PIC16(L)F18325/18345 Family Silicon Errata and Data Sheet Clarification

PIC16(L)F18325/18345
PIC16(L)F18325/18345 Family
Silicon Errata and Data Sheet Clarification
The PIC16(L)F18325/18345 family devices that you
have received conform functionally to the current
Device Data Sheet (DS40001795B), except for the
anomalies described in this document.
For example, to identify the silicon revision level
using MPLAB IDE in conjunction with a hardware
debugger:
1.
The silicon issues discussed in the following pages are
for silicon revisions with the Device and Revision IDs
listed in Table 1. The silicon issues are summarized in
Table 2.
2.
3.
The errata described in this document will be addressed
in future revisions of the PIC16(L)F18325/18345 silicon.
4.
Note:
This document summarizes all silicon
errata issues from all revisions of silicon,
previous as well as current. Only the
issues indicated in the last column of
Table 2 apply to the current silicon
revision (A5).
Data Sheet clarifications and corrections start on page
4, following the discussion of silicon issues.
The silicon revision level can be identified using the
current version of MPLAB® IDE and Microchip’s
programmers, debuggers, and emulation tools, which
are available at the Microchip corporate web site
(www.microchip.com).
TABLE 1:
5.
Using the appropriate interface, connect the
device to the hardware debugger.
Open an MPLAB IDE project.
Configure the MPLAB IDE project for the
appropriate device and hardware debugger.
Based on the version of MPLAB IDE you are
using, do one of the following:
a) For MPLAB IDE 8, select Programmer >
Reconnect.
b) For MPLAB X IDE, select Window >
Dashboard and click the Refresh Debug
Tool Status icon (
).
Depending on the development tool used, the
part number and Device Revision ID value
appear in the Output window.
Note:
If you are unable to extract the silicon
revision level, please contact your local
Microchip sales office for assistance.
The DEVREV values for the various PIC16(L)F18325/
18345 silicon revisions are shown in Table 1.
SILICON DEVREV VALUES
Part Number
Device
ID(1)
Revision ID for Silicon Revision(2)
A4
A5
PIC16F18325
303Eh
2004h
2005h
PIC16LF18325
3040h
2004h
2005h
PIC16F18345
303Fh
2004h
2005h
PIC16LF18345
3041h
2004h
2005h
Note 1:
2:
The Device IDs (DEVID and DEVREV) are located at addresses 8006h and
8005h, respectively. They are shown in hexadecimal in the format “DEVID
DEVREV”.
Refer to the “PIC16(L)F183XX Memory Programming Specification”
(DS40001738) for detailed information on Device and Revision IDs for your
specific device.
 2015 Microchip Technology Inc.
DS80000668C-page 1
PIC16(L)F18325/18345
TABLE 2:
SILICON ISSUE SUMMARY
Module
Oscillators
Note 1:
Feature
Fail-Safe Clock
Monitor (FSCM)
Item
Number
1.1
Affected
Revisions
Issue Summary
The FSCM may fail to trigger.
A4
A5
X
X
Only those issues indicated in the last column apply to the current silicon revision.
DS80000668C-page 2
 2015 Microchip Technology Inc.
PIC16(L)F18325/18345
Silicon Errata Issues
Note:
This document summarizes all silicon
errata issues from all revisions of silicon,
previous as well as current. Only the
issues indicated by the shaded column in
the following tables apply to the current
silicon revision (A5).
1. Module: Oscillators
1.1 Fail-Safe Clock Monitor (FSCM)
The Fail-Safe Clock Monitor may fail to trigger
with the loss of the external clock signal when
the 4x PLL is enabled. This includes all external
clock modes, LP, XT, HS, ECL, ECM and ECH.
Work around
None.
Affected Silicon Revisions
A4
A5
X
X
 2015 Microchip Technology Inc.
DS80000668C-page 3
PIC16(L)F18325/18345
Data Sheet Clarifications
The following typographic corrections and clarifications
are to be noted for the latest version of the device data
sheet (DS40001795A):
Note:
Corrections are shown in bold. Where
possible, the original bold text formatting
has been removed for clarity.
1. Module: CCP
In Section 28.3, a note box will be added as
follows:
Note:
When the CCP is configured in Compare mode using the ‘toggle output on match’ setting
(CCPxMODE<3:0> bits = 0010) and the reference timer is set for an input clock prescale other than 1:1,
the output of the CCP will toggle multiple times until finally settling a ‘0’ logic level. To avoid this, the timer
input clock prescale select bits must be set to a 1:1 ratio (TxCKPS = 00).
2. Module: Oscillators
In Section 6.5, the HFINTOSC Frequency
Selection Register (OSCFRQ) will be modified
as follows:
REGISTER 6-6:
OSCFRQ: HFINTOSC FREQUENCY SELECTION REGISTER
U-0
U-0
U-0
U-0
—
—
—
—
R/W-0/0
R/W-1/1
R/W-1/1
R/W-0/0
HFFRQ<3:0>
bit 7
bit 0
Legend:
R = Readable bit
W = Writable bit
U = Unimplemented bit, read as ‘0’
u = Bit is unchanged
x = Bit is unknown
-n/n = Value at POR and BOR/Value at all other Resets
‘1’ = Bit is set
‘0’ = Bit is cleared
bit 7-4
Unimplemented: Read as ‘0’.
bit 3-0
HFFRQ<3:0>: HFINTOSC Frequency Selection bits
DS80000668C-page 4
HFFRQ<3:0>
Nominal Freq. (MHz)
(NOSC = 110)
0000
0001
0010
0011
0100
0101
0110
0111
1xxx
1
2
Reserved
4
8
12
16
32
32
2xPLL Freq. (MHz)
(NOSC = 000)
Reserved
16
24
32
Reserved
Reserved
 2015 Microchip Technology Inc.
PIC16(L)F18325/18345
3. Module: Resets
In Section 5.12, Bit 6 of the Brown-out Reset
Control Register (BORCON) will be modified as
follows:
REGISTER 5-1:
BORCON: BROWN-OUT RESET CONTROL REGISTER
R/W-1/u
R/W-0/0
U-0
U-0
U-0
U-0
U-0
R-q/u
SBOREN(1)
Reserved
—
—
—
—
—
BORRDY
bit 7
bit 0
Legend:
R = Readable bit
W = Writable bit
U = Unimplemented bit, read as ‘0’
u = Bit is unchanged
x = Bit is unknown
-n/n = Value at POR and BOR/Value at all other Resets
‘1’ = Bit is set
‘0’ = Bit is cleared
q = Value depends on condition
bit 7
SBOREN: Software Brown-out Reset Enable bit(1)
If BOREN <1:0> in Configuration Words  01:
SBOREN is read/write, but has no effect on the BOR.
If BOREN <1:0> in Configuration Words = 01:
1 = BOR Enabled
0 = BOR Disabled
bit 6
Reserved. Bit must be maintained as ‘0’.
bit 5-1
Unimplemented: Read as ‘0’.
bit 0
BORRDY: Brown-out Reset Circuit Ready Status bit
1 = The Brown-out Reset circuit is active
0 = The Brown-out Reset circuit is inactive
Note 1:
BOREN<1:0> bits are located in Configuration Words.
 2015 Microchip Technology Inc.
DS80000668C-page 5
PIC16(L)F18325/18345
4. Module: Power-Saving Operation
In Section 8.3, Bit 0 of the Voltage Regulator
Control Register (VREGCON) will be modified
as follows:
REGISTER 8-1:
VREGCON: VOLTAGE REGULATOR CONTROL REGISTER(1)
U-0
U-0
U-0
U-0
U-0
U-0
R/W-0/0
R/W-1/1
—
—
—
—
—
—
VREGPM
Reserved
bit 7
bit 0
Legend:
R = Readable bit
W = Writable bit
U = Unimplemented bit, read as ‘0’
u = Bit is unchanged
x = Bit is unknown
-n/n = Value at POR and BOR/Value at all other Resets
‘1’ = Bit is set
‘0’ = Bit is cleared
bit 7-2
Unimplemented: Read as ‘0’
bit 1
VREGPM: Voltage Regulator Power Mode Selection bit
1 = Low-Power Sleep mode enabled in Sleep(2)
Draws lowest current in Sleep, slower wake-up
0 = Normal-Power mode enabled in Sleep(2)
Draws higher current in Sleep, faster wake-up
bit 0
Reserved: Read as ‘1’. Maintain this bit set.
Note 1:
2:
PIC16F18325/18345 only.
See Section 34.0 “Electrical Specifications”.
DS80000668C-page 6
 2015 Microchip Technology Inc.
PIC16(L)F18325/18345
5. Module: Electrical Specifications
In Section 34, Table 34-11: Reset, Watchdog
Timer, Oscillator Start-up Timer, Power-up
Timer, Brown-out Reset and Low-Power Brownout Reset Specifications, will be modified as
follows:
TABLE 34-11: RESET, WATCHDOG TIMER, OSCILLATOR START-UP TIMER, POWER-UP TIMER,
BROWN-OUT RESET AND LOW POWER BROWN-OUT RESET SPECIFICATIONS
Standard Operating Conditions (unless otherwise stated)
Param.
No.
Sym.
Characteristic
Min.
Typ.† Max. Units
RST01
TMCLR
MCLR Pulse Width Low to
ensure Reset
2
—
—
s
RST02
TIOZ
I/O high-impedance from
Reset detection
—
—
2
s
RST03
TWDT
Watchdog Timer Time-out
Period
10
16
27
ms
RST04* TPWRT
Power-up Timer Period
40
65
140
ms
RST05
TOST
Oscillator Start-up Timer
Period(1,2)
—
1024
—
RST06
VBOR
Brown-out Reset Voltage(4)
2.55
2.30
1.80
2.70
2.45
1.90
2.85
2.60
2.10
V
V
V
RST07
VBORHYS
Brown-out Reset Hysteresis
0
25
75
mV
RST08
TBORDC
Brown-out Reset Response
Time
1
3
35
s
RST09
VLPBOR
Low-Power Brown-out Reset
Voltage
1.8
2.1
2.5
V
*
†
Note 1:
2:
3:
4:
Conditions
16 ms Nominal Reset Time
TOSC (Note3)
BORV = 0
BORV = 1 (PIC16F18325/18345)
BORV = 1 (PIC16LF18325/18345)
PIC16LF18325/18345
These parameters are characterized but not tested.
Data in “Typ.” column is at 3.0V, 25°C unless otherwise stated. These parameters are for design guidance
only and are not tested.
Instruction cycle period (TCY) equals four times the input oscillator time base period. All specified values
are based on characterization data for that particular oscillator type under standard operating conditions
with the device executing code. Exceeding these specified limits may result in an unstable oscillator operation and/or higher than expected current consumption. All devices are tested to operate at “min” values
with an external clock applied to the OSC1 pin. When an external clock input is used, the “max” cycle time
limit is “DC” (no clock) for all devices.
By design.
Period of the slower clock.
To ensure these voltage tolerances, VDD and VSS must be capacitively decoupled as close to the device as
possible. 0.1 F and 0.01 F values in parallel are recommended.
 2015 Microchip Technology Inc.
DS80000668C-page 7
PIC16(L)F18325/18345
APPENDIX A:
DOCUMENT
REVISION HISTORY
Rev A Document (09/2015)
Initial release of this document.
Rev B Document (09/2015)
Data Sheet Clarifications:
Revised Module 2: Oscillators (modified Register 6-6);
Added Module 4: Power-Saving Operation (modified
Register 8.1); Added Module 5: Electrical Specifications (modified Table 34-11).
Rev C Document (11/2015)
Added silicon revision A5.
DS80000668C-page 8
 2015 Microchip Technology Inc.
Note the following details of the code protection feature on Microchip devices:
•
Microchip products meet the specification contained in their particular Microchip Data Sheet.
•
Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the
intended manner and under normal conditions.
•
There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our
knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data
Sheets. Most likely, the person doing so is engaged in theft of intellectual property.
•
Microchip is willing to work with the customer who is concerned about the integrity of their code.
•
Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not
mean that we are guaranteeing the product as “unbreakable.”
Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of our
products. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts
allow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.
Information contained in this publication regarding device
applications and the like is provided only for your convenience
and may be superseded by updates. It is your responsibility to
ensure that your application meets with your specifications.
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Trademarks
The Microchip name and logo, the Microchip logo, dsPIC,
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The Embedded Control Solutions Company and mTouch are
registered trademarks of Microchip Technology Incorporated
in the U.S.A.
Analog-for-the-Digital Age, BodyCom, chipKIT, chipKIT logo,
CodeGuard, dsPICDEM, dsPICDEM.net, ECAN, In-Circuit
Serial Programming, ICSP, Inter-Chip Connectivity, KleerNet,
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Certified logo, MPLIB, MPLINK, MultiTRAK, NetDetach,
Omniscient Code Generation, PICDEM, PICDEM.net, PICkit,
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SQTP is a service mark of Microchip Technology Incorporated
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All other trademarks mentioned herein are property of their
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© 2015, Microchip Technology Incorporated, Printed in the
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ISBN: 978-1-63277-946-5
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CERTIFIED BY DNV
== ISO/TS 16949 ==
 2015 Microchip Technology Inc.
Microchip received ISO/TS-16949:2009 certification for its worldwide
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are for its PIC® MCUs and dsPIC® DSCs, KEELOQ® code hopping
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DS80000668C-page 9
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DS80000668C-page 10
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