MCP1631RD-MCC1 Microchip Technology, MCP1631RD-MCC1 Datasheet - Page 162

MCP1631RD-MCC1

Manufacturer Part Number

MCP1631RD-MCC1

Description

REFERENCE DESIGN FOR MCP1631HV

Manufacturer

Microchip Technology

Type

Battery Managementr

Datasheets

1.MCP1631VHVT-330EST.pdf (34 pages)

2.MCP1631HV-330EST.pdf (54 pages)

3.MCP1631RD-MCC2.pdf (20 pages)

4.MCP1631RD-MCC2.pdf (328 pages)

5.MCP1631RD-MCC1.pdf (28 pages)

Specifications of MCP1631RD-MCC1

Main Purpose

Power Management, Battery Charger

Embedded

Yes, MCU, 8-Bit

Utilized Ic / Part

MCP1631HV, PIC16F883

Primary Attributes

1 ~ 2 Cell- Li-Ion, 1 ~ 4 Cell- NiCd/NiMH

Secondary Attributes

Status LEDs

Supported Devices

MCP1631HV, PIC16F883 Device Type

Tool / Board Applications

Power Management-Battery Management

Development Tool Type

Reference Design

Input Voltage

5.5 V to 16 V

Product

Power Management Modules

Mcu Supported Families

MCP1631HV/PIC16F883 Family

Silicon Manufacturer

Microchip

Silicon Core Number

MCP1631HV

Kit Application Type

Reference Design

Application Sub Type

Battery Charger

Kit Contents

Board Only

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

MCP1631HV, PIC16F883

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 162 of 328
Download datasheet (6Mb)

PIC16F882/883/884/886/887

12.2

The factory calibrates the Internal Oscillator block out-

put (INTOSC). However, the INTOSC frequency may

drift as V

affects the asynchronous baud rate. Two methods may

be used to adjust the baud rate clock, but both require

a reference clock source of some kind.

DS41291F-page 160

bit 7

Legend:

R = Readable bit

-n = Value at POR

bit 7

bit 6

bit 5

bit 4

bit 3

bit 2

bit 1

bit 0

Note 1:

R/W-0

CSRC

Clock Accuracy with

Asynchronous Operation

SREN/CREN overrides TXEN in Sync mode.

or temperature changes, and this directly

CSRC: Clock Source Select bit

Asynchronous mode:

Don’t care

Synchronous mode:

1 =

0 =

TX9: 9-bit Transmit Enable bit

1 =

0 =

TXEN: Transmit Enable bit

1 = Transmit enabled

0 = Transmit disabled

SYNC: EUSART Mode Select bit

1 = Synchronous mode

0 = Asynchronous mode

SENDB: Send Break Character bit

Asynchronous mode:

1 = Send Sync Break on next transmission (cleared by hardware upon completion)

0 = Sync Break transmission completed

Synchronous mode:

Don’t care

BRGH: High Baud Rate Select bit

Asynchronous mode:

1 = High speed

0 = Low speed

Synchronous mode:

Unused in this mode

TRMT: Transmit Shift Register Status bit

1 = TSR empty

0 = TSR full

TX9D: Ninth bit of Transmit Data

Can be address/data bit or a parity bit.

R/W-0

TX9

Master mode (clock generated internally from BRG)

Slave mode (clock from external source)

Selects 9-bit transmission

Selects 8-bit transmission

TXSTA: TRANSMIT STATUS AND CONTROL REGISTER

W = Writable bit

‘1’ = Bit is set

TXEN

R/W-0

(1)

R/W-0

SYNC

U = Unimplemented bit, read as ‘0’

‘0’ = Bit is cleared

SENDB

R/W-0

The first (preferred) method uses the OSCTUNE

value in the OSCTUNE register allows for fine resolution

changes to the system clock source. See Section 4.5

“Internal Clock Modes” for more information.

The other method adjusts the value in the Baud Rate

Generator. This can be done automatically with the

Auto-Baud Detect feature (see Section 12.3.1 “Auto-

Baud Detect”). There may not be fine enough

resolution when adjusting the Baud Rate Generator to

compensate for a gradual change in the peripheral

clock frequency.

BRGH

R/W-0

x = Bit is unknown

TRMT

R-1

R/W-0

TX9D

bit 0

MCP1631RD-MCC1 Microchip Technology, MCP1631RD-MCC1 Datasheet - Page 162

MCP1631RD-MCC1

Specifications of MCP1631RD-MCC1

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