IDT IDT72V8985PV

3.3 VOLT TIME SLOT INTERCHANGE
DIGITAL SWITCH
256 x 256
and write access to individual channels. As an important function of a digital
switch is to maintain sequence integrity and minimize throughput delay, the
IDT72V8985 is an ideal solution for most switching needs.
FEATURES:
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•
•
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•
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IDT72V8985
256 x 256 channel non-blocking switch
Automatic signal identification (ST-BUS®, GCI)
8 RX inputs—32 channels at 64 Kbit/s per serial line
8 TX outputs—32 channels at 64 Kbit/s per serial line
Three-state serial outputs
Microprocessor Interface (8-bit data bus)
Frame Integrity for data applications
3.3V Power Supply
Available in 44-pin Plastic Leaded Chip Carrier (PLCC),
48-pin Small Shrink Outline Package (SSOP), and 44-pin Plastic
Quad Flatpack (PQFP)
Operating Temperature Range -40°° C to +85°°C
3.3V I/O with 5V Tolerant Inputs
FUNCTIONAL DESCRIPTION
Frame sequence, constant throughput delay, and guaranteed minimum
delay are high priority requirements in today’s integrated data and multimedia
networks. The IDT72V8985 provides these functions on a per-channel basis
using a standard microprocessor control interface. Each of the eight serial lines
is designed to switch 64 Kbit/s PCM or N x 64 Kbit/s data.
In Processor Mode, the microprocessor can access the input and output time
slots to control other devices such as ISDN transceivers and trunk interfaces.
Supporting both GCI and ST-BUS® formats, IDT72V8985 has incorporated an
internal circuit to automatically identify the polarity and format of the frame
synchronization.
A functional block diagram of the IDT72V8985 device is shown on page 1.
The serial streams operate continuously at 2.048 Mb/s and are arranged in
125µs wide frames each containing 32, 8-bit channels. Eight input (RX0-7) and
eight output (TX0-7) serial streams are provided in the IDT72V8985 device
allowing a complete 256 x 256 channel non-blocking switch matrix to be
constructed. The serial interface clock for the device is 4.096 MHz.
DESCRIPTION:
The IDT72V8985 is a ST-BUS®/GCI compatible digital switch controlled by
a microprocessor. The IDT72V8985 can handle as many as 256, 64 Kbit/s input
and output channels. Those 256 channels are divided into 8 serial inputs and
outputs, each of which consists of 32 channels. The IDT72V8985 provides perchannel variable or constant throughput delay modes and microprocessor read
FUNCTIONAL BLOCK DIAGRAM
C4i
F0i
VCC
GND
Timing
Unit
RX0
RESET(1)
ODE
TX0
Output MUX
RX1
TX1
TX2
RX2
RX3
RX4
Receive
Serial Data
Streams
Transmit
Serial Data
Streams
Data
Memory
RX5
Control Register
RX6
RX7
Connection
Memory
TX3
TX4
TX5
TX6
Microprocessor Interface
TX7
5707 drw01
DS CS R/W A0/ DTA D0/
A5
D7
CCO
NOTE:
1. The RESET Input is only provided on the SSOP package.
IDT and the IDT logo are registered trademarks of Integrated Device Technology, Inc. The ST-BUS is a trademark of Mitel Corp.
AUGUST 2003
1
 2003 Integrated Device Technology, Inc. All rights reserved. Product specifications subject to change without notice.
DSC-5707/5
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
39
TX3
8
38
TX4
RX5
9
37
TX5
RX6
10
36
RX7
11
VCC
TX1
TX2
DNC(1)
36
35
34
ODE
TX0
38
37
39
RX0
DTA
CCO
40
RX1
41
RX2
42
DNC(1)
40
7
RX4
DNC(1)
TX2
41
RX3
43
TX1
42
INDEX
44
ODE
TX0
43
RX0
DTA
2
CCO
RX1
3
44
RX2
4
1
DNC(1)
5
INDEX
6
PIN CONFIGURATION
30
TX6
35
TX7
RX7
5
29
TX7
12
34
GND
VCC
6
28
GND
F0i
13
33
D0
F0i
7
27
C4i
14
32
D1
8
26
D0
D1
A0
15
31
D2
C4i
A0
9
25
D2
A1
10
24
D3
A2
11
23
D4
26
27
D6
D5
12
25
D7
28
24
23
R/W
CS
21
A5
22
20
A4
D4
19
D3
29
18
30
17
A3
16
A2
DNC(1)
A1
22
4
21
RX6
20
TX5
TX6
19
31
18
3
17
TX4
RX5
16
TX3
32
15
33
2
14
1
RX4
13
RX3
PLCC: 0.05in. pitch, 0.65in. x 0.65in
(J44-1, order code: J)
TOP VIEW
DNC(1)
D5
D6
CS
D7
DS
R/W
A5
A4
A3
DNC(1)
DNC
(1)
DS
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PQFP: 0.80mm pitch, 10mm x 10mm
(DB44-1, order code: DB)
TOP VIEW
GND
1
48
DTA
2
47
ODE
RX0
3
46
TX0
RX1
4
45
TX1
RX2
5
44
TX2
DNC(1)
6
43
DNC(1)
RX3
7
42
TX3
RX4
8
41
TX4
RX5
9
40
TX5
CCO
RX6
10
39
TX6
RX7
11
38
TX7
VCC
12
37
GND
RESET(2)
13
36
VCC
F0i
14
35
D0
C4i
15
34
D1
A0
16
33
D2
A1
17
32
D3
A2
18
31
D4
DNC(1)
19
30
DNC(1)
A3
20
29
D5
A4
21
28
D6
A5
22
27
D7
DS
23
26
CS
R/W
2
4
25
GND
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TOP VIEW
Package Type
SSOP: 0.025in. pitch, 0.625in. x 0.295in.
Reference Identifier
SO48-1
NOTES:
1. DNC - Do Not Connect
2. The RESET Input is only provided on the SSOP package.
2
Order Code
PV
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
PIN DESCRIPTIONS
SYMBOL
GND
VCC
DTA
RX0-7
F0i
C4i
NAME
Ground.
VCC
Data Acknowledgment
(Open Drain)
RX Input 0 to 7
Frame Pulse
I/O
O
I
I
Clock
Address 0 to 5
Data Strobe
I
I
I
Read/Write
Chip Select
Data Bus 0 to 7
I
I
I/O
O
ODE
TX Outputs 0 to 7
(Three-state Outputs)
Output Drive Enable
CCO
Control Channel Output
O
RESET
Device Reset
(Schmitt Trigger Input)
I
A0-A5
DS
R/W
CS
D0-D7
TX0-7
I
DESCRIPTION
Ground Rail.
+3.3 Volt Power Supply.
This active LOW output indicates that a data bus transfer is complete. A pull-up resistor is required at this
output.
Serial data input streams. These streams have 32 channels at data rates of 2.048 Mb/s.
This input accepts and automatically identifies frame synchronization signals formatted according to different
backplane specifications such as ST-BUS® and GCI.
4.096 MHz serial clock for shifting data in and out of the data streams.
These lines provide the address to IDT72V8985 internal registers.
This is the input for the active HIGH data strobe on the microprocessor interface. This input operates with
CS to enable the internal read and write generation.
This input controls the direction of the data bus lines (D0-D7) during a microprocessor access.
Active LOW input enabling a microprocessor read or write of control register or internal memories.
These pins provide microprocessor access to data in the internal control register. Connection Memory HIGH,
Connection Memory LOW and data memory.
Serial data output streams. These streams are composed of 32, 64 Kbit/s channels at data rates of 2.048 Mb/s.
This is an output enable for the TX0-7 serial outputs. If this input is LOW, TX0-7 are high-impedance. If this is
HIGH, each channel may still be put into high-impedance by software control.
This output is a 2.048 Mb/s line which contains 256 bits per frame. The level of each bit is controlled by the
contents of the CCO bit in the Connection Memory HIGH locations.
This input (active LOW) puts the IDT72V8985 in its reset state that clears the device internal counters,
registers and brings TX0-7 and microport data outputs to a high-impedance state. The time constant for a
power up reset circuit must be a minimum of five times the rise time of the power supply. In normal operation,
the RESET pin must be held LOW for a minimum of 100ns to reset the device.
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IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
FUNCTIONAL DESCRIPTION (Cont'd)
OUTPUT DRIVE ENABLE (ODE)
The ODE pin is the master output three-state control pin. If the ODE input
is held LOW all TDM (Time Division Multiplexed) outputs will be placed in high
impedance regardless Connection Memory High programming. However, if
ODE is HIGH, the contents of Connection Memory High control the output state
on a per-channel basis.
The received serial data is internally converted to parallel by the on chip
serial-to-parallel converters and stored sequentially in a 256-position Data
Memory. By using an internal counter that is reset by the input 8 KHz frame pulse,
F0i, the incoming serial data streams can be framed and sequentially addressed.
Depending on the type of information to be switched, the IDT72V8985 device
can be programmed to perform time slot interchange functions with different
throughput delay capabilities on a per-channel basis. The Variable Delay
mode, most commonly used for voice applications, can be selected ensuring
minimum throughput delay between input and output data. In Constant Delay
mode, used in multiple or grouped channel data applications, the integrity of the
information through the switch is maintained.
SERIAL INTERFACE TIMING
The IDT72V8985 master clock (C4i) is 4.096 MHz signal allowing serial data
link configuration at 2.048 Mb/s to be implemented. The IDT72V8985 can
automatically detect the presence of an input frame pulse, identify the type of
backplane present on the serial interface, and format the synchronization pulse
according to ST-BUS® or GCI interface specifications (active HIGH in GCI or
active LOW in ST-BUS®). Upon determining the correct interface Connected
to the serial port, the internal timing unit establishes the appropriate serial data
bit transmit and sampling edges. In ST-BUS® mode, every second falling edge
of the 4.096 MHz clock marks a boundary and the input data is clocked in by
the rising edge, three quarters of the way into the bit cell. In GCI mode every
second rising edge of the 4.096 MHz clock marks the bit boundary while data
sampling is performed during the falling edge, at three quarters of the bit
boundaries.
CONNECTION MEMORY
Data to be output on the serial streams may come from two sources: Data
Memory or Connection Memory. The Connection Memory is split into HIGH
and LOW parts and is associated with particular TX output streams. In Processor
Mode, data output on the TX streams is taken from the Connection Memory Low
and originates from the microprocessor (Figure 2). Where as in Connection
Mode (Figure 1), data is read from Data Memory and originated from the
incoming RX streams. Data destined for a particular channel on the serial output
stream is read internally during the previous channel time slot to allow time for
memory access and internal parallel-to-serial conversion.
DELAY THROUGH THE IDT72V8985
The transfer of information from the input serial streams to the output serial
streams results in a delay through the device. The delay through the
IDT72V8985 device varies according to the mode selected in the V/C bit of the
Connection Memory High.
CONNECTION MODE
In Connection Mode, the addresses of input source for all output channels
are stored in the Connection Memory Low. The Connection Memory Low
locations are mapped to corresponding 8-bit x 32-channel output. The contents
of the Data Memory at the selected address are then transferred to the parallelto-serial converters before being output. By having the output channel to specify
the input channel through the Connection Memory, input channels can be
broadcast to several output channels.
VARIABLE DELAY MODE
The delay in Variable Delay Mode is dependent only on the combination
of source and destination on the input and output streams. The minimum delay
achievable in the IDT72V8985 device is three time slots. In the IDT72V8985
device, the information that is to be output in the same channel position as the
information is input (position n), relative to frame pulse, will be output in the
following frame (channel n, frame n+1). The same occurs if the input channels
succeeding (n+1, n+2) the channel position as the information is input.
The information switched to the third time slot after the input has entered the
device (for instance, input channel 0 to output channel 3 or input channel 30 to
output channel 1), is always output three channels later.
Any switching configuration that provides three or more time slots between
input and output channels, will have a throughput delay equal to the difference
between the output and input channels; i.e., the throughput delay will be less
than one frame. Table 1 shows the possible delays for the IDT72V8985 device
in Variable Delay Mode. An example is shown in Figure 3.
PROCESSOR MODE
In Processor Mode the CPU writes data to the Connection Memory Low
locations which correspond to the output link and channel number. The contents
of the Connection Memory Low are transferred to the parallel-to-serial
converter one channel before it is to be output and are transmitted each frame
to the output until it is changed by the CPU.
CONTROL
The Connection Memory High bits (Table 4) control the per-channel
functions available in the IDT72V8985. Output channels are selected into
specific modes such as: Processor Mode or Connection mode, Variable or
Constant throughput delay modes, Output Drivers Enabled or in three-state
condition. There is also one bit to control the state of the CCO output pin.
RX
Receive
Serial Data
Streams
Data
Memory
Connection
Memory
Transmit
Serial Data
Streams
CONSTANT DELAY MODE
In this mode frame integrity is maintained in all switching configurations by
Receive
Serial Data
Streams
TX
Data
Memory
Connection
Memory
Transmit
Serial Data
Streams
TX
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Microprocessor
Figure 2. Processor Mode
Figure 1. Connection Mode
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IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
The Processor Enable bit (bit 6) places every output channel on every
output stream in Processor Mode; i.e., the contents of the Connection Memory
LOW (CML, see Table 5) are output on the output streams once every frame
unless the ODE input pin is LOW. If PE bit is HIGH, then the IDT72V8985
behaves as if bits 2 (Channel Source) and 0 (Output Enable) of every
Connection Memory High (CMH, see Table 4) locations were set to HIGH,
regardless of the actual value. If PE is LOW, then bit 2 and 0 of each Connection
Memory High location operates normally. In this case, if bit 2 of the CMH is HIGH,
the associated TX output channel is in Processor Mode. If bit 2 of the CMH is
LOW, then the contents of the CML define the source information (stream and
channel) of the time slot that is to be switched to an output.
If the ODE input pin is LOW, then all the serial outputs are high-impedance.
If ODE is HIGH, then bit 0 (Output Enable) of the CMH location enables (if HIGH)
or disables (if LOW) for that particular channel.
The contents of bit 1 (CCO) of each Connection Memory High Location (see
Table 4) is output on CCO pin once every frame. The CCO pin is a 2.048 Mb/
s output, which carries 256 bits. If CCO bit is set HIGH, the corresponding bit
on CCO output is transmitted HIGH. If CCO is LOW, the corresponding bit on
the CCO output is transmitted LOW. The contents of the 256 CCO bits of the CMH
are transmitted sequentially on to the CCO output pin and are synchronous to
the TX streams. To allow for delay in any external control circuitry the contents
of the CCO bit is output one channel before the corresponding channel on the
TX streams. For example, the contents of CCO bit in position 0 (corresponding
to TX0, CH0), is transmitted synchronously with the TX channel 31, bit 7. Bit 1's
of CMH for channel 1 of streams 0-7 are output synchronously with TX channel
0 bits 7-0.
making use of a multiple Data Memory buffer technique where input channels
written in any of the buffers during frame N will be read out during frame N+2.
In the IDT72V8985, the minimum throughput delay achievable in Constant
Delay mode will be 32 time slots; for example, when input time slot 32 (channel
31) is switched to output time slot 1 (channel 0). Likewise, the maximum delay
is achieved when the first time slot in a frame (channel 0) is switched to the last
time slot in the frame (channel 31), resulting in 94 time slots of delay (see
Figure 4).
To summarize, any input time slot from input frame N will be always switched
to the destination time slot on output frame N+2. In Constant Delay mode the
device throughput delay is calculated according to the following formula:
DELAY=[32+(32-IN)+(OUT-1)]
IN =the number of the input time slot (from 1 to 32)
OUT = the number of the output time slot (from 1 to 32).
MICROPROCESSOR PORT
The IDT72V8985 microprocessor port is a non-multiplexed bus architecture. The parallel port consists of an 8-bit parallel data bus (D0-D7), six address
input lines (A0-A5) and four control lines (CS, DS, R/W and DTA). This parallel
microport allows the access to the Control Registers, Connection Memory Low,
Connection Memory High, and the Data Memory. All locations are read/written
except for the Data Memory, which can be read only.
Accesses from the microport to the Connection Memory and the Data
Memory are multiplexed with accesses from the input and output TDM ports.
This can cause variable Data Acknowledge delays (DTA). In the IDT72V8985
device, the DTA output provides a maximum acknowledgment delay of 800ns
for read/write operations in the Connection Memory. However, for operations
in the Data Memory (Processor Mode), the maximum acknowledgment delay
can be 1220ns.
INITIALIZATION
During the microprocessor initialization routine, the microprocessor should
program the desired active paths through the matrices, and put all other channels
into the high impedance state. Care should be taken that no two Connected TX
outputs drive the bus simultaneously. With the CMH setup, the microprocessor
controlling the matrices can bring the ODE signal high to relinquish high
impedance state control to the Connection Memory High bits outputs.
The reset pin is designed to be used with board reset circuitry. During reset
the TX serial streams will be put into high-impedance and the state of internal
registers and counters will be reset. As the connection memory can be in any
state after a power up, the ODE pin should be used to hold the TX streams in
high-impedance until the per-channel output enable control in the connection
memory high is appropriately programmed. The main difference between ODE
and reset is, reset alters the state of the registers and counters where as ODE
controls only the high-impedance state of the TX streams. RESET input is only
provided on the SSOP packages.
SOFTWARE CONTROL
If the A5, A1, A0 address line inputs are LOW then the IDT72V8985 Internal
Control Register is addressed (see Table 2). If A5 input line is high, then the
remaining address input lines are used to select the 32 possible channels per
input or output stream. As explained in the Control Register description, the
address input lines and the Stream Address bits (STA) of the Control register
give the user the capability of selecting all positions of IDT72V8985 Data and
Connect memories. See Figure 5 for accessing internal memories.
The data in the control register consists of Memory Select and Stream
Address bits, Split Memory and Processor Enable bits (Table 3). In Split Memory
mode (Bit 7 of the Control register) reads are from the Data Memory and writes
are to the Connection Memory LOW. The Memory Select bits allow the
Connection Memory High or LOW or the Data Memory to be chosen, and the
Stream Address bits define internal memory subsections corresponding to input
or output streams.
TABLE 2  ADDRESS MAPPING
TABLE 1  VARIABLE DELAY MODE
Input Channel
n
Output Channel
m=n, n+1 or n+2
Throughput Delay
m-n+32 time slot
n
m>n+2
m-n time slot
n
m<n
32-(n-m) time slot
5
A5
A4
A3
A2
A1
A0
LOCATION
0
1
1
1
1
1
1
1
1
X
0
0
X
0
0
X
0
0
0
0
0
0
0
1
Control Register
Channel 0
Channel 1
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
1
1
1
1
1
Channel 31
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
Incoming Now
Time Slot 32 31 30 29 28............ 3
A B C D E F
G H
Outgoing Next
2 1
I
J
32 Slots
32 31........7
1
6
5
4
Outgoing Now
3 2
32 31.........7 6
J J J
5
G H I
32 Slots
4
3
2 1 Time Slot
J
32 Slots
For J: DELAY=3 Slots, 32 Slots, 33 Slots, and 34 Slots
For G, H, and I: DELAY= 3 slots
Figure 3. Variable Delay Mode
Incoming
Time Slot 32 31 30 29 28............ 3
A B C D
E F G H
32 Slots
Switching
2 1
I
Outgoing
32 31 30 29 28............. 3 2 1 Time Slot
J
J
32 Slots
I
H
G F E
D C B A
32 Slots
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For Slot 1 ("A"): IN=32, OUT=1, DELAY=(32-32)+32+(1-1)=32 time slots minimum delay
For Slot 32 ("J"): IN=1, OUT=32, DELAY=(32-1)+32+(32-1)=94 time slots maximum delay
Figure 4. Constant Delay Mode
6
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Control Register
Commercial Temperature Range
CRb7
CRb6
The Control Register is only accessed when A5=0.
All other address bits have no effect when A5=0.
When A5 =1, only 32 bytes are randomly accessable
via A0-A4 at any one instant. Which 32 bytes are
accessed is determined by the state of CRb0 -CRb4.
The 32 bytes correlate to 32 channel of one ST-BUS
stream.
CRb5
CRb4
0
1
1
CRb4
CRb3
CRb2
CRb1
CRb0
CRb3
1
0
1
Connection Memory High
Connection Memory Low
Data Memory
Channel 0
Channel 0
Channel 0
Channel 0
Channel 0
Channel 0
Channel 0
Channel 0
Channel 1
Channel 1
Channel 1
Channel 1
Channel 1
Channel 1
Channel 1
Channel 1
100000
100001
Channel 2
Channel 2
Channel 2
Channel 2
Channel 2
Channel 2
Channel 2
Channel 2
Channel 31
Channel 31
Channel 31
Channel 31
Channel 31
Channel 31
Channel 31
Channel 31
100010
111111
CRb2
0
0
0
0
1
1
1
1
CRb1
0
0
1
1
0
0
1
1
External Address Bits
CRb0 Stream
0
0
1
1
2
0
1
3
0
4
1
5
0
6
7
1
A5-A0
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Figure 5. Addressing Internal Memories
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IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
TABLE 3  CONTROL REGISTER
Bit
7
6
5
4
3
2
1
0
SM
PE
X
MS1
MS0
STA2
STA1
STA0
Name
Description
7
SM (Split Memory)
When 1, all subsequent reads are from the Data Memory and writes are to the Connection Memory, except when
the Control Register is accessed again. The Memory Select bits need to specify the memory for the operations.
6
PE (Processor Mode)
When 1, the contents of the Connection Memory LOW are output on the Serial Output streams except when in highimpedance. When 0, the Connection Memory bits for each channel determine what is output.
5
unused
4-3
MS1-MS0
(Memory Select Bits)
0-0 - Not to be used.
0-1 - Data Memory (read only from the CPU)
1-0 - Connection Memory LOW
1-1 - Connection Memory is HIGH
2-0
STA2-0
(Stream Address Bits)
The number expressed in binary notation on these bits refers to the input or output stream which corresponds to the
subsection of memory made accessible for subsequent operations.
x = don't care
TABLE 4  CONNECTION MEMORY HIGH
Bit
7
6
5
4
3
2
1
0
X
V/C
X
X
X
CS
CCO
OE
Name
7,5,4,3
Description
unused
6
V/C (Variable/Constant
This bit is used to select between Variable (LOW) and Constant Delay (HIGH) modes on a per-channel basis.
Throughput Delay Mode)
2
CS
(Channel Source)
When 1, the contents of the corresponding location in Connection Memory LOW are output on the location's channel
and stream. When 0, the contents of the corresponding location in Connection Memory LOW act as an address for the
Data Memory and determine the source of the connection to the location's channel and stream.
1
CCO (CCO Bit)
This bit drives a bit time on the CCO output pin.
0
OE (Output Enable)
This bit enables the output drivers on a per-channel basis. This allows individual channels on individual streams to
be made high-impedance, allowing switch matrices to be constructed. A HIGH enables the driver and a LOW disables it.
x = don't care
TABLE 5  CONNECTION MEMORY LOW
Bit
7-5
7
6
5
4
3
2
1
0
SAB2
SAB1
SAB0
CAB4
CAB3
CAB2
CAB1
CAB0
Name
SAB2-0(1)
Description
These three bits are used to select eight source streams for the Connection.
(Source Stream Address Bits)
4-0(1) CAB2-0(1)
These five bits are used to select 32 different source channels for the Connection (the stream where the channel
(Source Channel Address Bits) is present is defined by bits SAB2-0). Bit 4 is the most significant bit.
NOTE:
1. If bit 2 of the corresponding Connection HIGH location is 1 or bit 6 of the Control Register is 1, then these entire 8 bits are output on the channel and stream associated with
this location. Otherwise, the bits are used as indicated to define the source of the Connection which is output on the channel and stream associated with this location.
8
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
ABSOLUTE MAXIMUM RATINGS(1)
Symbol
Vcc
Vi
Parameter
Min.
Max.
Unit
Symbol Voltage
-0.3
5.0
V
GND - 0.3
VCC +0.5
V
Voltage on Digital Inputs
VO
Voltage on Digital Outputs
IO
Current at Digital Outputs
TS
Storage Temperature
PD
Package Power Dissapation
GND - 0.3
-55
VCC +0.3
V
20
mA
+125
°C
1
W
RECOMMENDED OPERATING
CONDITIONS
Symbol
Parameter
Min.
VCC
Positive Supply
VI
Input Voltage
TOP
Operating Temperature
Commercial
Typ.(1)
Max.
Unit
3.0
3.3
3.6
V
0

5.25
V
-40
25
+85
°C
NOTE:
1. Typical figures are at 25°C and are for design aid only; not guaranteed and not subject
to production testing.
NOTE:
1. Stresses greater than those listed under ABSOLUTE MAXIMUM RATINGS may
cause permanent damage to the device. This is a stress rating only a functional operation
of the device at these or any conditions above those indicated in the operational sections
of this specification is not implied. Exposure to absolute maximum rating conditions for
extended periods may affect reliability.
DC ELECTRICAL CHARACTERISTICS
Symbol
Parameter
Min.
Typ.(1)
Max.
Units
Test Conditions
5
mA
Outputs Unloaded
ICC
Supply Current

3
VIH
Input High Voltage
2.0


V
VIL
Input Low Voltage


0.8
V
IIL
Input Leakage (Inputs)


15
µA
CI
Input Capacitance


10
pF
VOH
Output High Voltage
2.4


V
IOH = 10mA
IOH
Output High Current
10


mA
Sourcing. VOH = 0.8V
VOL
Output Low Voltage


0.4
V
IOL = 5mA
IOL
Output Low Current
5


mA
Sinking. VOL = 0.4V
I OZ
High Impedance Leakage


5
µA
VO between GND and VCC
CO
Output Pin Capacitance


10
pF
NOTE:
1. Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
Test Point
VCC
S1 is open circuit except when testing output
levels or high impedance states.
RL
Output
Pin
S1
S2
S2 is switched to VCC or GND when testing
output levels or high impedance states.
CL
GND
GND
5707 drw09
Figure 6. Output Load
9
VI between GND and VCC
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
AC ELECTRICAL CHARACTERISTICS(1)  ST-BUS® TIMING
Symbol
Parameter
Min.
Typ.(2)
Max.
Units
tF0iW
Frame Pulse Width

244

ns
tF0iS
Frame Pulse Setup Time
5
20
190
ns
tF0iH
Frame Pulse Hold Time
5
20
190
ns
tDAA
TX delay Active to Active

40
60
ns
tSTiS
RX Setup Time
10


ns
tSTiH
RX Hold Time
10


ns
tC4i
Clock Period

244

ns
tCL
CK Input Low

122

ns
tCH
CK Input High

122

ns
tr, tf
Clock Rise/Fall Time


10
ns
Test Conditions
CL = 150pF
NOTE:
1. Timing is over recommended temperature and power supply voltages.
2. Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
tF0iW
F0i
tF0iS
tCH
tF0iH
tCL
tC4i
C4i
tDAA
TX
Ch. 31, Bit 0
tf
Ch. 0, Bit 7
tSTiS
RX
Ch. 31, Bit 0
tr
Ch. 0, Bit 6
Ch. 0,
Bit 5
tSTiH
Ch. 0, Bit 7
Ch. 0, Bit 5
Ch. 0, Bit 6
5707 drw10
Figure 7. ST-BUS® Timing
10
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
AC ELECTRICAL CHARACTERISTICS(1)  GCI TIMING
Symbol
Parameter
Min.
Typ.(2)
Max.
Units
tC4i
Clock Period

244

ns
tCL, tCH
Pulse Width

122

ns
tWFH
Frame Width High

244

ns
tF0iS
Frame Setup
5
20
190
ns
tF0iH
Frame Hold
5
20
190
ns
tDAA
Data Delay/Clock Active to Active

40
60
ns
tSTiS
RX Input Setup
10


ns
tSTiH
RX Input Hold
10


ns
tr, tf
Clock Rise/Fall Time


10
ns
Test Conditions
CL = 150pF
NOTE:
1. Timing is over recommended temperature and power supply voltages.
2. Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
tWFH
F0i
tF0iS
tr
tF0iH
tCL
tf
tCH
tC4i
C4i
TX
Ch. 31
Bit 7
Ch. 0
Bit 0
Ch. 0
Bit 1
tDAA
tSTiS
RX
Ch. 31
Bit 7
Ch. 0
tSTiH
Bit 0
Ch. 0
Bit 1
5707 drw11
Figure 8. GCI Timing
11
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
AC ELECTRICAL CHARACTERISTICS(1)  SERIAL STREAM TIMING
Symbol
Characteristics
Min.
Typ.(2)
Max.
Unit
Test Conditions
tTAZ
TX0-7 Delay - Active to High Z

30
45
ns
RL = 1KΩ(3), CL = 150pF
tTZA
TX0-7 Delay - High Z to Active

45
60
ns
CL = 150pF
tOED
Output Driver Enable Delay

45
60
ns
RL = 1KΩ(3), CL = 150pF
tXCD
CCO Output Delay
0
40
60
ns
CL = 150pF
tRSZ
Reset to High Z
5
30

ns
tZRS
High Z to Reset
0


ns
tZDO
High Z to Valid Data

32

cycles
C4i cycles
tRPW
Reset Pulse Width
100


ns
RL = 1KΩ(3), CL = 150pF
NOTE:
1. Timing is over recommended temperature and power supply voltages.
2. Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
3. High Impedance is measured by pulling to the appropriate rail with RL, with timing corrected to cancel time taken to discharge CL.
ODE
Bit Cell Boundary
tOED
tOED
(GCI)
C4i
TX0-7

(ST-BUS )
5707 drw13
tTAZ
Figure 10. Output Driver Enable
TX0-7
RS
tTZA
tRPW
TX0-7
TX
tXCD
tZDO
CCO
5707 drw14
tRSZ
tZRS
5707 drw12
Figure 9. Serial Outputs and External Control
Figure 11. Reset
12
IDT72V8985 3.3V Time Slot Interchange
Digital Switch 256 x 256
Commercial Temperature Range
AC ELECTRICAL CHARACTERISTICS(1)  MICROPROCESSOR TIMING
Symbol
Characteristics
Min.
Typ.(2)
Max.
Unit
tCSS
CS Setup from DS Rising
0


ns
tRWS
R/W Setup from DS Rising
5


ns
tADS
Add Setup from DS Rising
5


ns
Test Conditions
tCSH
CS Hold after DS Falling
0


ns
tRWH
R/W Hold after DS Falling
5


ns
tADH
Add Hold after DS Falling
5


ns
tDDR
Data Setup from DTA Low on Read
10


ns
CL = 150pF
tDHR
Data Hold on Read
10
50
90
ns
RL = 1KΩ(3), CL = 150pF
tDSW
Data Setup on Write (Fast Write)
10


ns
tSWD
Valid Data Delay on Write (Slow Write)


122
ns
tDHW
Data Hold on Write
5


ns
tAKD
Acknowledgment Delay:
Reading Data Memory
Reading/Writing Connection Memory
Writing to Control Register
Reading to Control Register




560
300/370
45
45
1220
730/800
70
70
ns
ns
ns
ns
Acknowledgment Hold Time
10
20
40
ns
tAKH
CL = 150pF
RL = 1KΩ(3), CL = 150pF
NOTE:
1. Timing is over recommended temperature and power supply voltages.
2. Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.
3. High Impedance is measured by pulling to the appropriate rail with RL, with timing corrected to cancel time taken to discharge CL.
DS
CS
tCSS
tCSH
tRWS
tRWH
tADS
tADH
R/W
A0-A5
D0-D7
READ
VALID DATA
tSWD
tDHR
tDSW
D0-D7
WRITE
VALID DATA
tDDR
tAKD
DTA
tDHW
tAKH
5707 drw15
Figure 12. Motorola Non-Multiplexed Bus Timing
13
ORDERING INFORMATION
IDT
XX
XXXXXX
Device Type
Package
X
Process/
Temperature
Range
BLANK
Commercial (-40°C to +85°C)
J
PV
DB
Plastic Leaded Chip Carrier (PLCC, J44-1)
Small Shrink Outline Package (SSOP, SO48-1)
Plastic Quad Flatpack (PQFP, DB44-1)
72V8985
256 x 256  3.3V Time Slot Interchange Digital Switch
5707 drw15
DATASHEET DOCUMENT HISTORY
05/24/2000
08/21/2000
01/24/2001
04/05/2001
03/10/2003
05/09/2003
08/20/2003
pgs.
pgs.
pgs.
pg.
pg.
pgs.
pg.
1, 2, 13 and 14.
1, 2 and 14.
1 and 9.
11.
13.
1, 2, and 14.
9.
CORPORATE HEADQUARTERS
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800-345-7015 or 408-727-6116
fax: 408-492-8674
www.idt.com
14
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408-330-1753
email: [email protected]