ispPAC-POWR607-01SN32I Lattice, ispPAC-POWR607-01SN32I Datasheet - Page 11

Supervisory Circuits Prec Prog Pwr Supply Seq Mon IND

ispPAC-POWR607-01SN32I

Manufacturer Part Number

ispPAC-POWR607-01SN32I

Description

Supervisory Circuits Prec Prog Pwr Supply Seq Mon IND

Manufacturer

Lattice

Type

Power Supply Sequencer and Monitorr

Series

ispPAC®r

Datasheet

1.ISPPAC-POWR607-01SN32I.pdf (28 pages)

Specifications of ispPAC-POWR607-01SN32I

Internal Hysteresis

Yes

Minimum Operating Temperature

- 40 C

Output Type

Open Collector / Drain

Power Fail Detection

Yes

Number Of Voltages Monitored

Monitored Voltage

Adj V

Undervoltage Threshold

Adj

Overvoltage Threshold

Adj

Manual Reset

Resettable

Watchdog

Yes

Power-up Reset Delay (typ)

100 us

Supply Voltage (max)

3.96 V

Supply Voltage (min)

2.64 V

Supply Current (typ)

3.5 mA

Mounting Style

SMD/SMT

Maximum Operating Temperature

+ 85 C

Package / Case

QFN-32

Applications

General Purpose

Voltage - Input

-0.3 V ~ 5.9 V

Voltage - Supply

2.64 V ~ 3.96 V

Current - Supply

3.5mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISPPAC-POWR607-01SN32I

Manufacturer:

LATTICE

Quantity:

284

Company:

Meier Automation Equipment Co., Limited

Part Number:

ISPPAC-POWR607-01SN32I

Manufacturer:

LATTICE

Quantity:

20 000

Current page: 11 of 28
Download datasheet (895Kb)

Lattice Semiconductor

Each comparator outputs a HIGH signal to the PLD array if the voltage at its positive terminal (VMONx pin) is

greater than its programmed trip point setting, otherwise it outputs a LOW signal.

A hysteresis of approximately 1% of the setpoint is provided by the comparators to reduce false triggering as a

result of input noise. The hysteresis provided by the voltage monitor is a function of the input divider setting.

Table 4-3 lists the typical hysteresis versus voltage monitor trip-point.

Programmable Over-Voltage and Under-Voltage Thresholds

Figure 4-9 (a) shows the power supply ramp-up and ramp-down voltage waveforms. Because of hysteresis, the

comparator outputs change state at different thresholds depending on the direction of excursion of the monitored

power supply.

Figure 4-9. (a) Power Supply Voltage Ramp-up and Ramp-down Waveform and the Resulting Comparator

Output, (b) Corresponding to Upper and Lower Trip Points

During power supply ramp-up the comparator output changes from logic 0 to 1 when the power supply voltage

crosses the upper trip point (UTP). During ramp down the comparator output changes from logic state 1 to 0 when

the power supply voltage crosses the lower trip point (LTP). To monitor for over voltage fault conditions, the UTP

should be used. To monitor under-voltage fault conditions, the LTP should be used.

Tables 1 and 2 show both the under-voltage and over-voltage trip points, which are automatically selected in soft-

ware depending on whether the user is monitoring for an over-voltage condition or an under-voltage condition.

Comparator Logic Output

UTP

4-11

LTP

ispPAC-POWR607 Data Sheet

(a)

(b)

ispPAC-POWR607-01SN32I Lattice, ispPAC-POWR607-01SN32I Datasheet - Page 11

ispPAC-POWR607-01SN32I

Specifications of ispPAC-POWR607-01SN32I

Available stocks

Related parts for ispPAC-POWR607-01SN32I