ISPPAC-POWR1014_08 Datasheet, PDF(39/46 Page) Lattice Semiconductor – In-System Programmable Power Supply Supervisor, Reset Generator and Sequencing Controller

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ISPPAC-POWR1014_08 Datasheet, PDF (39/46 Pages) Lattice Semiconductor – In-System Programmable Power Supply Supervisor, Reset Generator and Sequencing Controller

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Lattice Semiconductor

ispPAC-POWR1014/A Data Sheet

ispPAC-POWR1014/A has no boundary scan logic, the device is put in the BYPASS mode to ensure speciï¬cation

compatibility. The bit code of this instruction is deï¬ned by the 1149.1 standard to be all zeros (00000000).

The optional IDCODE (identiï¬cation code) instruction is incorporated in the ispPAC-POWR1014/A and leaves it in

its functional mode when executed. It selects the Device Identiï¬cation Register to be connected between TDI and

TDO. The Identiï¬cation Register is a 32-bit shift register containing information regarding the IC manufacturer,

device type and version code (Figure 2-32). Access to the Identiï¬cation Register is immediately available, via a

TAP data scan operation, after power-up of the device, or by issuing a Test-Logic-Reset instruction. The bit code for

this instruction is deï¬ned by Lattice as shown in Table 2-11.

Figure 2-32. ispPAC-POWR1014/A ID Code

MSB

LSB

0001 0000 0001 0100 0101 / 0000 0100 001 / 1

0000 0000 0001 0100 0101 / 0000 0100 001 / 1

(ispPAC-POWR1014)

(ispPAC-POWR1014A)

Part Number

(20 bits)

00145h = ispPAC-POWR1014A

10145h = ispPAC-POWR1014

JEDEC Manufacturer

Identity Code for

Lattice Semiconductor

(11 bits)

Constant 1

(1 bit)

per 1149.1-1990

ispPAC-POWR1014/A Speciï¬c Instructions

There are 25 unique instructions speciï¬ed by Lattice for the ispPAC-POWR1014/A. These instructions are primarily

used to interface to the various user registers and the E2CMOS non-volatile memory. Additional instructions are

used to control or monitor other features of the device. A brief description of each unique instruction is provided in

detail below, and the bit codes are found in Table 2-11.

PLD_ADDRESS_SHIFT â This instruction is used to set the address of the PLD AND/ARCH arrays for subsequent

program or read operations. This instruction also forces the outputs into the OUTPUTS_HIGHZ.

PLD_DATA_SHIFT â This instruction is used to shift PLD data into the register prior to programming or reading.

This instruction also forces the outputs into the OUTPUTS_HIGHZ.

PLD_INIT_ADDR_FOR_PROG_INCR â This instruction prepares the PLD address register for subsequent

PLD_PROG_INCR or PLD_VERIFY_INCR instructions.

PLD_PROG_INCR â This instruction programs the PLD data register for the current address and increments the

address register for the next set of data.

PLD_PROGRAM â This instruction programs the selected PLD AND/ARCH array column. The speciï¬c column is

preselected by using PLD_ADDRESS_SHIFT instruction. The programming occurs at the second rising edge of

the TCK in Run-Test-Idle JTAG state. The device must already be in programming mode (PROGRAM_ENABLE

instruction). This instruction also forces the outputs into the OUTPUTS_HIGHZ.

PROGRAM_SECURITY â This instruction is used to program the electronic security fuse (ESF) bit. Programming

the ESF bit protects proprietary designs from being read out. The programming occurs at the second rising edge of

the TCK in Run-Test-Idle JTAG state. The device must already be in programming mode (PROGRAM_ENABLE

instruction). This instruction also forces the outputs into the OUTPUTS_HIGHZ.

PLD_VERIFY â This instruction is used to read the content of the selected PLD AND/ARCH array column. This

speciï¬c column is preselected by using PLD_ADDRESS_SHIFT instruction. This instruction also forces the outputs

into the OUTPUTS_HIGHZ.

2-39

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