ISPPAC-POWR604-01T44I Lattice, ISPPAC-POWR604-01T44I Datasheet - Page 17

ISPPAC-POWR604-01T44I

Manufacturer Part Number

ISPPAC-POWR604-01T44I

Description

Supervisory Circuits 5V 8 Macro Cell

Manufacturer

Lattice

Datasheet

1.ISPPAC-POWR604-01TN44I.pdf (29 pages)

Specifications of ISPPAC-POWR604-01T44I

Number Of Voltages Monitored

Monitored Voltage

Adjustable

Undervoltage Threshold

1.03 V

Overvoltage Threshold

5.72 V

Manual Reset

Not Resettable

Watchdog

No Watchdog

Supply Voltage (max)

5.5 V

Supply Voltage (min)

2.25 V

Supply Current (typ)

10000 uA

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

PQFP-100

Minimum Operating Temperature

- 40 C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Figure 7. TAP Registers

TAP Controller Speciﬁcs

The TAP is controlled by the Test Clock (TCK) and Test Mode Select (TMS) inputs. These inputs determine whether

an Instruction Register or Data Register operation is performed. Driven by the TCK input, the TAP consists of a

small 16-state controller. In a given state, the controller responds according to the level on the TMS input as shown

in Figure 8. Test Data In (TDI) and TMS are latched on the rising edge of TCK, with Test Data Out (TDO) becoming

valid on the falling edge of TCK. There are six steady states within the controller: Test-Logic-Reset, Run-Test/Idle,

Shift-Data-Register, Pause-Data-Register, Shift-Instruction-Register, and Pause-Instruction-Register. But there is

only one steady state for the condition when TMS is set high: the Test-Logic-Reset state. This allows a reset of the

test logic within ﬁve TCKs or less by keeping the TMS input high. Test-Logic-Reset is the power-on default state.

When the correct logic sequence is applied to the TMS and TCK inputs, the TAP will exit the Test-Logic-Reset state

and move to the desired state. The next state after Test-Logic-Reset is Run-Test/Idle. Until a data or instruction

scan is performed, no action will occur in Run-Test/Idle (steady state = idle). After Run-Test/Idle, either a data or

instruction scan is performed. The states of the Data and Instruction Register blocks are identical to each other dif-

fering only in their entry points. When either block is entered, the ﬁrst action is a capture operation. For the Data

Registers, the Capture-DR state is very simple; it captures (parallel loads) data onto the selected serial data path

(previously chosen with the appropriate instruction). For the Instruction Register, the Capture-IR state will always

load the IDCODE instruction. It will always enable the ID Register for readout if no other instruction is loaded prior

TDI

ANALOG COMPARATOR ARRAY (6 bits)

PLD ADDRESS REGISTER (43 bits)

CFG ADDRESS REGISTER (4 bits)

INSTRUCTION REGISTER (6 bits)

TEST ACCESS PORT

PLD DATA REGISTER (41 bits)

TCK

STATUS REGISTER (6 bits)

IDCODE REGISTER (32 bits)

BYPASS REGISTER (1 bit)

UES REGISTER (16 bits)

CFG REGISTER (17 bits)

(TAP) LOGIC

TMS

OUTPUT

LATCH

TDO

ispPAC-POWR604 Data Sheet

CONFIGURATION

NON-VOLATILE

AND / ARCH

(1763 bits)

MEMORY

ANALOG

(68 bits)

PLD

ISPPAC-POWR604-01T44I Lattice, ISPPAC-POWR604-01T44I Datasheet - Page 17

ISPPAC-POWR604-01T44I

Specifications of ISPPAC-POWR604-01T44I

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