
circuit 1
—
10
—
Bit
—
Resolution
Linearity error
EL
Differential Linearity error
ED
Zero scale error
EZS
—
±3
Analog input source
impedance
—
—
±2
—
—
+3
—
—
–3
LSB
Full-scale error
EFS
RI ≤ 5 kΩ
Cross talk
ECT
Refer to measurement
circuit 2
—
—
±1
tCONV
Set according to ADTM set
data
16
—
3906.3
Conversion time
Reference
voltage
VREF
0.1
µF
–
+
47
µF
VDD_IO
µs/ch
+3 V
+
+
0.1
µF
RI
AI0 to AI3
AGND
GND
47
µF
0V
Analog input
CI
RI (impedance of analog input source) ≤ 5 kΩ
CI ≅ 0.1 µF
Measurement Circuit 1
22/27
FEDL66525-02
OKI Semiconductor
–
+
ML66525 Family
5 kΩ
AI0
AI1
Analog input
0.1 µF
to
Cross talk is the difference
between the A/D conversion
results when the same
analog input is applied to
AI0 through AI3 and the A/D
conversion results of the
circuit to the left.
AI3
VREF or AGND
Measurement Circuit 2
Definition of Terminology
1. Resolution
Resolution is the value of minimum discernible analog input.
With 10 bits, since 210 = 1024, resolution of (VREF – AGND) ÷ 1024 is possible.
2. Linearity error
Linearity error is the difference between ideal conversion characteristics and actual conversion characteristics
of a 10-bit A/D converter (not including quantization error).
Ideal conversion characteristics can be obtained by dividing the voltage between VREF and AGND into 1024
equal steps.
3. Differential linearity error
Differential linearity error indicates the smoothness of conversion characteristics. Ideally, the range of analog
input voltage that corresponds to 1 converted bit of digital output is 1LSB = (VREF – AGND) ÷ 1024.
Differential error is the difference between this ideal bit size and bit size of an arbitrary point in the conversion
range.
4. Zero scale error
Zero scale error is the difference between ideal conversion characteristics and actual conversion characteristics
at the point where the digital output changes from 000H to 001H.
5. Full-scale error
Full-scale error is the difference between ideal conversion characteristics and actual conversion characteristics
at the point where the digital output changes from 3FEH to 3FFH.
23/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
PACKAGE DIMENSIONS
(Unit: mm)
TQFP100-P-1414-0.50-K
Mirror finish
5
Package material
Lead frame material
Pin treatment
Package weight (g)
Rev. No./Last Revised
Epoxy resin
42 alloy
Solder plating (≥5µm)
0.55 TYP.
4/Oct. 28, 1996
Notes for Mounting the Surface Mount Type Packages
The surface mount type packages are very susceptible to heat in reflow mounting and humidity
absorbed in storage.
Therefore, before you perform reflow mounting, contact Oki’s responsible sales person on the product
name, package name, pin number, package code and desired mounting conditions (reflow method,
temperature and times).
24/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
PACKAGE DIMENSIONS
(Unit: mm)
P-LFBGA144-1111-0.80
5
Package material
Ball material
Package weight (g)
Rev. No./Last Revised
Epoxy resin
Sn/Pb
0.30 TYP.
1/Aug. 25, 1999
Notes for Mounting the Surface Mount Type Packages
The surface mount type packages are very susceptible to heat in reflow mounting and humidity
absorbed in storage.
Therefore, before you perform reflow mounting, contact Oki’s responsible sales person on the product
name, package name, pin number, package code and desired mounting conditions (reflow method,
temperature and times).
25/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
REVISION HISTORY
Document
No.
PEDL66525-01
PEDL66525-02
Date
Oct. 2000
Mar. 2001
Page
Previous Current
Edition
Edition
–
–
Description
–
Preliminary edition 1
–
- Modified contents of P3_2 and P3_3 in the
table on Page 8.
- Added contents of P9_0 in the table on Page 9.
- Modified contents of PUCTL in the table on
Page 10.
- Partially added contents of “ABSOLUTE
MAXIMUM RATINGS”.
- Partially added contents of “RECOMMENDED
OPERATING CONDITIONS”.
- Partially added contents of “ALLOWABLE
OUTPUT CURRENT VALUES”.
- Partially added contents of “INTERNAL FLASH
ROM PROGRAMMING CONDITIONS”.
- Partially added contents of “ELECTRICAL
CHARACTERISTICS”.
FEDL66525-01
Oct. 2001
–
–
FEDL66525-02
Jul. 19, 2002
–
–
- Changed the name from ML66525 to
ML66525A.
- Changed the name from ML66Q525 to
ML66Q525A.
- Modified supply current values for ML66Q525
on Page 14.
- Modified contents of the table on Page 21.
- Changed the name from ML66525A to
ML66525B.
- Changed the name from ML66Q525A to
ML66Q525B.
26/27
FEDL66525-02
OKI Semiconductor
ML66525 Family
NOTICE
1. The information contained herein can change without notice owing to product and/or technical improvements.
Before using the product, please make sure that the information being referred to is up-to-date.
2.
The outline of action and examples for application circuits described herein have been chosen as an
explanation for the standard action and performance of the product. When planning to use the product, please
ensure that the external conditions are reflected in the actual circuit, assembly, and program designs.
3.
When designing your product, please use our product below the specified maximum ratings and within the
specified operating ranges including, but not limited to, operating voltage, power dissipation, and operating
temperature.
4.
Oki assumes no responsibility or liability whatsoever for any failure or unusual or unexpected operation
resulting from misuse, neglect, improper installation, repair, alteration or accident, improper handling, or
unusual physical or electrical stress including, but not limited to, exposure to parameters beyond the specified
maximum ratings or operation outside the specified operating range.
5.
Neither indemnity against nor license of a third party’s industrial and intellectual property right, etc. is
granted by us in connection with the use of the product and/or the information and drawings contained herein.
No responsibility is assumed by us for any infringement of a third party’s right which may result from the use
thereof.
6.
The products listed in this document are intended for use in general electronics equipment for commercial
applications (e.g., office automation, communication equipment, measurement equipment, consumer
electronics, etc.). These products are not authorized for use in any system or application that requires special
or enhanced quality and reliability characteristics nor in any system or application where the failure of such
system or application may result in the loss or damage of property, or death or injury to humans.
Such applications include, but are not limited to, traffic and automotive equipment, safety devices, aerospace
equipment, nuclear power control, medical equipment, and life-support systems.
7.
Certain products in this document may need government approval before they can be exported to particular
countries. The purchaser assumes the responsibility of determining the legality of export of these products
and will take appropriate and necessary steps at their own expense for these.
8.
No part of the contents contained herein may be reprinted or reproduced without our prior permission.
Copyright 2002 Oki Electric Industry Co., Ltd.
27/27
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