ispPAC-POWR6AT6-01SN32I Lattice, ispPAC-POWR6AT6-01SN32I Datasheet - Page 17

ispPAC-POWR6AT6-01SN32I

Manufacturer Part Number

ispPAC-POWR6AT6-01SN32I

Description

Supervisory Circuits Prec Prog Pwr Supply Seq Mon Trim IND

Manufacturer

Lattice

Series

ispPAC®r

Datasheet

1.ISPPAC-POWR6AT6-01SN32I.pdf (35 pages)

Specifications of ispPAC-POWR6AT6-01SN32I

Number Of Voltages Monitored

Monitored Voltage

Adjustable

Undervoltage Threshold

Adjustable

Overvoltage Threshold

Adjustable

Manual Reset

Not Resettable

Watchdog

No Watchdog

Supply Voltage (max)

3.96 V

Supply Voltage (min)

2.8 V

Supply Current (typ)

10000 uA

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

QFNS-32

Minimum Operating Temperature

- 40 C

Applications

Power Supply Controller/Monitor

Voltage - Input

-0.3 V ~ 5.9 V

Voltage - Supply

2.8 V ~ 3.96 V

Current - Supply

10mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

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-POWR6AT6-01SN32I

Manufacturer:

LATTICE

Quantity:

560

Current page: 17 of 35
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Lattice Semiconductor

trim will begin and CLTLOCK/SMBA will only reassert when the trim process is complete. Contents of the I

cltlock_status register (0x00), however are not fully reset to initial conditions until the CLTLOCK/SMBA pin achieves

a reasserted state.

CAUTION: Issuing a RESET command through I

results in the device aborting all operations and returning to the power-on reset state except for the one condition

mentioned above.

devices on a circuit board. The ispPAC-POWR6AT6 supports a 7-bit addressing of the I

col, as well as SMBTimeout and SMBAlert features of the SMBus, enabling it to easily integrated into many types

of modern power management systems. Figure 3-12 shows a typical I

PAC-POWR6AT6s are slaved to a supervisory microcontroller. SDA is used to carry data signals, while SCL pro-

vides a synchronous clock signal. The SMBAlert line is only present in SMBus systems. The 7-bit I

the POWR6AT6 is fully programmable through the JTAG port.

Figure 3-12. ispPAC-POWR6AT6 in I

In both the I

ter device generates the SCL clock signal and coordinates all data transfers to and from a number of slave devices.

The ispPAC-POWR6AT6 is conﬁgured as a slave device, and cannot independently coordinate data transfers.

Each slave device on a given I

addressing portion of the standard. Any 7-bit address can be assigned to the ispPAC-POWR6AT6 device by pro-

gramming through JTAG. When selecting a device address, one should note that several addresses are reserved

by the I

compatibility. Table 3-3 lists these reserved addresses.

C and SMBus are low-speed serial interface protocols designed to enable communications among a number of

C/SMBUS Interface

C and/or SMBus standards, and should not be assigned to ispPAC-POWR6AT6 devices to assure bus

SDA

V+

C and SMBus protocols, the bus is controlled by a single MASTER device at any given time. This mas-

MICROPROCESSOR

SCL

C MASTER)

INTERRUPT

C bus is assigned a unique address. The ispPAC-POWR6AT6 implements the 7-bit

SDA/SMDAT (DATA)

SCL/SMCLK (CLOCK)

SMBALERT

C/SMBUS System

SDA

ispPAC-POWR6AT6

C or JTAG during the ispPAC-POWR6AT6 device operation,

3-17

C SLAVE)

SCL

OUT5/

SMBA

C conﬁguration, in which one or more isp-

ispPAC-POWR6AT6 Data Sheet

SDA

ispPAC-POWR6AT6

C SLAVE)

SCL

C communications proto-

OUT5/

SMBA

To Other

Devices

C address of

ispPAC-POWR6AT6-01SN32I Lattice, ispPAC-POWR6AT6-01SN32I Datasheet - Page 17

ispPAC-POWR6AT6-01SN32I

Specifications of ispPAC-POWR6AT6-01SN32I

Available stocks

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