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Radio Shack PRO- Scanner Mods by Mark A. Day N OQK @ CHO
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Radio Shack PRO-2006 Scanner Mods
by Mark A. Day N4OQK @ CHO
Introduction
The PRO-2006 is probably the worlds most versatile scanner to date.
Modifications are easily implemented, and upgrade performance over stock
units tremendously. Enjoy, and keep scanning!
Mod#1 : Cellular restoration
Parts : NONE
To restore the missing CMT frequencies, merely clip diode D502.
It is located in the upper left corner of the CPU/display board.
Mod#2 : Scan rate increase
Parts : 16Mhz. Quartz Crystal - fundamental cut
Replace CX503 (12Mhz) with a 16Mhz crystal, clip diode D503 (near D502)
The unit now scans at around 40 channels per second.
Mod#3 : Squelch hysteresis suppression
Parts : 100-200K ohm 1/8w resistor
Locate R152 (33K) on the linear PCB (main board). This is a tricky
resistor to get to, since it is on the bottom side of the board.
Remove this resistor, and replace it with a 100-200K resistor. The
higher the resistance, the less hysteresis will be present. I found
100K gave me all the razor-sharpness I was looking for, without
sacrificing performance.
Mod#4 : "S" meter output
Parts : 10Kohm 1/8w resistor, 0.1 uf capacitor
Locate D33 on the linear PCB. Solder in the 10K resistor to the ANODE
of this diode. Note this is not the same as TP2. Connect a wire from
the free end of this resistor to a rear panel jack (RCA). Solder the
0.1uf capacitor from the jack's center terminal to ground. Output on
this jack follows the AGC voltage. Negative for no signal, goes
positive when a signal is present, increasing with signal strength.
A 1Volt full scale panel meter makes a good "S" meter
Mod#5 : Increased headphone audio
Parts : NONE
Locate resistor R228 (27 ohm) on linear board (near IC7).
Remove this resistor and replace it with a jumper wire.
Mod#6 : 6400 channel memory capacity (ADVANCED TECHNICIANS ONLY!)
Parts : Hitachi HM62256LFP-12 (256Kx8 SRAM) or equivalent (flat pack required)
4 Position DIPswitch
10KOhm resistor SIP (or 4 10K 1/8w resistors)
This modification is complicated, so don't try it if you're not fully
sure of youre ability.
1) Remove front panel from scanner, disconnect wiring harnesses.
You will lose all current programs (Sorry!)
2) Remove metal shield from panel CAREFULLY!
Remove screws holding CPU board in front panel.
Carefully separate CPU board from keyboard.
3) Locate IC505 next to CPU and remove it from the board.
Notice this is a 24pin IC, and that there are 4 extra pads
to the top of pin 1. All pin numbers given hereafter will
refer to the new 28 pin IC, with pin 4 being the old IC's
pin 1. Follow me? The pads for the new IC are already present.
4) To adapt to the new RAM, a few traces must be sliced.
A) Slice the trace connecting pin 28 to pin 26
B) Slice trace connecting pin 27 to pin 23 (bottom of board)
C) Slice trace connecting pin 2 to ground (bottom of board)
5) Install the new RAM, and connect a jumper from CPU IC501
pin 67 (+5V) to pin 28 of the new RAM.
6) To address the extended memory, external switches must be added
and connected to the unused address lines of the new RAM.
Just how you implement this is up to you. Regardless of how you
do it, you will need to connect a wire bundle from the new RAM
pins 1,2,23,26 to the outside world. I mounted a jack on the rear
panel into which a 4 position dipswitch can be mounted.
7) Add pullup resistors from new address lines to +5V, available at
pin 3 of the +5V regulator IC8.
8) Reassemble unit, installing all shields and ground straps.
9) Testing & checkout
A) With all switches 'OFF' enter '1000.000' into memory channel 1.
B) Toggle switch 1 to on and return to channel 1. Enter '1001.000'
C) Repeat for all switch combinations. Lockout channel 1 in each
of the 16 memory blocks. You now have a coded channel to key
you in on which block you're scanning.
D) Enjoy 6400 channels of pure scanning power!
You now have:
16 Blocks of 400 memory channels per block
160 Search ranges (10 per block)
160 Temporary scratchpad channels (10 per block)
Notice that custom settings (delay/mode) are unique to EACH
channel, but priority and speed are common to all blocks.
You might dedicate a common channel in each block to be the
priority channel
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