ispPAC-POWR1220AT8-02TN100I Lattice, ispPAC-POWR1220AT8-02TN100I Datasheet - Page 20

Current & Power Monitors & Regulators Prec. Power Supply Seq. Monitor Marg.

ispPAC-POWR1220AT8-02TN100I

Manufacturer Part Number

ispPAC-POWR1220AT8-02TN100I

Description

Current & Power Monitors & Regulators Prec. Power Supply Seq. Monitor Marg.

Manufacturer

Lattice

Series

ispPAC®r

Datasheet

1.ISPPAC-POWR1220AT8-02TN100I.pdf (54 pages)

Specifications of ispPAC-POWR1220AT8-02TN100I

Mounting Style

SMD/SMT

Supply Voltage (max)

3.96 V

Supply Voltage (min)

2.8 V

Package / Case

TQFP-100

Applications

General Purpose

Voltage - Input

-0.3 V ~ 5.9 V

Voltage - Supply

2.8 V ~ 3.96 V

Current - Supply

40mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISPPAC-POWR1220AT8-02TN100I

Manufacturer:

Lattice

Quantity:

226

Company:

BOSTOCK HK LIMITED

Part Number:

ISPPAC-POWR1220AT8-02TN100I

Manufacturer:

Lattice Semiconductor Corporation

Quantity:

10 000

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Lattice Semiconductor

VMON Voltage Measurement with the On-chip Analog to Digital Converter (ADC)

The ispPAC-POWR1220 has an on-chip analog to digital converter that can be used for measuring the voltages at

the VMON inputs. The ADC is also used in closed loop trimming of DC-DC converters. Close loop trimming is cov-

ered later in this document.

Figure 1-9. ADC Monitoring VMON1 to VMON12

Figure 1-9 shows the ADC circuit arrangement within the ispPAC-POWR1220AT8 device. The ADC can measure

all analog input voltages through the multiplexer, ADC MUX. The programmable attenuator between the ADC mux

and the ADC can be configured as divided-by-3 or divided-by-1 (no attenuation). The divided-by-3 setting is used to

measure voltages from 0V to 6V range and divided-by-1 setting is used to measure the voltages from 0V to 2V

range.

A microcontroller can place a request for any VMON voltage measurement at any time through the I

the receipt of an I

ADC output is then latched into the I

Calculation

The algorithm to convert the ADC code to the corresponding voltage takes into consideration the attenuation bit

value. In other words, if the attenuation bit is set, then the 10-bit ADC result is automatically multiplied by 3 to cal-

culate the actual voltage at that V

ing formula can always be used to calculate the actual voltage from the ADC code.

Voltage at the VMONx Pins

Note: ADC_VALUE_HIGH (8 bits), ADC_VALUE_LOW (4 bits) read from I

VMON = ADC code (12 bits

VMON12

VDDINP

VMON1

VMON2

VMON3

VDDA

C command, the ADC will be connected to the I

From Closed

Loop Trim

ADC

MUX

Circuit

, converted to decimal) * 2mV

MON

C readout registers.

input. Thus, the I

Programmable

ADC MUX

Attenuator

From I

Analog

Control Signal

1-20

Internal

C readout register is 12 bits instead of 10 bits. The follow-

C/SMBUS interface

ADC

Internal

2.048V

VREF-

C selected VMON through the ADC MUX. The

ispPAC-POWR1220AT8 Data Sheet

Programmable

Multiplier

Digital

To Closed

Loop Trim

Readout

To I

Circuit

C bus. Upon

ispPAC-POWR1220AT8-02TN100I Lattice, ispPAC-POWR1220AT8-02TN100I Datasheet - Page 20

ispPAC-POWR1220AT8-02TN100I

Specifications of ispPAC-POWR1220AT8-02TN100I

Available stocks

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