72T3695L5BB Datasheet 72T36125L5BBGI, 72T36125L10BB, 72T36105L4-4BBG | P7-P9

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

IDT72T3645/55/65/75/85/95/105/115/125 2.5V TeraSync

™™

™ 36-BIT FIFO

1K x 36, 2K x 36, 4K x 36, 8K x 36, 16K x 36, 32K x 36, 64K x 36, 128K x 36 and 256K x 36

FEBRUARY 4, 2009

PIN DESCRIPTION

ASYR

(1)

Asynchronous LVTTL A HIGH on this input during Master Reset will select Synchronous read operation for the output port. A LOW

Read Port INPUT will select Asynchronous operation. If Asynchronous is selected the FIFO must operate in IDT Standard mode.

ASYW

(1)

Asynchronous LVTTL A HIGH on this input during Master Reset will select Synchronous write operation for the input port. A LOW

Write Port INPUT will select Asynchronous operation.

(1)

Big-Endian/ LVTTL During Master Reset, a LOW on BE will select Big-Endian operation. A HIGH on BE during Master Reset

Little-Endian INPUT will select Little-Endian format.

(1)

Bus-Matching LVTTL BM works with IW and OW to select the bus sizes for both write and read ports. See Table 1 for bus size

INPUT configuration.

0–D35 Data Inputs HSTL-LVTTL Data inputs for a 36-, 18- or 9-bit bus. When in 18- or 9-bit mode, the unused input pins should be tied to GND.

INPUT

EF/OR Empty Flag/ HSTL-LVTTL In the IDT Standard mode, the EF function is selected. EF indicates whether or not the FIFO memory is empty.

Output Ready OUTPUT In FWFT mode, the OR function is selected. OR indicates whether or not there is valid data available at the

outputs.

ERCLK RCLK Echo HSTL-LVTTL Read clock Echo output, only available when the Read is setup for Synchronous mode.

OUTPUT

EREN Read Enable Echo HSTL-LVTTL Read Enable Echo output, only available when the Read is setup for Synchronous mode.

OUTPUT

FF/IR Full Flag/ HSTL-LVTTL In the IDT Standard mode, the FF function is selected. FF indicates whether or not the FIFO memory is

Input Ready OUTPUT full. In the FWFT mode, the IR function is selected. IR indicates whether or not there is space available for

writing to the FIFO memory.

FSEL0

(1)

Flag Select Bit 0 LVTTL During Master Reset, this input along with FSEL1 and the LD pin, will select the default offset values for the

INPUT programmable flags PAE and PAF. There are up to eight possible settings available.

FSEL1

(1)

Flag Select Bit 1 LVTTL During Master Reset, this input along with FSEL0 and the LD pin will select the default offset values for the

INPUT programmable flags PAE and PAF. There are up to eight possible settings available.

FWFT/ First Word Fall HSTL-LVTTL During Master Reset, selects First Word Fall Through or IDT Standard mode. After Master Reset, this pin

SI Through/Serial In INPUT functions as a serial input for loading offset registers. If Asynchronous operation of the read port has been

selected then the FIFO must be set-up in IDT Standard mode.

HF Half-Full Flag HSTL-LVTTL HF indicates whether the FIFO memory is more or less than half-full.

OUTPUT

(1)

Interspersed Parity LVTTL During Master Reset, a LOW on IP will select Non-Interspersed Parity mode. A HIGH will select Interspersed

INPUT Parity mode.

(1)

Input Width LVTTL This pin, along with OW and BM, selects the bus width of the write port. See Table 1 for bus size configuration.

INPUT

LD Load HSTL-LVTTL This is a dual purpose pin. During Master Reset, the state of the LD input along with FSEL0 and FSEL1,

INPUT determines one of eight default offset values for the PAE and PAF flags, along with the method by which these

offset registers can be programmed, parallel or serial (see Table 2). After Master Reset, this pin enables writing

to and reading from the offset registers.THIS PIN MUST BE HIGH AFTER MASTER RESET TO WRITE

OR READ DATA TO/FROM THE FIFO MEMORY.

MARK Mark for Retransmit HSTL-LVTTL When this pin is asserted the current location of the read pointer will be marked. Any subsequent Retransmit

INPUT operation will reset the read pointer to this position.

MRS Master Reset HSTL-LVTTL MRS initializes the read and write pointers to zero and sets the output register to all zeroes. During Master

INPUT Reset, the FIFO is configured for either FWFT or IDT Standard mode, Bus-Matching configurations,

Synchronous/Asynchronous operation of the read or write port, one of eight programmable flag default settings,

serial or parallel programming of the offset settings, Big-Endian/Little-Endian format, zero latency timing mode,

interspersed parity, and synchronous versus asynchronous programmable flag timing modes.

OE Output Enable HSTL-LVTTL OE provides Asynchronous three-state control of the data outputs, Qn. During a Master or Partial Reset the

INPUT OE input is the only input that provide High-Impedance control of the data outputs.

(1)

Output Width LVTTL This pin, along with IW and BM, selects the bus width of the read port. See Table 1 for bus size configuration.

INPUT

PAE Programmable HSTL-LVTTL PAE goes LOW if the number of words in the FIFO memory is less than offset n, which is stored in the Empty

Almost-Empty Flag OUTPUT Offset register. PAE goes HIGH if the number of words in the FIFO memory is greater than or equal to offset n.

PAF Programmable HSTL-LVTTL PAF goes HIGH if the number of free locations in the FIFO memory is more than offset m, which is stored in the

Almost-Full Flag OUTPUT Full Offset register. PAF goes LOW if the number of free locations in the FIFO memory is less than or equal to m.

PFM

(1)

Programmable LVTTL During Master Reset, a LOW on PFM will select Asynchronous Programmable flag timing mode. A HIGH on

Flag Mode INPUT PFM will select Synchronous Programmable flag timing mode.

Symbol Name I/O TYPE Description

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

IDT72T3645/55/65/75/85/95/105/115/125 2.5V TeraSync

™™

™ 36-BIT FIFO

1K x 36, 2K x 36, 4K x 36, 8K x 36, 16K x 36, 32K x 36, 64K x 36, 128K x 36 and 256K x 36

FEBRUARY 4, 2009

PIN DESCRIPTION (CONTINUED)

Symbol Name I/O TYPE Description

PRS Partial Reset HSTL-LVTTL PRS initializes the read and write pointers to zero and sets the output register to all zeroes. During Partial Reset,

INPUT the existing mode (IDT or FWFT), programming method (serial or parallel), and programmable flag settings

are all retained.

Q0–Q35 Data Outputs HSTL-LVTTL Data outputs for an 36-, 18- or 9-bit bus. When in 18- or 9-bit mode, any unused output pins should not

OUTPUT be connected. Outputs are not 5V tolerant regardless of the state of OE and RCS.

RCLK/ Read Clock/ HSTL-LVTTL If Synchronous operation of the read port has been selected, when enabled by REN, the rising edge of RCLK

RD Read Stobe INPUT reads data from the FIFO memory and offsets from the programmable registers. If LD is LOW, the values

loaded into the offset registers is output on a rising edge of RCLK.If Asynchronous operation of the read

port has been selected, a rising edge on RD reads data from the FIFO in an Asynchronous manner. REN

should be tied LOW.

RCS Read Chip Select HSTL-LVTTL RCS provides synchronous control of the read port and output impedance of Qn, synchronous to RCLK. During

INPUT a Master Reset or Partial Reset the RCS input is don’t care, if OE is LOW the data outputs will be Low-Impedance

regardless of RCS.

REN Read Enable HSTL-LVTTL If Synchronous operation of the read port has been selected, REN enablesRCLK for reading data from the

INPUT FIFO memory and offset registers. If Asynchronous operation of the read port has been selected, the REN

input should be tied LOW.

RHSTL

(1)

Read Port HSTL LVTTL This pin is used to select HSTL or 2.5v LVTTL outputs for the FIFO. If HSTL or eHSTL outputs are

Select INPUT required, this input must be tied HIGH. Otherwise it should be tied LOW.

RT Retransmit HSTL-LVTTL RT asserted on the rising edge of RCLK initializes the READ pointer to zero, sets the EF flag to LOW (OR to

INPUT HIGH in FWFT mode) and doesn’t disturb the write pointer, programming method, existing timing mode

or programmable flag settings. If a mark has been set via the MARK input pin, then the read pointer will jump

to the ‘mark’ location.

SCLK Serial Clock HSTL-LVTTL A rising edge on SCLK will clock the serial data present on the SI input into the offset registers providing that

INPUT SEN is enabled.

SEN Serial Enable HSTL-LVTTL SEN enables serial loading of programmable flag offsets.

INPUT

SHSTL System HSTL LVTTL All inputs not associated with the write or read port can be selected for HSTL operation via the SHSTL input.

Select INPUT

TCK

(2)

JTAG Clock HSTL-LVTTL Clock input for JTAG function. One of four terminals required by IEEE Standard 1149.1-1990. Test operations

INPUT of the device are synchronous to TCK. Data from TMS and TDI are sampled on the rising edge of TCK and

outputs change on the falling edge of TCK. If the JTAG function is not used this signal needs to be tied to GND.

TDI

(2)

JTAG Test Data HSTL-LVTTL One of four terminals required by IEEE Standard 1149.1-1990. During the JTAG boundary scan operation,

Input INPUT test data serially loaded via the TDI on the rising edge of TCK to either the Instruction Register, ID Register

and Bypass Register. An internal pull-up resistor forces TDI HIGH if left unconnected.

TDO

(2)

JTAG Test Data HSTL-LVTTL One of four terminals required by IEEE Standard 1149.1-1990. During the JTAG boundary scan operation,

Output OUTPUT test data serially loaded output via the TDO on the falling edge of TCK from either the Instruction Register, ID

SHIFT-IR controller states.

TMS

(2)

JTAG Mode HSTL-LVTTL TMS is a serial input pin. One of four terminals required by IEEE Standard 1149.1-1990. TMS directs the

Select INPUT the device through its TAP controller states. An internal pull-up resistor forces TMS HIGH if left unconnected.

TRST

(2)

JTAG Reset HSTL-LVTTL TRST is an asynchronous reset pin for the JTAG controller. The JTAG TAP controller does not automatically

INPUT reset upon power-up, thus it must be reset by either this signal or by setting TMS= HIGH for five TCK cycles.

If the TAP controller is not properly reset then the FIFO outputs will always be in high-impedance. If the JTAG

function is used but the user does not want to use TRST, then TRST can be tied with MRS to ensure proper

FIFO operation. If the JTAG function is not used then this signal needs to be tied to GND.

WEN Write Enable HSTL-LVTTL When Synchronous operation of the write port has been selected, WEN enables WCLK for writing data into

INPUT theFIFO memory and offset registers. If Asynchronous operation of the write port has been selected, the

WEN input should be tied LOW.

WCS Write Chip Select HSTL-LVTTL The WCS pin can be regarded as a second WEN input, enabling/disabling write operations.

INPUT

WCLK/ Write Clock/ HSTL-LVTTL If Synchronous operation of the write port has been selected, when enabled by WEN, the rising edge of WCLK

WR Write Strobe INPUT writes data into the FIFO. If Asynchronous operation of the write port has been selected, WR writes data into

the FIFO on a rising edge in an Asynchronous manner, (WEN should be tied to its active state).

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

IDT72T3645/55/65/75/85/95/105/115/125 2.5V TeraSync

™™

™ 36-BIT FIFO

1K x 36, 2K x 36, 4K x 36, 8K x 36, 16K x 36, 32K x 36, 64K x 36, 128K x 36 and 256K x 36

FEBRUARY 4, 2009

NOTES:

1. Inputs should not change state after Master Reset.

2. These pins are for the JTAG port. Please refer to pages 31-34 and Figures 6-8.

WHSTL

(1)

Write Port HSTL LVTTL This pin is used to select HSTL or 2.5V LVTTL inputs for the FIFO. If HSTL inputs are required, this input must

Select INPUT be tied HIGH. Otherwise it should be tied LOW.

Vcc +2.5v Supply I These are Vcc supply inputs and must be connected to the 2.5V supply rail.

GND Ground Pin I These are Ground pins an dmust be connected to the GND rail.

Vref Reference I This is a Voltage Reference input and must be connected to a voltage level determined from the table,

Voltage “Recommended DC Operating Conditions”. This provides the reference voltage when using HSTL class

inputs. If HSTL class inputs are not being used, this pin should be tied LOW.

VDDQ O/P Rail Voltage I This pin should be tied to the desired voltage rail for providing power to the output drivers.

PIN DESCRIPTION (CONTINUED)

Symbol Name I/O TYPE Description

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39 P40-P42 P43-P45 P46-P48 P49-P51 P52-P54 P55-P57

72T3695L5BB

Mfr. #:

Buy 72T3695L5BB

Manufacturer:

IDT

Description:

FIFO 2.5V 32K X 36 FIFO

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72T3695L5BB

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