IDT72T2098L6-7BB Datasheet IDT72T20118L10BB, IDT72T20118L4BB, IDT72T20118L5BB | P4-P6

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

IDT72T2098/108/118/128 2.5V HIGH-SPEED TeraSync™ DDR/SDR FIFO 20-BIT/10-BIT CONFIGURATIONS

32K x 20/64K x 10, 64K x 20/128K x 10, 128K x 20/256K x 10, 256K x 20/512K x 10

FEBRUARY 13, 2009

DESCRIPTION (CONTINUED)

(SI) pin at the rising edge of SCLK. To read out the offset registers serially, set

SREN active and data can be read out via the Serial Output (SO) pin at the rising

edge of SCLK. Four default offset settings are also provided, so that PAE can

be marked at a predefined number of locations from the empty boundary and

the PAF threshold can also be marked at similar predefined values from the full

boundary. The default offset values are set during Master Reset by the state

of the FSEL0 and FSEL1 pins.

During Master Reset (MRS), the following events occur: the read and write

pointers are set to the first location of the internal FIFO memory, the FWFT pin

selects IDT Standard mode or FWFT mode, the bus width configuration of the

read and write port is determined by the state of IW and OW, and the default offset

values for the programmable flags are set.

The Partial Reset (PRS) also sets the read and write pointers to the first

location of the memory. However, the timing mode and the values stored in the

programmable offset registers before Partial Reset remain unchanged. The

flags are updated according to the timing mode and offsets in effect. PRS is useful

for resetting a device in mid-operation, when reprogramming programmable

flags would be undesirable.

The timing of the PAE and PAF flags are synchronous to RCLK and WCLK,

respectively. The PAE flag is asserted upon the rising edge of RCLK only and

not WCLK. Similarly the PAF is asserted and updated on the rising edge of

WCLK only and not RCLK.

This device includes a Retransmit from Mark feature that utilizes two control

inputs, MARK and RT (Retransmit). If the MARK input is enabled with respect

to the RCLK, the memory location being read at the point will be marked. Any

subsequent retransmit operation (when RT goes LOW), will reset the read

pointer to this “marked” location.

The device can be configured with different input and output bus widths as

previously stated. These rates are: x20 to x20, x20 to x10, x10 to x20 and x10

to x10.

If, at any time, the FIFO is not actively performing an operation, the chip will

automatically power down. Once in the power down state, the standby supply

current consumption is minimized. Initiating any operation (by activating control

inputs) will immediately take the device out of the power down state.

A JTAG test port is provided, here the FIFO has fully functional boundary

Scan feature, compliant with IEEE 1449.1 Standard Test Access Port and

Boundary Scan Architecture.

The Double Data Rate FIFO has the capability of operating in either LVTTL

or HSTL mode. HSTL mode can be selected by enabling the HSTL pin. Both

input and output ports will operate in either HSTL or LVTTL mode, but cannot

be selected independent of one another.

The IDT72T2098/72T20108/72T20118/72T20128 are fabricated using

IDT’s high-speed submicron CMOS technology.

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

IDT72T2098/108/118/128 2.5V HIGH-SPEED TeraSync™ DDR/SDR FIFO 20-BIT/10-BIT CONFIGURATIONS

32K x 20/64K x 10, 64K x 20/128K x 10, 128K x 20/256K x 10, 256K x 20/512K x 10

FEBRUARY 13, 2009

IW OW Write Port Width Read Port Width

L L x20 x20

L H x20 x10

H L x10 x20

H H x10 x10

TABLE 1 — BUS-MATCHING CONFIGURATION MODES

NOTE:

1. Pin status during Master Reset.

Figure 1. Single Device Configuration Signal Flow Diagram

(x20, x10) DATA OUT (Q

- Q

)(x20, x10) DATA IN (D

- D

)

MASTER RESET (MRS)

READ CLOCK (RCLK)

READ ENABLE (REN)

OUTPUT ENABLE (OE)

EMPTY FLAG/OUTPUT READY (EF/OR)

PROGRAMMABLE ALMOST-EMPTY (PAE)

WRITE CLOCK (WCLK)

WRITE ENABLE (WEN)

WRITE SINGLE DATA RATE (WSDR)

FULL FLAG/INPUT READY (FF/IR)

PROGRAMMABLE ALMOST-FULL (PAF)

IDT

72T2098

72T20108

72T20118

72T20128

PARTIAL RESET (PRS)

FIRST WORD FALL THROUGH (FWFT)

RETRANSMIT (RT)

5996 drw03

SERIAL ENABLE(SEN)

INPUT WIDTH (IW)

OUTPUT WIDTH (OW)

SERIAL CLOCK (SCLK)

MARK

READ CHIP SELECT (RCS)

RCLK ECHO (ERCLK)

REN ECHO (EREN)

WRITE CHIP SELECT (WCS)

READ SINGLE DATA RATE (RSDR)

SERIAL OUTPUT (SO)

SERIAL INPUT (SI)

SERIAL READ ENABLE(SREN)

WSDR RSDR Write Port Width Read Port Width

H H Double Data Rate Double Data Rate

H L Double Data Rate Single Data Rate

L H Single Data Rate Double Data Rate

L L Single Data Rate Single Data Rate

TABLE 2 — DATA RATE-MATCHING CONFIGURATION MODES

NOTE:

1. Pin status during Master Reset.

2. Data Rate Matching can be used in conjunction with Bus-Matching modes.

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

IDT72T2098/108/118/128 2.5V HIGH-SPEED TeraSync™ DDR/SDR FIFO 20-BIT/10-BIT CONFIGURATIONS

32K x 20/64K x 10, 64K x 20/128K x 10, 128K x 20/256K x 10, 256K x 20/512K x 10

FEBRUARY 13, 2009

PIN DESCRIPTION

D0-D19 Data Inputs HSTL-LVTTL Data inputs for a 20-, or 10-bit bus. When using 10- bit mode, the unused input pins are in a don’t care

(See Pin No. INPUT state. The data bus is sampled on both rising and falling edges of WCLK when WEN is enabled and DDR

table for details) Mode is enabled or on the rising edges of WCLK only in SDR Mode.

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

(M14) Output Ready OUTPUT empty. In FWFT mode, the OR function is selected. OR indicates whether or not there is valid data available

at the outputs.

ERCLK Echo Read HSTL-LVTTL Read Clock Echo output, must be equal to or faster than the Qn data outputs.

(L16) Clock OUTPUT

EREN Echo Read HSTL-LVTTL Read Enable Echo output, used in conjunction with ERCLK.

(K16) Enable 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

(H3) Input Ready OUTPUT empty. In 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 will select the default offset values for the programmable

(J3) INPUT flags PAE and PAF. There are four possible settings available.

FSEL1

(1)

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

(J2) INPUT flags PAE and PAF. There are four possible settings available.

FWFT First Word Fall LVTTL During Master reset, selects First Word Fall Through or IDT Standard mode. FWFT is not available in

(G2) Through INPUT DDR mode. In SDR mode, the first word will always fall through on the rising edge.

HSTL

(1)

HSTL Select LVTTL This input pin is used to select HSTL or 2.5V LVTTL device operation. If HSTL inputs are required, this

(B7) INPUT input must be tied HIGH, otherwise it should be tied LOW.

(1)

Input Width LVTTL During Master Reset, this pin, along with OW selects the bus width of the read and write port.

(K1) INPUT

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

(E14) Pointer for INPUT operation will reset the read pointer to this position. There is an unlimited number to times to set the mark

Retransmit location, but only the most recent location marked will be acknowledged.

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

(J1) INPUT Reset, the FIFO is configured for either FWFT or IDT Standard mode, Bus-Matching configurations,

programmable flag default settings, and single or double data clock mode.

OE Output Enable HSTL-LVTTL When HIGH, data outputs Q0-Q19 are in high impedance. When LOW, the data outputs Q0-Q19 are enabled.

(G15) INPUT No other outputs are affected by OE.

(1)

Output Width LVTTL During Master Reset, this pin along with IW selects the bus width of the read and write port.

(L3) INPUT

PAE Programmable HSTL-LVTTL PAE goes HIGH if the number of words in the FIFO memory is greater than or equal to offset n, which is

(L15) Almost-Empty OUTPUT stored in the Empty Offset register. PAE goes LOW if the number of words in the FIFO memory is less than

Flag 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

(G3) Almost-Full Flag OUTPUT in the Full Offset register. PAF goes LOW if the number of free locations in the FIFO memory is less than

or equal to m.

PRS Partial Reset HSTL-LVTTL PRS initializes the read and write pointers to zero and sets the output registers to all zeros. During Partial

(K3) INPUT Reset, the existing mode (IDT standard or FWFT) and programmable flag settings are not affected.

Q0-Q19 Data Outputs HSTL-LVTTL Data outputs for a 20-, or 10-bit bus. When in 10- bit mode, the unused output pins should not be connected.

(See Pin No. OUTPUT The output data is clocked on both rising and falling edges of RCLK when REN is enabled and DDR Mode

table for details) is enabled or on the rising edges of RCLK only in SDR Mode.

RCLK Read Clock HSTL-LVTTL Input clock when used in conjunction with REN for reading data from the FIFO memory and output

(G16) INPUT register.

Symbol & Name I/O TYPE Description

Pin No.

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

IDT72T2098L6-7BB

Mfr. #:

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IC FIFO 262X20 2.5V 6-7NS 208BGA

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