72V36110L6PF IDT, 72V36110L6PF Datasheet - Page 45

72V36110L6PF

Manufacturer Part Number

72V36110L6PF

Description

FIFO 128Kx36 3.3V SUPER SYNC II FIFO

Manufacturer

IDT

Datasheet

1.72V36110L6PFG.pdf (48 pages)

Specifications of 72V36110L6PF

Part # Aliases

IDT72V36110L6PF

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NOTE:

1. Five consecutive TCK cycles with TMS = 1 will reset the TAP.

1149.1) for the full state diagram.

TCLK pulse. The TMS signal level (0 or 1) determines the state progression

that occurs on each TCLK rising edge. The TAP controller takes precedence

over the Queue and must be reset after power up of the device. See TRST

description for more details on TAP controller reset.

the normal operation of the IC. The TAP controller state machine is designed

in such a way that, no matter what the initial state of the controller is, the Test-

Logic-Reset state can be entered by holding TMS at high and pulsing TCK five

times. This is the reason why the Test Reset (TRST) pin is optional.

certain instructions are present. For example, if an instruction activates the self

test, then it will be executed when the controller enters this state. The test logic

in the IC is idles otherwise.

Data Path or the Select-IR-Scan state is made.

Instruction Path is made. The Controller can return to the Test-Logic-Reset state

other wise.

IDT72V36100/72V36110 3.3V HIGH DENSITY SUPERSYNC II

65,536 x 36 and 131,072 x 36

Run-Test-Idle In this controller state, the test logic in the IC is active only if

Select-DR-Scan This is a controller state where the decision to enter the

Select-IR-Scan This is a controller state where the decision to enter the

Refer to the IEEE Standard Test Access Port Specification (IEEE Std.

All state transitions within the TAP controller occur at the rising edge of the

Test-Logic-Reset All test logic is disabled in this controller state enabling

Input = TMS

Test-Logic

Run-Test/

Reset

Idle

Figure 33. TAP Controller State Diagram

36-BIT FIFO

Update-DR

Capture-DR

Pause-DR

Exit2-DR

DR-Scan

Exit1-DR

Shift-DR

Select-

last two significant bits are always required to be “01”.

between TDI and TDO, and the captured pattern gets shifted on each rising edge

of TCK. The instruction available on the TDI pin is also shifted in to the instruction

IR state or Update-IR state is made.

latched in to the latch bank of the Instruction Register on every falling edge of

TCK. This instruction also becomes the current instruction once it is latched.

registers selected by the current instruction on the rising edge of TCK.

controller states are similar to the Shift-IR, Exit1-IR, Pause-IR, Exit2-IR and

Update-IR states in the Instruction path.

Capture-IR In this controller state, the shift register bank in the Instruction

Shift-IR In this controller state, the instruction register gets connected

Exit1-IR This is a controller state where a decision to enter either the Pause-

Pause-IR This state is provided in order to allow the shifting of instruction

Exit2-DR This is a controller state where a decision to enter either the Shift-

Update-IR In this controller state, the instruction in the instruction register is

Capture-DR In this controller state, the data is parallel loaded in to the data

Shift-DR, Exit1-DR, Pause-DR, Exit2-DR and Update-DR These

Capture-IR

Update-IR

Pause-IR

Exit2-IR

IR-Scan

Exit1-IR

Shift-IR

Select-

6117 drw38

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OCTOBER 22, 2008

72V36110L6PF IDT, 72V36110L6PF Datasheet - Page 45

72V36110L6PF

Specifications of 72V36110L6PF

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