ISPPAC-POWR1208-01T44E Lattice, ISPPAC-POWR1208-01T44E Datasheet - Page 25
ISPPAC-POWR1208-01T44E
Manufacturer Part Number
ISPPAC-POWR1208-01T44E
Description
Supervisory Circuits PROGRAMMABLE PWR SUPPLY CONTR
Manufacturer
Lattice
Datasheet
1.ISPPAC-POWR1208-01T44I.pdf
(34 pages)
Specifications of ISPPAC-POWR1208-01T44E
Number Of Voltages Monitored
12
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
Maximum Operating Temperature
+ 125 C
Mounting Style
SMD/SMT
Package / Case
TQFP-100
Minimum Operating Temperature
- 40 C
Factory Pack Quantity
800
Supply Current (typ)
15000 uA
Supply Voltage - Min
2.25 V
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ISPPAC-POWR1208-01T44E
Manufacturer:
Lattice Semiconductor Corporation
Quantity:
10 000
Lattice Semiconductor
ADDCFG – This instruction is used to set the address of the CFG array for subsequent program or read operations.
This instruction also forces the outputs into the SAFESTATE.
DATACFG – This instruction is used to shift data into the CFG register prior to programming or reading. This
instruction also forces the outputs into the SAFESTATE.
ERASECFG – This instruction will bulk erase the CFG array. The action occurs at the second rising edge of TCK in
Run-Test-Idle JTAG state. The device must already be in programming mode (PROGRAMEN instruction). This
instruction also forces the outputs into the SAFESTATE.
PROGCFG – This instruction programs the selected CFG array column. This specific column is preselected by
using ADDCFG 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 (PROGRAMEN instruction). This instruction also forces
the outputs into the SAFESTATE.
READCFG – This instruction is used to read the content of the selected CFG array column. This specific column is
preselected by using ADDCFG instruction. This instruction also forces the outputs into the SAFESTATE.
CFGBE – This instruction will bulk erase all E
The device must already be in programming mode (PROGRAMEN instruction). This instruction also forces the out-
puts into the SAFESTATE.
SAFESTATE – This instruction turns off all of the open-drain output transistors. Pins that are programmed as FET
drivers will be placed in the active low state. This instruction is effective after Update-Instruction-Register JTAG
state.
PROGRAMEN – This instruction enables the programming mode of the ispPAC-POWR1208. This instruction also
forces the outputs into the SAFESTATE.
IDCODE – This instruction connects the output of the Identification Code Data Shift (IDCODE) Register to TDO
(Figure 13), to support reading out the identification code.
Figure 13. IDCODE Register
PROGRAMDIS – This instruction disables the programming mode of the ispPAC-POWR1208. The Test-Logic-
Reset JTAG state can also be used to cancel the programming mode of the ispPAC-POWR1208.
ADDSTATUS – This instruction is used to both connect the status register to TDO (Figure 14) and latch the 12 volt-
age monitor (comparator outputs) into the status register. Latching of the 12 comparator outputs into the status reg-
ister occurs during Capture-Data-Register JTAG state.
Figure 14. Status Register
ERASEUES – This instruction will bulk erase the content of the UES E
be in programming mode (PROGRAMEN instruction). This instruction also forces the outputs into the SAFESTATE.
SHIFTUES – This instruction both reads the E
between the TDI and TDO pins (as shown in Figure U), to support programming or reading of the user electronic
signature bits.
VMON
Bit
31
1
VMON
Bit
30
2
VMON
Bit
29
3
VMON
Bit
28
4
VMON
Bit
27
5
2
CMOS bits (CFG, PLD, UES, and ESF) in the ispPAC-POWR1208.
VMON
2
6
CMOS bits into the UES register and places the UES register
VMON
25
7
VMON
Bit
4
8
VMON
2
CMOS memory. The device must already
Bit
3
9
ispPAC-POWR1208 Data Sheet
VMON
Bit
10
2
VMON
Bit
11
1
VMON
Bit
12
0
TDO
TDO
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