QF4A512-PA USER’S GUIDE
Programming Adapter User’s Guide
QF4A512 Programmable Signal Converter
1) Introduction
The Programming Adapter was designed to be added to the QF4A512’s Development board for the purpose of
programming bulk volumes 10,000 parts or less of EEPROM. Additional connectors can also be added to the
development board so that parts can also be tested, programs checked etc in the lab and manufacturing flo or.
(Note make sure you have downloaded QF software version 4.0.0 Build 0016 or later from our website)
The User’s Guide for the Programming Adapter board describes the following:
• Board Layout definition.
• Powering the Programming Adapter Board.
• Plugging in the Programming Adapter Board.
• Programming example sequence.
• Auto Configure and Auto Start options addressed.
• Using an external clock source.
• Schematics.
• Silk Screen for component reference.
2) Board Layout / Prototyping area definition:
The QF4A512 – PA board was designed to be plugged into the QF4A512 develo pment board. See Figure 1 below for
a visual definition of the board.
If installed, connects
signals from the BNC
connectors on the Dev
Board to PA Board
Socket power switch,
switch off when
changing parts
Push down on both sides
of socket to change parts
If installed, connects
Power from the
development board to
the PA board
Rev A5, Feb 09 www.quickfiltertech.com
Connects signals
from the development
board J5 to PA board
DC Jack +5V to +12V 2.1mm Tip
positive, not needed if socket
added to development board
Programming Adapter User’s Guide QF4A512-PA
Figure 1
3) Powering the Programming Adapter Board:
There are two ways to power the adapter board.
1: Power can be supplied by the development board by soldering a provided 2x8 jack onto the development board
same top edge that J5 is located. See the following diagram below:
2: Power can also be supplied by plugging in a +5VDC AC Adapter into CN4. This is a 2.1mm barrel connector tip
positive. Example Mouser# 412-106054 6VDC/500mA Manufacturer is Xicon, price is approximately $5. The DC
supply can vary from +5VDC to +9VDC. (Note: This voltage will show up in the prototyping area but not injury the
development board)
Rev A5, Feb 09 2 www.quickfiltertech.com
Figure 2
Programming Adapter User’s Guide QF4A512-PA
4) Plugging in the adapter board:
See figure 3 for alignment. The QF4A512 programming adapter should be pushed down evenly not at an angle.
Note, by adding the 3 additional headers to the development board signals will be brought up to the programming
adapter board through J1-J4. See below.
Align the programming
board as shown when
plugging it into the
development board
Note: R2,R6,R11,R15
create the single
ended configuration
for the PA board and
Adding the three additional
headers brings the signals from the
BNC connectors up to the
programming adapter board.
development board
Figure 3
5) Input level and protection scheme:
The QF4A512 programming adapter is DC coupled with input voltage protection only. With no modifications the
largest signal is 2Vpp AC coupled. Voltages larger than 3.0V will activate the internal protection diodes which are
series limited with 100ohms. These resistors can be changed to simulate the target system including a spo t to add
AC coupling.
6) Programming example:
Step 1: Plug in the USB cable to the development board. Make sure the programming adapter board is powered
either from the development board or through the AC Adapter plugged into CN4.
Rev A5, Feb 09 3 www.quickfiltertech.com
Programming Adapter User’s Guide QF4A512-PA
Step 2: Make sure the power to the socket is “off” this done by pushing SW1 until the red light is OFF.
Step 3: Put a QF4A512 into the socket by pushing down evenly on both sides of the socket while making sure to take
note of the proper pin alignment of PIN1. See figure 4.
Make sure Pin1
lines up with the
socket Pin1
Figure 4
Step 4: Push SW1 so that the red LED is ON. See Figure 5
Red light should
be OFF when
changing parts
Rev A5, Feb 09 4 www.quickfiltertech.com
Figure 5
Programming Adapter User’s Guide QF4A512-PA
Step 5: Run Quickfilter software QFPro version 4.0 Build 16 or later version. If installing this newer software, please
uninstall the previous version of Quickfilter software first.
Step 6: Select “View” from the upper left options, select “Preferences”, check the box advanced features.
Step 7: Choose “View” Chip Control. One: Check the “Use Programming Adapter” box in the lower right hand corner.
This is step 1 in figure 6 below.
Note: If the “Use Programming Adaptor box does not appear it’s because there isn’t a QF4A512 loaded
into the Programming Adaptor, and / or the power button wasn’t pressed on showing a red LED on the
programming adapter before the QFPro software was run. Select Chip Master Reset to refresh.
Step 8: Open your configuration file that you want to program into the part. “File, Open configuration”. Or “File,
Import Image” to select a hex file.
Step 9: Download the configuration into the RAM on the QF4A in the programming adapter by selecting the
“Download” box labeled 2 in figure 6 above.
Rev A5, Feb 09 5 www.quickfiltertech.com
Figure 6
Programming Adapter User’s Guide QF4A512-PA
Step 10: Click the Copy data from RAM to EEPROM labeled 3 in figure 6 above. Once programming is complete
which may take over a minute push SW1 off so the red LED is OFF.
Programmers note – Parts and board may be destroyed if the RED LED is ON when
swapping parts. Make sure to switch power off to the socket by depressing SW1.
Step 11: Remove the programmed part, put the next QF4A512 to be programmed in the socket taken note of the
correct Pin 1 orientation. Push SW1 on so that the red LED is back ON.
Step 12: Repeat by pressing Download (Step 9). Then press copy data from RAM to EEPROM again
(Step 10) above for each programmed part.
In order to see the displayed FFT results with auto configure or (auto configure a nd auto-start) set when using the
programming adapter board, the copy data from EEPROM to RAM button needs to be selected to start the software’s
FFT display running. Make sure to press the STOP button before pressing Copy data from EEPROM to RAM button.
7) Auto configure and Auto Start options:
Recall that the QF4A512 can have auto configure and auto start set. If this occurs on either the QF4A512 – PA board
with a part in the socket, or on the QF4A512 part on the main development board, a conflict can occur at power up.
Programmers note – In some cases the QF4A512 parts may have been programmed with
auto configure and auto start enabled. If the power is cycled, or the programmed part is put
back in the socket, the QF4A512 will start running automatically. Make sure to press the
“Stop” Button before selecting the “Copy data from RAM to EEPROM” button.
This can be solved by simply “resetting” the chip by pressing the “Reset Chip” Button on the configuration screen then
press the stop button.
8) Using an external clock source:
Since the crystal is lightly loaded, an external driving clock source can directly run the internal PLL.
You do not need to remove the 1 Meg resistor, crystal or 18 pF loading capacitors from the development board.
Simply apply the external clock source to Test Point TP22. Make sure to tell the Quickfilter software the external
clock frequency used when regenerating the QFP file.
Rev A5, Feb 09 6 www.quickfiltertech.com
Programming Adapter Kit User’s Guide QF4A512-PA
Designer’s note – The allowable input range is 5 MHz to 200 MHz.
The clock input on Pin 22 to the phase lock loop is a 1.8 Volt level. Therefore the amplitude
of the incoming clock source should be 1.62 to 1.98 Volts Peak to peak. Since the input is
AC coupled, a DC offset can exist. The clock can be a sine wave, or square wave.
9) List of Test Point Definitions:
TP1 = +5V from DC wall adapter.
TP2 = +3.3V from on board regulator.
TP3 = +1.8V from on board regulator.
TP22 = External clock input.
GND = Ground point for external clock and voltage measurement.
10) Schematics:
The following are the full schematics for the QF4A512 Programming Adapter Board.
CH 1
CH 2
CH 3
CH 4
TP1
TP4
TP5
TP8
TP9
TP12
TP13
TP16
J1
1
3
5
CONN PLUG 3x2
J2
1
3
5
CONN PLUG 3x2
J3
1
3
5
CONN PLUG 3x2
J4
1
3
5
CONN PLUG 3x2
R1 0
R3 0
R6 0
R8 0
R10 0
R12 0
R14 0
R17 0
R2 100
R4 100
NO STUFF
ON CAPS
R7 100
R9 100
NO STUFF
ON CAPS
R11 100
R13 100
NO STUFF
ON CAPS
R15 100
R18 100
NO STUFF
ON CAPS
C5
0.1uF
C11
0.1uF
C16
0.1uF
C20
0.1uF
0805
0805
0805
0805
C6
0.1uF
C12
0.1uF
C17
0.1uF
C21
0.1uF
0805
0805
0805
0805
2
4
6
2
4
6
2
4
6
2
4
6
0.1uF
0603
3V3
1
2
3
4
5
6
7
8
QF4A512
1V8
C23
U1
A1N
A1P
A2N
A2P
A3N
A3P
A4N
A4P
C19
0.1uF
0603
AGND
AGND
AVDD33
DVDD18
DGND
DGND
9101112131415
1V8
0.1 uF
C22
0603
2829303132
AGND
AVDD18
AVDD18
CSN
DRDY/SEL
SDO
Optional
for orginal
CS1
PVDD18
SDI
1V8
252627
XVDD18
DVDD33
DVDD18
16
PGND
DGND
SCLK
XGN D
XOU T
RSTN
C18
0.1 uF
0603
XIN
24
23
22
21
20
19
18
17
R21 0
R19 0
1Meg
RESET
SCLK
DIN
DOUT
DRDY
CS2
CS1
1V8
X1
20.000 MHz
R5
1 2
1V8
C15
0.1uF
0603
C9
18 pF
0805
TP22
C7
18 pF
0805
1
C8
0.1uF
0603
3V3
C13
0.1uF
0603
Rev A4, Feb 09 7 www.quickfiltertech.com
Programming Adapter Kit User’s Guide QF4A512-PA
+5V from USB
0.1" Header Can Be Stuffed
on QF4A512DK board to
bring +5V power to the
adapter board
J5
2
NC
4
NC
6
HEADER 3X2
+5V
1
3
5
External +5V source
option, Tip positive,
Barrel ground
CN4
2.5mm J ac k , PJ -002AH
Optional
power from
external
source
11) Silk Screen:
1
3
2
D8 (F1)
FUSE
Power "On"
Indicator
Can be removed to isolate power when
using external supply. Up to 15V DC
is acceptable, although +5V DC is
recommended. Note the external power
is sent back to the development boards
prototyping area and regulators if the
fuse is not removed.
Switches Power on
and off to the
Socket U1
TP1
SW1
1
12
D1
R20
Blue LED
1K
SW DPDT
5V0
+
C67
10uF
12
D2
Red LED
R22
150
3.3V REGULATO R
800mA Maximum
U9 REG1117/SOT
3 2
VIN VOUT
GND
1
Power "On"
Indicator
SPI
P5
2
SCLK
DOUT
DRDY
RESET
DIN
CS1
CS2
1
3
5
7
9
11
13
PLUG 7X2
4
6
8
10
12
14
1.8V REGULATO R
3V3
TP2
1
C65
+
10uF
C69
0.1uF
0603
Ultra Low Noise
250mA
U8
8
VIN
7
NC
6
EN
TPS79418DGNT
VOUT
BYPGND
NC
FB
TP3
1
C66
0.01 uF
0603
1V8
C68
3.3 uF
0805
1
2
3
45
Rev A5, Feb 09 8 www.quickfiltertech.com
Programming Adapter Kit User’s Guide QF4A512-PA
Contact Information:
Quickfilter Technologies, Inc.
1024 S. Greenville Avenue, Suite 100
Allen, TX 75002-3324
General: info@quickfilter.net
Applications: apps@quickfilter.net
Sales: sales@quickfilter.net
Phone: 214-547-0460
Fax: 214-547-0481
Web: www.quickfiltertech.com
The contents of this document are provided in connection with Quickfilter Technologies, Inc. products. Quickfilter makes no representations or warranties with respect to the
accuracy or completeness of the contents of this publication and reserves the right to make changes to specifications and product descriptions at any time without notice. No
license, whether express, implied, arising by estoppel or otherwise, to any intellectual property rights is granted by this publication. Except as set forth in Quickfilter's Standard
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the implied warranty of merchantability, fitness for a particular purpose, or infringement of any intellectual property right.
Quickfilter's products are not designed, intended, authorized or warranted for use as components in systems intended for surgical implant into the body, or in other
applications intended to support or sustain life, or in any other application in which the failure of Quickfilter's product could create a situation where personal injury, death, or
severe property or environmental damage may occur. Quickfilter reserves the right to discontinue or make changes to its products at any time without notice.
Quickfilter, the Quickfilter logo and combinations thereof, are trademarks of Quickfilter Technologies, Inc.
Other product names used in this publication are for identification purposes only and may be trademarks of their respective companies.
Rev A5, Feb 09 9 www.quickfiltertech.com
© 2008 Quickfilter Technologies, Inc.
All rights reserved.
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