Do I need a header for debugging my PIC? - Header board specification:

Header Board Specification
WHY DO I NEED A HEADER TO DEBUG?
Some PIC® microcontrollers, particularly low pin count devices (with 20 pins or less),
generally must use a header for debugging. This is done to free up I/O lines for your
application and to make production parts more affordable. Optional headers are also
available for high pin count devices (with 64 pins or higher).
Debugging requires a two-line connection (plus VDD, VSS and VPP) to communicate
with the device. In a high pin count device, losing a few I/O lines is generally not a problem for most designs. But in a low pin count device, it can be a critical problem. Imagine
having to do an 8-pin design where there are only 5 I/Os, having used up 2 I/Os just for
debugging!
Headers are also used to save you money. In high pin count devices, adding debugging to the silicon can generally be done at little or no cost since the silicon is already
fairly large. However, low pin count devices are low cost specifically because they use
very little silicon. So, adding debugging circuitry on-board these parts would add significant cost since it would raise the amount of silicon used by a considerable percentage. The header places the cost for debugging up front and frees your production parts
from the extra cost of an unused debug module.
Microchip also makes optional debug modules, usually for high pin count devices. The
module is optional because you can still do basic debugging without a header, but if
you use one, you get back I/O lines, and may also gain additional debugging features.
Only certain devices can use an optional header, see the device page on our website
for details.
Microchip lists what header must be ordered to work with your device, if one is required.
Simply consult the device page on our website, or our other ordering guides.
Note that in all cases, devices can be programmed “in circuit” (called ICSP™) with very
few exceptions. Even devices without an internal debug feature can still be programmed by connecting the programming/debugging tool to the in-circuit programming
lines. These devices simply cannot perform debugging without a header.
FIGURE 1:
PRODUCTION DEVICE VS. HEADER DEVICE (-ICE/-ICD)
VDD
1
3
1
14
2
13
3
VDD
Vss
4
1
2
12
11
5
10
6
9
7
8
JP1
2
3
ENABLE
ICDCLK
ICDMCLR ICDDATA
VDD
Vss
20
19
18
4
17
5
16
6
15
7
14
8
13
9
12
10 ICD
NC
11
Production Device
-ICE/-ICD Device
on Header Board
© 2009 Microchip Technology Inc.
To Tool Connector
DS51292R-page 1
Header Board Specification
DEBUG DETAILS
Next generation in-circuit emulators (such as the MPLAB® REAL ICE™ in-circuit
emulator) and in-circuit debuggers work with devices that have on-chip debug circuitry.
Sometimes the actual production device will have this circuitry and sometimes a
special version of this device is required or available for code debugging. This special
version of the chip, with the suffix -ICD or -ICE, is mounted on a header board
(Figure 2).
Note:
ICE/ICD devices are only used on the header; they are not sold separately.
FIGURE 2:
DEBUG OPTIONS
Production Device without
On-Board Debug Circuitry
Production Device with
On-Board Debug Circuitry
Vss
Rx1/DAT
Rx0/CLK
Vdd
MCLR/Vpp
Debug
Circuitry
No debug capability.
Header required for debug.
Debug capability available.
However, header can provide
dedicated resources for debug.
ICE/ICD Device with On-board Debug
Circuitry, Dedicated Debug Pins and
(sometimes) Dedicated Debug Memory
Header board with additional
circuitry to support debug
functions.
MCLR
VPP
Debug
Memory
S1
J1
ON
VSS
DAT
CLK
Rx1
Rx0
VDD
TP1
ICE/
ICD
Device
TP2
TP3
Debug
Circuitry
In general, ICE devices are designed for next-generation in-circuit emulator use and
ICD devices are designed for in-circuit debugger use. However, ICE devices may be
used with an in-circuit debugger and ICD devices may be used with a next-generation
in-circuit emulator, but will provide only basic ICD functionality.
To determine what device resources must be dedicated to debugging for either a
device with on-board debug capability or the special ICE/ICD device, see the
“Resources used by ...” section of the in-circuit emulator or in-circuit debugger on-line
help file.
DS51292R-page 2
© 2009 Microchip Technology Inc.
Header Board Specification
PROGRAMMING DETAILS
The header board is designed to be used with the in-circuit emulator or the in-circuit
debugger selected as a debugger, not a programmer, in MPLAB IDE. Any programming of the ICE/ICD device on the header is for debug purposes and includes the
debug executive. See your related debug tool documentation for details on using it as
a debugger.
To program production (non-ICE/ICD) devices with your debug tool, use the Universal
Programming Module (AC162049) or design a modular interface connector on the
target. See the appropriate specification for connections. For the most up-to-date
device programming specifications, see the Microchip website (www.microchip.com).
Also, production devices may be programmed with the following tools:
•
•
•
•
•
MPLAB PM3 device programmer
PICSTART® Plus development programmer
PICkit™ 1, 2 or 3 development programmer
MPLAB ICD 3
MPLAB REAL ICE in-circuit emulator
GENERAL HEADER SETUP
To set up your header, do the following:
1. Check the header board for any stickers and the header box for any paper inserts
that may specify special operating instructions (Figure 3). Follow these
instructions before doing anything else.
FIGURE 3:
SPECIAL HEADER INSTRUCTIONS
Header Board (Top)
ION
UT
A
C
CAUTION
2. Set any jumpers or switches on the header to determine device functionality or
selection as specified for that header. See the sections “Optional Headers” or
“Required Headers” for information on how to set up individual headers.
© 2009 Microchip Technology Inc.
DS51292R-page 3
Header Board Specification
3. Connect the header to your desired debug tool by consulting the tool
documentation for connection options. An example connection is shown in
Figure 4.
The special ICE/ICD device is mounted on the top of a header and its signals are
routed to the emulator or debugger connector. These special device versions are
labeled with the appropriate suffix (i.e., either Device-ICE or Device-ICD).
FIGURE 4:
CONNECT HEADER TO DEBUG TOOL
Debug Tool Module
(Top)
To PC and
MPLAB® IDE
Header Board (Top)
ICE/ICD Device
4. Connect the header to the target board. On the bottom of the header is a socket
that is used to connect to the target board. The header may be connected to the
target board as follows:
a) PDIP header socket to PDIP target socket with a stand-off (male-to-male)
connector
b) Header socket to plug on the target board
c) Header socket to target socket with a transition socket (see the “Transition
Socket Specification”, DS51194)
An example connection is shown in Figure 5.
The header socket will have the same pin count as your selected device. The
ICE/ICD device on the top of the header usually has a larger pin count because
it has additional pins that are dedicated to debug.
DS51292R-page 4
© 2009 Microchip Technology Inc.
Header Board Specification
FIGURE 5:
CONNECT HEADER TO TARGET
Header Board (Bottom)
Header Socket
Stand-off Connector
Target Board (Top)
Power In
Target Socket
5. If using a debug tool that can power the target, power that tool now.
6. Power the target, if needed.
CALIBRATION BITS
The calibration bits for the band gap and internal oscillator are always preserved to their
factory settings.
PERFORMANCE ISSUES
The PIC® MCU devices do not support partial program memory erase; therefore, users
may experience slower performance than with other devices.
Also, see either the in-circuit emulator or the in-circuit debugger Help file for information
on specific device limitations that may affect performance.
RELATED DEBUG TOOLS
The following tools support the use of headers:
•
•
•
•
MPLAB REAL ICE In-Circuit Emulator
MPLAB ICD 2 In-Circuit Debugger
MPLAB ICD 3 In-Circuit Debugger
PICkit 2 or 3 Debug Express
See the Microchip website (http://www.microchip.com) for the latest documentation.
© 2009 Microchip Technology Inc.
DS51292R-page 5
Header Board Specification
NOTES:
DS51292R-page 6
© 2009 Microchip Technology Inc.
Required Headers
INTRODUCTION
Some devices have no built-in debug circuitry. Therefore, special ICE/ICD versions of
these devices are required for debug tool operation.
Currently available headers and their associated ICE/ICD devices are shown below by
supported device.
TABLE 1: REQUIRED HEADERS BY DEVICE
Pin
Count
Header Part
Number
PIC10F200/2/4/6
8/14
AC162059
PIC16F505-ICD
5.5V
PIC10F220/2
8/14
AC162070
PIC16F506-ICD
5.5V
PIC12F508/509
8/14
AC162059
PIC16F505-ICD
5.5V
PIC12F510
8/14
AC162070
PIC16F506-ICD
5.5V
PIC12F519
8/14
AC162096
PIC16F526-ICD
5.5V
PIC12F609/HV609
28
AC162083
PIC16F616-ICD
5.5V
PIC12F615/HV615
28
AC162083
PIC16F616-ICD
5.5V
5.5V
Device
ICE/ICD Device
Used
VDD Max
PIC12F629
8
AC162050
PIC12F675-ICD(1)
PIC12F635
14
AC162057
PIC16F636-ICD
5.5V
5.5V
PIC12F675
8
AC162050
PIC12F675-ICD(1)
PIC12F683
8
AC162058
PIC12F683-ICD
5.5V
PIC16F505
8/14
AC162059
PIC16F505-ICD
5.5V
PIC16F506
8/14
AC162070
PIC16F506-ICD
5.5V
PIC16F526
8/14
AC162096
PIC16F526-ICD
5.5V
PIC16F610/HV610
14/16
AC162083
PIC16F616-ICD
5.5V
PIC16F616/HV616
14/16
AC162083
PIC16F616-ICD
5.5V
PIC16F627A/628A
18
AC162053
PIC16F648A-ICD
5.5V
PIC16F630
14
AC162052
PIC16F676-ICD
5.5V
PIC16F631
20
AC162061
PIC16F690-ICD
5.5V
PIC16F636
14
AC162057
PIC16F636-ICD
5.5V
PIC16F639 (Dual die)
20
AC162066
PIC16F636-ICD
5.5V
PIC16F648A
18
AC162053
PIC16F648A-ICD
5.5V
PIC16F676
14
AC162052
PIC16F676-ICD
5.5V
PIC16F677
20
AC162061
PIC16F690-ICD
5.5V
PIC16F684
14
AC162055
PIC16F684-ICD
5.5V
PIC16F685/687
20
AC162061
PIC16F690-ICD
5.5V
PIC16F688
14
AC162056
PIC16F688-ICD
5.5V
PIC16F689/690
20
AC162061
PIC16F690-ICD
5.5V
© 2009 Microchip Technology Inc.
DS51292R-page 7
Required Headers
TABLE 1: REQUIRED HEADERS BY DEVICE (CON’T)
Pin
Count
Header Part
Number
PIC16F716
18
AC162054
PIC16F716-ICD(1)
5.5V
PIC16F785/HV785
20
AC162060
PIC16F785-ICD
5.5V
PIC18F13K50
PIC18F14K50
20
AC244023
PIC18F14K50-ICE
5.5V
PIC18LF13K50
PIC18LF14K50
20
AC244024
PIC18LF14K50-ICE
3.6V
2.75V(2)
Device
Note 1:
2:
ICE/ICD Device
Used
VDD Max
These ICE/ICD devices have limitations. See header section for details.
VDDCORE Max
AC162050, AC162058
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting different ICE/ICD devices. To identify these header boards, use the following information.
Header
AC162050
AC162058
ICE/ICD Device
Board Assembly Number
PIC12F675-ICD
PIC12F683-ICD
02-01662
Header Setup and Operation
For these headers, device peripherals need to be selected by setting jumper J1 to the
appropriate position. For AC162050, this will have the effect of selecting the device.
Header
Jumper J1
AC162050
2-3
1-2
1-2
AC162058
Function
A/D Disabled
A/D Enabled
A/D Enabled
Device Selected
PIC12F629
PIC12F675
PIC12F683
AC162050 Limitation:
These headers cannot be programmed while the GP1/RA1 pin is high (VIH) due to an
–ICD debug silicon issue. There are two work arounds:
1. Move the circuitry that makes GP1/RA1 high to another I/O pin during
programming.
2. Manually make GP1/RA1 low during programming (for debuggers that can
supply power to the target):
a) Disconnect the header from the target circuit.
b) Select Debugger>Settings, Power tab, and check “Power target circuit from
...” if it is not already checked.
c) Connect GP1 to VSS on the header.
d) Program the header by selecting Debugger>Program.
e) Disconnect GP1 from VSS on the header.
f) If you were NOT using a debug tool to power your target board, select
Debugger>Settings, Power tab, and uncheck “Power target circuit from ...”.
g) Insert the header into the target board.
h) Code is now programmed into the device and ready to be debugged.
i) Repeat the process to reprogram the device.
DS51292R-page 8
© 2009 Microchip Technology Inc.
Required Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 6:
DIMENSIONS – AC162050, AC162058
Dimensions are in inches
1.275
0.700
1
J1
P1
1.000
Top
0.525
J2
6 Conductor
Modular Cable
Target Pin 1 Located on
Bottom side of Header
0.165 Typical
0.560
Typical
Side
0.062 Typical
© 2009 Microchip Technology Inc.
DS51292R-page 9
Required Headers
AC162052, AC162055, AC162056, AC162057
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify these header boards, use the following
information.
Header
AC162052
AC162055
AC162056
AC162057
ICE/ICD Device
Board Assembly Number
PIC16F676-ICD
PIC16F684-ICD
PIC16F688-ICD
PIC16F636-ICD
02-01686
Header Setup and Operation
For these headers, device peripherals need to be selected by setting jumper J1 to the
appropriate position. For AC162052 and AC162057, this will have the effect of
selecting the device.
Header
Jumper J1
AC162052
2-3
1-2
Don’t care
Don’t care
AC162055
AC162056
AC162057
DS51292R-page 10
2-3
1-2
Function
Device Selected
A/D Disabled
A/D Enabled
N/A
N/A
PIC16F630
PIC16F676
PIC16F684
PIC16F688
PORTC, Comparator 2 Disabled
PORTC, Comparator 2 Enabled
PIC12F635
PIC16F636
© 2009 Microchip Technology Inc.
Required Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 7:
DIMENSIONS – AC162052, AC162055, AC162056, AC162057
Dimensions are in inches
1.275
0.700
1
J1
P1
Top
1.300
0.825
J2
6 Conductor
Modular Cable
Target Pin 1 Located on
Bottom side of Header
0.165 Typical
0.560
Typical
Side
0.062 Typical
© 2009 Microchip Technology Inc.
DS51292R-page 11
Required Headers
AC162053, AC162054
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify these header boards, use the following
information.
Header
AC162053
AC162054
ICE/ICD Device
PIC16F648A-ICD
PIC16F716-ICD
Board Assembly Number
02-01695
Header Setup and Operation – AC162053
For this headers, there are no jumpers/switches. The device with the most program
memory is always selected.
If PIC16F627A or PIC16F628A devices are selected for development in MPLAB IDE,
the warning “Invalid target device ID” may be received in the build window and as a dialog. The reason is the PIC16F648A-ICD device supports PIC16F648A, PIC16F627A
and PIC16F628A, but only reports the device ID for the PIC16F648A.
Ignore this warning or disable it under the Warnings tab on the ICD Programming
dialog.
Header Setup and Operation – AC162054
This header supports one device (PIC16F716) so there are no jumpers or switches.
Limitation:
When driving a clock oscillator of more than 4 MHz into OSC1 in HS oscillator mode,
the device will not go into debug mode. Therefore crystal caps will be required. The
32 kHz to 4 MHz range does not have this issue.
DS51292R-page 12
© 2009 Microchip Technology Inc.
Required Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 8:
DIMENSIONS – AC162053, AC162054
Dimensions are in inches
Target Pin 1 Located on
Bottom side of Header
0.150
0.150
1
P1
6 Conductor
Modular Cable
0.750
J1
2.350
Top
0.165 Typical
0.560
Typical
0.062 Typical
© 2009 Microchip Technology Inc.
Side
DS51292R-page 13
Required Headers
AC162059, AC162070, AC162096
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify these header boards, use the following
information.
Header
AC162059
AC162070
AC162096
ICE/ICD Device
PIC16F505-ICD
PIC16F506-ICD
PIC16F526-ICD
Board Assembly Number
02-01803
Header Setup and Operation
The ICD devices on these headers are specifically designed to select a device without
the use of additional jumpers or switches.
These headers support 8 and 14-pin devices (see Figure 9.) For the AC162059 and
AC162070, there is an 8-pin and a 14-pin connector. For the AC162096, there is only
a 14-pin connector. (The 8-pin connector is not populated.) Use the 14-pin connector
for 8-pin devices, but make sure device pin 1 is placed at the 14-pin connector pin 1.
DS51292R-page 14
© 2009 Microchip Technology Inc.
Required Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 9:
DIMENSIONS – AC162059, AC162070, AC162096
Dimensions are in inches
14-Pin Target Pin 1 Located
on Bottom side of Header
8-Pin Target Pin 1 Located
on Bottom side of Header
0.450
0.225
U1
6 Conductor
Modular Cable
0.750
J1
1.200
2.250
Top
0.165 Typical
0.560
Typical
0.062 Typical
© 2009 Microchip Technology Inc.
Side
DS51292R-page 15
Required Headers
AC162060
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify this header board, use the following information.
Header
ICE/ICD Device
AC162060
Board Assembly Number
PIC16F785-ICD
02-01820
Header Setup and Operation
For the PIC16F785 20-pin header, you will need to connect the jumper J2 to enable the
shunt regulator.
Device
Device Type
Jumper Setting
F
HV
1-2
2-3
PIC16F785
PIC16HV785
Function
Disable shunt regulator
Enable shunt regulator
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 10:
DIMENSIONS – AC162060
Dimensions are in inches
0.225
Target Pin 1 Located on
Bottom side of Header
0.325
J1
J2
U1
6 Conductor
Modular Cable
0.750
2.250
Top
0.165 Typical
0.560
Typical
0.062 Typical
DS51292R-page 16
Side
© 2009 Microchip Technology Inc.
Required Headers
AC162061
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify this header board, use the following information.
Header
ICE/ICD Device
AC162061
Board Assembly Number
PIC16F690-ICD
02-01835
Header Setup and Operation
For the PIC16F690 20-pin header, you will need to set the S1 switches (Figure 11) to
enable peripherals and choose devices (Table ).
FIGURE 11:
S1 SWITCH HARDWARE
J1
ON
DIP
Switch configuration at left
shows all peripherals disabled,
which is the setting to select the
PIC16F631 device.
ON
10 9 8 7 6
2
3
4
5
USART
4KPFM
ADC
ENABLE
1
SSP
S1
1 2 3 4 5
ECCP
S1
TABLE 2: S1 SWITCH DEVICE SELECTION
Switches
Device
1
ECCP
2
SSP
3
USART
PIC16F631
0
0
PIC16F677
0
1
4
4k PFM
5
ADC
0
0*
0
0
0**
1
1
0**
1
1
1
1
1
1
PIC16F685
1
0
0
PIC16F687
0
1
1
PIC16F689
0
1
1
PIC16F690
1
1
1
Legend: 1 = Enabled 0 = Disabled * = 1k PFM ** = 2k PFM
© 2009 Microchip Technology Inc.
DS51292R-page 17
Required Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 12:
DIMENSIONS – AC162061
Dimensions are in inches
1.650
0.625
1.450
0.475
Target Pin 1 Located on
Bottom side of Header
6 Conductor
Modular Cable
Top
0.165 Typical
0.560
Typical
0.062 Typical
DS51292R-page 18
Side
© 2009 Microchip Technology Inc.
Required Headers
AC162066
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify this header board, use the following information.
Header
AC162066
ICE/ICD Device
Board Assembly Number
PIC16F636-ICD
02-01832
Header Setup and Operation
For the PIC16F639 20-pin header, you will need to connect the jumper J3 as specified
below.
Tool
MPLAB®
ICE 2000
In-circuit debuggers,
next generation in-circuit emulators
Jumper Setting
1-2
2-3
Function
Run/program as production device
Run/program as ICD device
In addition to being used with debug tools that normally use headers, this header is
used with the PCM16YM0 processor module to emulate a PIC16F639 on the MPLAB
ICE 2000 in-circuit emulator. Plug the end of the processor module into the header, and
then plug the header into the transition socket or directly onto the target board.
© 2009 Microchip Technology Inc.
DS51292R-page 19
Required Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 13:
DIMENSIONS – AC162066
Dimensions are in inches
Target Pin 1 Located on
Bottom side of Header
6 Conductor
Modular Cable
0.850
0.275
0.950
2.325
Top
0.165 Typical
0.560
Typical
0.062 Typical
DS51292R-page 20
Side
© 2009 Microchip Technology Inc.
Required Headers
AC162083
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify this header board, use the following information.
Header
AC162083
ICE/ICD Device
PIC16F616-ICD
Board Assembly Number
02-01976
Header Setup and Operation
CAUTION
Incorrect rotary switch (Figure 14) settings may irreparably damage
the header. Ensure rotary switch settings are correct (Table 3) before
powering or connecting the header. Do not change the rotary switch
setting while the header is powered or connected to a debug tool. Do
not power shunt regulator (HV) devices from the debug tool.
Test points are available on this header to check the following: Ground (TP1), VDD
(TP2), ICD Clock (TP3), ICD Data (TP4) and ICD MCLR/VPP (TP5).
TABLE 3: ROTARY SWITCH SETTINGS
Switch Position
0
1
2
3
4
5
6
7
Device
Switch Position
PIC12HV609
PIC12HV615
Reserved HV
PIC16HV610
PIC16HV616
Reserved HV
Reserved HV
Reserved HV
8
9
A
B
C
D
E
F
Device
PIC12F609
PIC12F615
Reserved F
PIC16F610
PIC16F616
Reserved F
Reserved F
Reserved F
POTENTIAL ISSUES
HV device selected instead of F device
If you inadvertently select a shunt regulator (HV) device and attempt to use it in a target
board designed for a non-shunt regulator (F) device, the shunt may draw excessive
current due to the lack of current-limiting circuitry on the target board and damage the
device mounted on the header.
F device selected instead of HV device
If you inadvertently select a non-shunt regulator (F) device and attempt to use it in a
target board designed for a shunt regulator (HV) device, the device may draw excessive current due to the higher voltage used on a target board designed for HV devices
and damage the device mounted on the header.
HV devices cannot be powered from debug tool
Do not select in MPLAB IDE to power the target (debug header) from the debug tool (if
it supports powering the target) when using shunt regulator (HV) devices since this will
also cause the shunt to draw excessive current.
© 2009 Microchip Technology Inc.
DS51292R-page 21
Required Headers
DETERMINING DAMAGE
A damaged header will cause MPLAB IDE to report a device ID of 0. However, there
are other issues that can cause the device ID to report as 0. Please consult your debug
tool documentation on troubleshooting to identify the problem. If you believe you have
a damaged header, please contact Microchip technical support at
http://support.microchip.com.
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 14:
DIMENSIONS – AC162083
Dimensions are in inches
Rotary
Switch
0.600
0.650
1.600
6 Conductor
Modular Cable
Target Pin 1 Located on
Bottom side of Header
2.450
Top
0.165 Typical
0.560
Typical
0.062 Typical
DS51292R-page 22
Side
© 2009 Microchip Technology Inc.
Required Headers
AC244023, AC244024
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify these header boards, use the following
information.
Header
ICE/ICD Device
AC244023
AC244024
Board Assembly Number
PIC18F14K50-ICE
PIC18LF14K50-ICE
02-02031
Header Setup and Operation
When the MPLAB ICD 2 is used with this header, you must use the Vpp Limiter
(AC164112).
FIGURE 15:
VPP LIMITER SCHEMATIC
J1
VPP
VDD
VSS
ICSP_DATA
ICSP_CLOCK
NC
RJ11-6PIN
6
5
4
3
2
1
1
2
3
4
5
6
J2
RJ11-6PIN
To MPLAB® ICD 2
R1
To Target Board
270 Ohm
LM431BCMX
2
A
3
A
6
A
7
A
1
U1 K
NC 4
5
NC
VREF
8
© 2009 Microchip Technology Inc.
R2
R3
10k 1%
24k 1%
DS51292R-page 23
Required Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 16:
DIMENSIONS – AC244023, AC224024
Dimensions are in inches
Target Pin 1 Located on
Bottom side of Header
8 Conductor Single In-line
Debugger Interface
1.150
0.150
0.425
1.800
Top
0.165 Typical
0.062 0.260
Typical Typical
DS51292R-page 24
Side
© 2009 Microchip Technology Inc.
Optional Headers
INTRODUCTION
Devices that have built-in debug circuitry do not require a header to use debug tools.
However, some pins and memory must be used to support the debug function. Special
ICE/ICD versions offering additional pins, memory and emulator functions can be used
to provide superior emulating/debugging capabilities.
Currently available headers and their associated ICE/ICD devices are shown below by
supported device.
TABLE 4: OPTIONAL HEADERS BY DEVICE
Device
PIC18F1230/1330
PIC18F24J10
PIC18F25J10
Pin
Count
Header Part
Number
28
AC162078
PIC18F1330-ICD
5.5V
28/40
AC162067
PIC18F45J10-ICE
3.6V
ICE/ICD Device Used
VDD Max
PIC18LF24J10
PIC18LF25J10
3.6V
2.75V(2)
PIC18F44J10
PIC18F45J10
3.6V
PIC18LF44J10
PIC18LF45J10
3.6V
2.75V(2)
PIC18F44J10
PIC18F45J10
44
AC162074
PIC18F45J10-ICE
PIC18LF44J10
PIC18LF45J10
PIC18F63J11
PIC18F63J90
PIC18F64J11
PIC18F64J16
PIC18F64J90
PIC18F64J95
PIC18F65J11
PIC18F65J90
3.6V
3.6V
2.75V(2)
64/80
AC162079
PIC18F85J90-ICE
3.6V
PIC18F83J11
PIC18F83J90
PIC18F84J11
PIC18F84J16
PIC18F84J90
PIC18F84J95
PIC18F85J11
PIC18F85J90
© 2009 Microchip Technology Inc.
DS51292R-page 25
Optional Headers
TABLE 4: OPTIONAL HEADERS BY DEVICE (CON’T)
Device
PIC18F65J10
PIC18F65J15
PIC18F66J10
PIC18F66J15
PIC18F67J10
Pin
Count
Header Part
Number
64/80
AC162062
PIC18F87J10-ICE
3.6V
64/80
AC162091
PIC18F87J11-ICE
3.6V
64/80
AC162087
PIC18F87J50-ICE
3.6V
64/80/
100
AC162064
PIC18F97J60-ICE
3.6V
ICE/ICD Device Used
VDD Max
PIC18F85J10
PIC18F85J15
PIC18F86J10
PIC18F86J15
PIC18F87J10
PIC18F65J16
PIC18F66J11
PIC18F66J16
PIC18F67J11
PIC18F85J16
PIC18F86J11
PIC18F86J16
PIC18F87J11
PIC18F65J50
PIC18F65J55
PIC18F66J50
PIC18F66J55
PIC18F67J50
PIC18F85J50
PIC18F85J55
PIC18F86J50
PIC18F86J55
PIC18F87J50
PIC18F66J60
PIC18F66J65
PIC18F67J60
PIC18F86J60
PIC18F86J65
PIC18F87J60
PIC18F96J60
PIC18F96J65
PIC18F97J60
DS51292R-page 26
© 2009 Microchip Technology Inc.
Optional Headers
TABLE 4: OPTIONAL HEADERS BY DEVICE (CON’T)
Pin
Count
Header Part
Number
PIC24FJ16GA002
PIC24FJ32GA002
PIC24FJ48GA002
PIC24FJ64GA002
28
AC162088
PIC24FJ16GA004
PIC24FJ32GA004
PIC24FJ48GA004
PIC24FJ64GA004
44
AC162094
PIC24FJ64GA006
PIC24FJ64GA008
PIC24FJ64GA010
64/80/
100
AC162065
AC244022
Device
VDD Max
ICE/ICD Device Used
PIC24FJ64GA004-ICE
3.6V
PIC24FJ128GA010-ICE(1)
3.6V
PIC24FJ96GA006
PIC24FJ96GA008
PIC24FJ96GA010
PIC24FJ128GA006
PIC24FJ128GA008
PIC24FJ128GA010
Note 1: These ICE/ICD devices have limitations. See header section for details.
2: VDDCORE Max
© 2009 Microchip Technology Inc.
DS51292R-page 27
Optional Headers
AC162062, AC162079, AC162087, AC162091
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify these header boards, use the following
information.
Header
ICE/ICD Device
AC162062
PIC18F87J10-ICE
AC162079
PIC18F85J90-ICE
AC162087
PIC18F87J50-ICE
AC162091
PIC18F87J11-ICE
Board Assembly Number
02-01830
Header Setup and Operation – AC162062
For this header, there are no jumpers/switches. MPLAB IDE will use its selected device
to choose the correct device to emulate.
Test points are available on this header to check the following: VDD, VDDCORE and
ground.
CAUTION
This header cannot be plugged directly into the PICDEM™ HPC Explorer Board or
device damage will result.
The PICDEM™ HPC Explorer Board is 5V, whereas the ICD device on the header is
3.6V max. Therefore, modification to the demo board is necessary before the header
can be used.
1. Switch S3 should be set to ICE.
2. Jumper J2 must be connected as shown in Figure 17 to modify the operating
voltage. See demo board documentation for more information.
DEMO BOARD J2 CONNECTIONS
+5V ADJ VIN
J2
R
pin1
FIGURE 17:
For V = 3.3V:
R = 1.18 kΩ (1%)
Header Setup and Operation – AC162079, AC162087, AC162091
For these headers, there are no jumpers/switches. MPLAB IDE will use its selected
device to choose the correct device to emulate.
Test points are available on this header to check the following: VDD, VDDCORE and
ground.
DS51292R-page 28
© 2009 Microchip Technology Inc.
Optional Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 18:
DIMENSIONS – AC162062, AC162079, AC162087, AC162091
Dimensions are in inches
6 Conductor
Modular Cable
Target Pin 1 Located on
Bottom side of Header
1.080
0.980
2.325
0.050
0.420
0.320
1.800
Top
0.335 Typical
0.560
Typical
0.062 Typical
© 2009 Microchip Technology Inc.
Side
DS51292R-page 29
Optional Headers
AC162064
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify this header board, use the following information.
Header
AC162064
ICE/ICD Device
PIC18F97J60-ICE
Board Assembly Number
02-01853
Header Setup and Operation
For this header, there are no jumpers/switches. MPLAB IDE will use its selected device
to choose the correct device to emulate.
Test points are available on this header to check the following: VDD, VDDCORE and
ground.
DS51292R-page 30
© 2009 Microchip Technology Inc.
Optional Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 19:
DIMENSIONS – AC162064
Dimensions are in inches
2.250
0.795
0.895
0.995
0.555
6 Conductor
Modular Cable
0.455
0.355
1.750
Target Pin 1 Located on
Bottom side of Header
Top
0.335 Typical
0.560
Typical
0.062 Typical
© 2009 Microchip Technology Inc.
Side
DS51292R-page 31
Optional Headers
AC162065, AC244022
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify these header boards, use the following
information.
Header
AC162065
ICE/ICD Device
PIC24FJ128GA010-ICE
AC244022
Board Assembly Number
02-01856
02-01985
Header Setup and Operation
For this header, there are no jumpers/switches. MPLAB IDE will use its selected device
to choose the correct device to emulate.
Test points are available on this header to check the following: VDD, VDDCORE and
ground.
Limitation: You must remove the MCLR pull-up resistor on your development board to
use these headers.
Header Dimensions
The figures below lists the dimensions for the header boards. Dimensions are design
values in inches.
For this device family, header AC162065 will be sold until depleted. Then only header
AC244022 will remain as a Performance Pak.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
DS51292R-page 32
© 2009 Microchip Technology Inc.
Optional Headers
FIGURE 20:
DIMENSIONS – AC162065
Dimensions are in inches
2.250
0.795
0.895
0.995
0.555
6 Conductor
Modular Cable
Target Pin 1 Located on
Bottom side of Header
0.455
0.355
1.750
Top
0.335 Typical
0.560
Typical
0.062 Typical
© 2009 Microchip Technology Inc.
Side
DS51292R-page 33
Optional Headers
FIGURE 21:
DIMENSIONS – AC244022
Dimensions are in inches
2.200
0.695
0.795
0.895
0.525
Target Pin 1 Located on
Bottom side of Header
0.425
0.325
1.850
Top
8 Conductor Single In-line
Debugger Interface
0.335 Typical
0.620 0.260
Typical Typical
DS51292R-page 34
Side
© 2009 Microchip Technology Inc.
Optional Headers
AC162067, AC162074
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify these header boards, use the following
information.
Header
AC162067
ICE/ICD Device
PIC18F45J10-ICE
Board Assembly Number
02-01854
02-01929
AC162074
Header Setup and Operation
For these headers, you will need to connect jumpers J2 and J3 to select between the
LF and F versions of devices.
Device
Device Type
Jumper J2
Jumper J3
Function
PIC18LFXXJ10
LF
1-2
1-2
Disable voltage regulator*
PIC18FXXJ10
F
2-3
2-3
Enable voltage regulator
* VDDCORE must be supplied externally.
Header Dimensions
The figures below lists the dimensions for the header boards. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
© 2009 Microchip Technology Inc.
DS51292R-page 35
Optional Headers
FIGURE 22:
DIMENSIONS (28/40-PIN) – AC162067
Dimensions are in inches
0.700
40-Pin Target Pin 1 Located
on Bottom side of Header
0.850
28-Pin Target Pin 1 Located
on Bottom side of Header
1.800
6 Conductor
Modular Cable
0.500
Top
0.200
2.300
0.165 Typical
0.560
Typical
0.062 Typical
DS51292R-page 36
Side
© 2009 Microchip Technology Inc.
Optional Headers
FIGURE 23:
DIMENSIONS (44-PIN) – AC162074
Dimensions are in inches
Target Pin 1 Located on
Bottom side of Header
6 Conductor
Modular Cable
1.350
0.925
0.850
1.800
Top
0.335 Typical
0.560
Typical
0.062 Typical
Side
© 2009 Microchip Technology Inc.
DS51292R-page 37
Optional Headers
AC162078
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify this header board, use the following information.
Header
AC162078
ICE/ICD Device
PIC18F1330-ICD
Board Assembly Number
02-01896
Header Setup and Operation
This header board can be used with the following targets:
1. Customer target board for PIC18F1230/1330 devices. The target board should
have an 18-pin DIP socket to connect to the 18-pin DIP socket on the header
board.
2. PICDEM MC motor control demo board. Use the 28-pin DIP socket on both
boards to mount the header board on to the PICDEM MC board.
3. PICDEM MC LV motor control demo board. Use the 28-pin DIP socket on both
boards to mount the header board on to the PICDEM MC LV board.
The following sections detail the configuration of the jumpers on the header board for
use with the above mentioned boards.
CUSTOMER TARGET BOARD
The default configuration is to remove all jumpers.
S1 is not populated and should not be used.
After the header board is set up, do the following:
1.
2.
3.
4.
DS51292R-page 38
Connect the header to the target board.
Power the target board. You should see the red LED on the header board turn on.
Connect the debug tool to the header board.
Use MPLAB IDE and the debug tool to develop your application.
© 2009 Microchip Technology Inc.
Optional Headers
PICDEM MC/MC LV MOTOR CONTROL DEMO BOARDS
To run a BLDC motor on the PICDEM MC board or PICDEM MC LV board using the
supplied firmware, use the following jumper setup:
Jumper
Jumper Setting
J1
J2
J3
J5
J6
J7
2-3
2-3
2-3
2-3
1-2
1-2
Jumper
Jumper Setting
JP1
Open
JP2
Open
JP3
Open
S1 is not populated and should not be used.
After the header board is set up, do the following:
1.
2.
3.
4.
5.
6.
Connect the header to the PICDEM MC/MC LV target board.
Power the target board. You should see the red LED on the header board turn on.
Connect the debug tool to the header board.
Program the part with the demo code.
Run the program.
Press and release switch S2 on the target board to toggle the direction of the
motor’s rotation.
7. Press and release switch S1 on the target board to toggle between running and
stopping the motor.
8. If the motor stops while reversing from a high speed, there could be an
overcurrent condition detected by the system. Reset the system to run the
program again.
© 2009 Microchip Technology Inc.
DS51292R-page 39
Optional Headers
Header Dimensions
The figure below lists the dimensions for the header board. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
FIGURE 24:
DIMENSIONS – AC162078
Dimensions are in inches
6 Conductor
Modular Cable
28-Pin Target Pin 1 Located
on Bottom side of Header
18-Pin Target Pin 1 Located
on Bottom side of Header
2.300
0.950
M
0.410
0.300
0.150
2.050
Top
0.165 Typical
0.560
Typical
0.062 Typical
DS51292R-page 40
Side
© 2009 Microchip Technology Inc.
Optional Headers
AC162088, AC162094
Header Identification
The header AC number is used for ordering the header. However, this number is not
on the header board, as the board is often used for multiple headers by inserting
different ICE/ICD devices. To identify this header board, use the following information.
Header
ICE/ICD Device
AC162088
Board Assembly Number
PIC24FJ64GA004-ICE
02-01979
02-01982
AC162094
Header Setup and Operation
Both 28-pin and 44-pin device headers have jumpers related to the enabling or disabling of the on-chip 2.5 volt voltage regulator. Please see the section entitled “On-Chip
Voltage Regulator” in the “dsPIC33F Family Reference Manual” (DS70165) for more
details.
Jumper J2
Function
1-2
Disable voltage regulator
2-3
Enable voltage regulator
No connection
DISVREG controlled by target
Test points are available on this header to check the following:
Test Point
Color
Signal
Test Point
Color
Signal
TP1
Black
Ground
TP5
White
DISVREG
TP2
Red
VDD
TP6
White
PGC
TP3
Black
AVSS
TP7
White
PGD
TP4
Red
AVDD
TP8
Yellow
ICRST
Header Dimensions
The figures below list the dimensions for the header boards. Dimensions are design
values in inches.
If the length and/or width of the header board is too large a footprint for the target board,
consider using stand-offs, transition sockets or other extenders in the header
connection socket to raise the header above the target.
© 2009 Microchip Technology Inc.
DS51292R-page 41
Optional Headers
FIGURE 25:
DIMENSIONS (28 PIN) – AC162088
Dimensions are in inches
6 Conductor
Modular Cable
Target Pin 1 Located on
Bottom side of Header
1.600
0.700
0.175
2.450
Top
0.165 Typical
0.560
Typical
0.062 Typical
DS51292R-page 42
Side
© 2009 Microchip Technology Inc.
Optional Headers
FIGURE 26:
DIMENSIONS (44 PIN) – AC162094
Dimensions are in inches
Target Pin 1 Located on
Bottom side of Header
6 Conductor
Modular Cable
1.600
0.550
0.400
2.400
Top
0.335 Typical
0.560
Typical
0.062 Typical
Side
© 2009 Microchip Technology Inc.
DS51292R-page 43
Optional Headers
NOTES:
DS51292R-page 44
© 2009 Microchip Technology Inc.
Appendix A. Header Target Footprints
To connect a header board directly to a target board (without the use of a transition
socket) the following information will be helpful.
• DIP Device Footprints
• TQFP/PLCC Device Footprints
DIP DEVICE FOOTPRINTS
DIP device adapter footprints shown will accept adapter plugs like Samtec series APA
plugs. These plugs can be soldered in place during development/emulation and
eliminate the need for any other sockets.
FIGURE 27:
DIP FOOTPRINT
0.100
0.028 DIA
PLATED-THRU
HOLES
DIP
C
UNLESS OTHERWISE SPECIFIED,
DIMENSIONS ARE IN INCHES.
8-Pin
14-Pin
18-Pin
20-Pin
28-Pin
40-Pin
C
0.300
0.300
0.300
0.300
0.300
0.600
Drawing of DIP is 40-pin.
TQFP/PLCC DEVICE FOOTPRINTS
TQFP/PLCC device adapter footprints shown will accept board stackers like Samtec
series DWM 0.050 Pitch Stackers. These stackers can be soldered in place during
development/emulation and eliminate the need for any other sockets.
FIGURE 28:
SINGLE-ROW TQFP/PLCC FOOTPRINT
0.028 DIA
PLATED-THRU
HOLES
0.800
0.050
UNLESS OTHERWISE SPECIFIED,
DIMENSIONS ARE IN INCHES.
Drawing of device is 44-pin TQFP/PLCC.
0.800
© 2009 Microchip Technology Inc.
DS51292R-page 45
FIGURE 29:
DOUBLE AND TRIPLE-ROW TQFP/PLCC FOOTPRINT
0.028 DIA
PLATED-THRU
HOLES
0.960 1.160 1.360
0.050
0.960
1.160
UNLESS OTHERWISE SPECIFIED,
DIMENSIONS ARE IN INCHES.
1.360
Drawing of device is 64/68-pin,
80/84-pin and 100-pin
Header pin-out matches the PLCC package. PLCC will map to TQFP as follows:
•
•
•
•
FIGURE 30:
Header to 44-pin TQFP – one-to-one mapping.
Header to 64-pin TQFP – see Figure 30 for mapping.
Header to 80-pin TQFP – see Figure 31 for mapping.
Header to 100-pin TQFP – one-to-one mapping.
HEADER TO 64-PIN TQFP
64
49
NC = No Connection
68
1
1
9
16
52
51
NC
NC
NC
NC
17
18
17
DS51292R-page 46
60
26
48
43
35
33
34
32
© 2009 Microchip Technology Inc.
FIGURE 31:
HEADER TO 80-PIN TQFP
80
61
NC = No Connection
84
1
20
NC
21
63
NC
21
32
60
53
43
NC
22
© 2009 Microchip Technology Inc.
64
NC
1
11
74
41
42
40
DS51292R-page 47
NOTES:
DS51292R-page 48
© 2009 Microchip Technology Inc.
Header Board Specification
APPENDIX B:
B.1
REVISION HISTORY
Revision N (February 2006)
• Added Appendix A: Revision History
• Updated document to reflect support of additional
tools
• Additional minor corrections throughout document
text
B.2
Revision P (September 2007)
• Updated document to reflect support of additional
tools
• Additional minor corrections throughout document
text
B.3
Revision Q (December 2008)
• Added limitations to header setup sections as
needed.
• Changed “ICD Headers” and “ICE Headers” to
“Required Headers” and “Optional Headers” and
move sections as necessary.
• Rearranged sections to organize by header (AC)
number.
B.4
Revision R (April 2009)
•
•
•
•
•
•
Added board dimensions
Removed header pinouts
Added board identification info
Added “why use a header” section
Added footprint appendix
Changed MPLAB ICD 2 and MPLAB ICD 3
references to generic debug tool
• Added MPLAB REAL ICE in-circuit emulator and
MPLAB ICD 3 as programmers
© 2009 Microchip Technology Inc.
DS51292R-page 49
Header Board Specification
NOTES:
DS51292R-page 50
© 2009 Microchip Technology Inc.
HEADER BOARD SPECIFICATION
Index
A
AC162050 .................................................................. 8
AC162052 ................................................................ 10
AC162053 ................................................................ 12
AC162054 ................................................................ 12
AC162055 ................................................................ 10
AC162056 ................................................................ 10
AC162057 ................................................................ 10
AC162058 .................................................................. 8
AC162059 ................................................................ 14
AC162060 ................................................................ 16
AC162061 ................................................................ 17
AC162062 ................................................................ 28
AC162064 ................................................................ 30
AC162065 ................................................................ 32
AC162066 ................................................................ 19
AC162067 ................................................................ 35
AC162070 ................................................................ 14
AC162074 ................................................................ 35
AC162078 ................................................................ 38
AC162079 ................................................................ 28
AC162083 ................................................................ 21
AC162087 ................................................................ 28
AC162088 ................................................................ 41
AC162091 ................................................................ 28
AC162094 ................................................................ 41
AC162096 ................................................................ 14
AC244022 ................................................................ 32
AC244023 ................................................................ 23
AC244024 ................................................................ 23
Additional Information ................................................ 5
C
Calibration Bits ........................................................... 5
I
ICE vs. ICD ................................................................ 2
J
Jumper Settings ................. 8, 10, 16, 19, 28, 35, 39, 41
M
MPLAB ICE 2000 ..................................................... 19
P
PCM16YM0.............................................................. 19
Performance .............................................................. 5
PIC10F200 ................................................................. 7
PIC10F202 ................................................................. 7
PIC10F204 ................................................................. 7
PIC10F206 ................................................................. 7
PIC10F220 ................................................................. 7
© 2009 Microchip Technology Inc.
PIC10F222 ................................................................. 7
PIC12F508 ................................................................. 7
PIC12F509 ................................................................. 7
PIC12F510 ................................................................. 7
PIC12F519 ................................................................. 7
PIC12F609 ........................................................... 7, 21
PIC12F615 ............................................................... 21
PIC12F629 ............................................................. 7, 8
PIC12F635 ........................................................... 7, 10
PIC12F675 ............................................................. 7, 8
PIC12F683 ............................................................. 7, 8
PIC12HV609 ........................................................ 7, 21
PIC12HV615 ............................................................ 21
PIC16F505 ................................................................. 7
PIC16F506 ................................................................. 7
PIC16F526 ................................................................. 7
PIC16F610 ........................................................... 7, 21
PIC16F616 ........................................................... 7, 21
PIC16F627A......................................................... 7, 12
PIC16F628A......................................................... 7, 12
PIC16F630 ........................................................... 7, 10
PIC16F631 ........................................................... 7, 17
PIC16F636 ........................................................... 7, 10
PIC16F639 ........................................................... 7, 19
PIC16F648A......................................................... 7, 12
PIC16F676 ........................................................... 7, 10
PIC16F677 ........................................................... 7, 17
PIC16F684 ........................................................... 7, 10
PIC16F685 ........................................................... 7, 17
PIC16F687 ........................................................... 7, 17
PIC16F688 ........................................................... 7, 10
PIC16F689 ........................................................... 7, 17
PIC16F690 ........................................................... 7, 17
PIC16F716 ........................................................... 8, 12
PIC16F785 ........................................................... 8, 16
PIC16HV610 ........................................................ 7, 21
PIC16HV616 ........................................................ 7, 21
PIC16HV785 ........................................................ 8, 16
PIC18F1230 ....................................................... 25, 38
PIC18F1330 ....................................................... 25, 38
PIC18F13K50............................................................. 8
PIC18F14K50............................................................. 8
PIC18F24J10 ........................................................... 25
PIC18F25J10 ..................................................... 25, 35
PIC18F44J10 ........................................................... 25
PIC18F45J10 ..................................................... 25, 35
PIC18F63J11 ........................................................... 25
PIC18F63J90 ........................................................... 25
PIC18F64J11 ........................................................... 25
PIC18F64J16 ........................................................... 25
PIC18F64J90 ........................................................... 25
DS51292R-page 51
Header Board Specification
PIC18F64J95 ........................................................... 25
PIC18F65J10 ........................................................... 26
PIC18F65J11 ........................................................... 25
PIC18F65J15 ........................................................... 26
PIC18F65J16 ........................................................... 26
PIC18F65J50 ........................................................... 26
PIC18F65J55 ........................................................... 26
PIC18F65J90 ........................................................... 25
PIC18F66J10 ........................................................... 26
PIC18F66J11 ........................................................... 26
PIC18F66J15 ........................................................... 26
PIC18F66J16 ........................................................... 26
PIC18F66J50 ........................................................... 26
PIC18F66J55 ........................................................... 26
PIC18F66J60 ........................................................... 26
PIC18F66J65 ........................................................... 26
PIC18F67J10 ........................................................... 26
PIC18F67J11 ........................................................... 26
PIC18F67J50 ........................................................... 26
PIC18F67J60 ........................................................... 26
PIC18F83J11 ........................................................... 25
PIC18F83J90 ........................................................... 25
PIC18F84J11 ........................................................... 25
PIC18F84J16 ........................................................... 25
PIC18F84J90 ........................................................... 25
PIC18F84J95 ........................................................... 25
PIC18F85J10 ........................................................... 26
PIC18F85J11 ........................................................... 25
PIC18F85J15 ........................................................... 26
PIC18F85J16 ........................................................... 26
PIC18F85J50 ........................................................... 26
PIC18F85J55 ........................................................... 26
PIC18F85J90 ........................................................... 25
PIC18F86J10 ........................................................... 26
PIC18F86J11 ........................................................... 26
PIC18F86J15 ........................................................... 26
PIC18F86J16 ........................................................... 26
PIC18F86J50 ........................................................... 26
PIC18F86J55 ........................................................... 26
PIC18F86J60 ........................................................... 26
PIC18F86J65 ........................................................... 26
PIC18F87J10 ........................................................... 26
PIC18F87J11 ........................................................... 26
PIC18F87J50 ........................................................... 26
PIC18F87J60 ........................................................... 26
PIC18F96J60 ........................................................... 26
PIC18F96J65 ........................................................... 26
PIC18F97J60 ........................................................... 26
PIC18LF13K50........................................................... 8
PIC18LF14K50........................................................... 8
PIC18LF24J10 ......................................................... 25
PIC18LF25J10 ................................................... 25, 35
PIC18LF44J10 ......................................................... 25
PIC18LF45J10 ................................................... 25, 35
PIC24FJ128GA006 .................................................. 27
PIC24FJ128GA008 .................................................. 27
PIC24FJ128GA010 .................................................. 27
PIC24FJ16GA002 .................................................... 27
PIC24FJ16GA004 .................................................... 27
PIC24FJ32GA002 .................................................... 27
DS51292R-page 52
PIC24FJ32GA004 .................................................... 27
PIC24FJ48GA002 .................................................... 27
PIC24FJ48GA004 .................................................... 27
PIC24FJ64GA002 .................................................... 27
PIC24FJ64GA004 .................................................... 27
PIC24FJ64GA006 .................................................... 27
PIC24FJ64GA008 .................................................... 27
PIC24FJ64GA010 .................................................... 27
PIC24FJ96GA006 .................................................... 27
PIC24FJ96GA008 .................................................... 27
PIC24FJ96GA010 .................................................... 27
PICDEM HPC Explorer Board.................................. 28
Pin Count.............................................................. 7, 25
Programming Non-ICD Devices ................................. 3
S
Switch Settings......................................................... 17
Switch Settings, Rotary ............................................ 21
T
Transition Socket........................................................ 4
V
Vdd Max ............................................................... 7, 25
Vddcore Max ........................................................ 7, 25
© 2009 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.
MICROCHIP MAKES NO REPRESENTATIONS OR
WARRANTIES OF ANY KIND WHETHER EXPRESS OR
IMPLIED, WRITTEN OR ORAL, STATUTORY OR
OTHERWISE, RELATED TO THE INFORMATION,
INCLUDING BUT NOT LIMITED TO ITS CONDITION,
QUALITY, PERFORMANCE, MERCHANTABILITY OR
FITNESS FOR PURPOSE. Microchip disclaims all liability
arising from this information and its use. Use of Microchip
devices in life support and/or safety applications is entirely at
the buyer’s risk, and the buyer agrees to defend, indemnify and
hold harmless Microchip from any and all damages, claims,
suits, or expenses resulting from such use. No licenses are
conveyed, implicitly or otherwise, under any Microchip
intellectual property rights.
Trademarks
The Microchip name and logo, the Microchip logo, Accuron,
dsPIC, KEELOQ, KEELOQ logo, MPLAB, PIC, PICmicro,
PICSTART, rfPIC, SmartShunt and UNI/O are registered
trademarks of Microchip Technology Incorporated in the
U.S.A. and other countries.
FilterLab, Hampshire, Linear Active Thermistor, MXDEV,
MXLAB, SEEVAL, SmartSensor and The Embedded Control
Solutions Company are registered trademarks of Microchip
Technology Incorporated in the U.S.A.
Analog-for-the-Digital Age, Application Maestro, CodeGuard,
dsPICDEM, dsPICDEM.net, dsPICworks, dsSPEAK, ECAN,
ECONOMONITOR, FanSense, In-Circuit Serial
Programming, ICSP, ICEPIC, Mindi, MiWi, MPASM, MPLAB
Certified logo, MPLIB, MPLINK, mTouch, nanoWatt XLP,
PICkit, PICDEM, PICDEM.net, PICtail, PIC32 logo, PowerCal,
PowerInfo, PowerMate, PowerTool, REAL ICE, rfLAB, Select
Mode, Total Endurance, TSHARC, WiperLock and ZENA are
trademarks of Microchip Technology Incorporated in the
U.S.A. and other countries.
SQTP is a service mark of Microchip Technology Incorporated
in the U.S.A.
All other trademarks mentioned herein are property of their
respective companies.
© 2009, Microchip Technology Incorporated, Printed in the
U.S.A., All Rights Reserved.
Printed on recycled paper.
Microchip received ISO/TS-16949:2002 certification for its worldwide
headquarters, design and wafer fabrication facilities in Chandler and
Tempe, Arizona; Gresham, Oregon and design centers in California
and India. The Company’s quality system processes and procedures
are for its PIC® MCUs and dsPIC® DSCs, KEELOQ® code hopping
devices, Serial EEPROMs, microperipherals, nonvolatile memory and
analog products. In addition, Microchip’s quality system for the design
and manufacture of development systems is ISO 9001:2000 certified.
© 2009 Microchip Technology Inc.
DS51292R-page 53
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03/26/09
DS51292R-page 54
© 2009 Microchip Technology Inc.