Document en anglais sur La différence fonctionnelle et Les différences de spécification électriques.
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ã 1999 Microchip Technology Inc. DS30472A-page 1
DEVICE MIGRATIONS
This document is intended to describe the functional differences and the electrical specification differences that are
present when migrating from one device to the next. Table 1-1 shows functional differences, while Table 1-2 shows electrical
and timing differences.
TABLE 1: PIC16C72 ® PIC16C72A FUNCTIONAL DIFFERENCES
Note: Even though compatible devices are specified to be tested to the same electrical specification, the device
characteristics may be different from each other (due to process differences). For systems that were
designed to the device specifications, these process differences should not cause any issues in the application.
For systems that did not tightly meet the electrical specifications, the process differences may cause
the device to behave differently in the application.
Note: While there are no functional or electrical changes to the device oscillator specifications, the user should
verify that the device oscillator starts and performs as expected. Adjusting the loading capacitor values and/
or the oscillator mode may be required.
No. Module Differences from PIC16C72 H/W S/W Prog.
7 SSP Supports all four SPI modes. (Now uses SSP vs BSSP module.)
See SSP module in the PICmicro® Mid-Range Reference Manual,
(DS33023A).
— Yes —
Legend: H/W - Issues may exist with regard to the application circuits.
S/W - Issues may exist with regard to the user program.
Prog - Issues may exist when writing the program to the controller.
PIC16C72 ® PIC16C72A Migration
DS30472A-Page 2 Ó 1999 Microchip Technology Inc.
TABLE 2: PIC16C72 ® PIC16C72A SPECIFICATION DIFFERENCES
Param
No.
Symbol Characteristic
PIC16C72 PIC16C72A
Unit
Min Typ† Max Min Typ† Max
Core
D005 VBOR Brown-out Reset Voltage 3.7 4.0 4.3 3.65 — 4.35 V
D022 DIWDT Watchdog Module Differential Current — — — — 6.0 20 mA
D023/
D022A
DIBOR Brown-Out Detect Module Differential
Current
—
—
350
—
425
—
—
—
—
TBD
—
200
mA
mA
D150† VOD Open-Drain High Voltage on RA4 — — 14.0 — — 8.5 V
A/D Converter
130 TAD A/D Clock Period
A/D RC clock mode
PIC16LCXX 2.5 6.0 9.0 3.0 6.0 9.0 mS
131 TCNV Conversion time(2)
(not including S/H time)
— 9.5(3) — 11(4) — 11(4) TAD
SSP in SPI mode
71 TscH SCK input high time
(slave mode)
Continuous TCY
+ 20
— — 1.25TCY
+ 30
— — ns
71A Single Byte 40 — — ns
72 TscL SCK input low time
(slave mode)
Continuous TCY
+ 20
— — 1.25TCY
+ 30
— — ns
72A Single Byte 40 — — ns
73 TdiV2scH,
TdiV2scL
Setup time of SDI data input to SCK
edge
50 — — 100 — — ns
73A(5) TB2B Last clock edge of Byte1 to the 1st
clock edge of Byte2
— — — 1.5TCY
+ 40
— — ns
74 TscH2diL,
TscL2diL
Hold time of SDI data input to SCK
edge
50 — — 100 — — ns
75 TdoR SDO data output rise
time
PIC16CXX — 10 25 — 10 25 ns
PIC16LCXX — 20 45 ns
78 TscR SCK output rise time
(master mode)
PIC16CXX — 10 25 — 10 25 ns
PIC16LCXX — 20 45 ns
80 TscH2doV,
TscL2doV
SDO data output
valid after SCK edge
PIC16CXX — — 50 — — 50 ns
PIC16LCXX
...