Here is the mod to restore your HT to full coverage. The first we "trick" the CPU to think it is in a test mode on each band. Then the 440 mother board must be modified to switch the incoming rf into a divide by 2 prescaler. the out put of this is then fed into the 440 receiver like a normal 350-500 MHz signal. Here we go with the first part of the mod. Going through with this will cause the CPU to be reset and clear all the memory information. Make a back up of the radio first if you don't want to loose any thing. 1. Open up the radio (refer to fig 1) a. Remove the Knob and the lock nut from around the shaft. I find a small screw driver to work well for this. If you have a spanner wrench use it! b. Remove the screw from in between the MIC and speaker jacks. c. Remove the 4 screws from the back metal panel, and the 4 screws from the plastic L cover over the back of the key pad. d. Remove the battery release tab from the back, and the 2 screws securing the L cover to the metal back cover. e. Remove the front cover, beeing careful not to loose the gasket. f. Release the flat ribbon cable from the Main Unit. Then angle the Main unit upwards and pull it away from the radio. 2. Change the solder jumpers on the radio. (refer to fig 2) a. There are 7 jumpers next to the the sub CPU, Q1001 arranged in the below fashion: () JP1001 () JP1002 () JP1003 () JP1004 () JP1005 () JP1006 () JP1007 b. If you open solder pad JP1006 you will have extended transmit, JP1007 will allow you to change the Band and IF selection in the internal alignment menu. (more on this in the next part of the mod.) JP1004, if closed, will give you a tone burst in place of the monitor switch, and vice versa. c. To make this mod work, you must open JP1006, and JP1007. 3. Once the jumpers are configured, reassemble the radio temporarily. a. Insert the MAIN Board into the alumion panel and attach the ribbon cable to the main unit. b. Replace the front cover and L cover, and secure with a few screws. 4. The radio must be put into a "Internal System Alignment Routine". a. Attach the battery to the radio. b. Turn the radio on whilst holding the 2 volume and squelch buttons and the call buttons. 5. This will provide access to alignment menu which will allow you to adjust these settings for each band. To select the setting you want to adjust use the dial. To adjust the setting press the FM key until "F" blinks. Once you are done adjusting the setting tap the FM key. This will save the setting. once you are done with every thing, you must make all changes permanent. To do this press the CALL key. The radio will power off. a. Band and IF b. S-meter c. Deviation (low and High) d. Squelch I will describe each of these settings in appendix A. 6. All we need to do is adjust the Band edge setting for each band. The setting for each band is "BAND 7". I have a partial list of the different band layouts listed in appendix B. a. First press the FM key and use the up and down keys to get the display to read "BAND 7" on the VHF Side, press FM to save the setting. b. Press the band key to get to the other band c. Press the FM key and use the up and down keys to get the display to read "BAND 7" on the UHF Side, press FM to save the setting. d. Push the Call key to save all settings. The radio will turn off. 7. Turn the radio on. It should now tune from 60-999 MHz on each Band. 8. If all you wanted was the expanded receive with out 700-999 MHz, you are done! If not, it time for the hard part. Modifying the 440 board In this section you will be installing some switching transistors on the 440 Mother Board. This involves very small SMD parts. If you are not careful you can messup your radio! 1. you will need the fowling parts from yaesu: PART TYPE YAESU P/N C3082 -- 2 pF -------------- K22148206 C3089 -- 2 pF -------------- K22148206 C3090 -- 2 pF -------------- K22148206 c3091 -- 2 pF -------------- K22148206 C3108 -- .001 µF ----------- K22148820 L3021 -- .022 µH ----------- L1690381 L3030 -- .0068 µH ---------- L1690378 Q3031 -- 2SC4227-R32 ------- G3342277B Q3032 -- 2SC4228-R42 ------- G3342287B Q3038 -- 2SC4228-R42 ------- G3342287B Q3039 -- 2SC4228-R42 ------- G3342287B R3054 -- 33K --------------- J24189155 R3055 -- 33k --------------- J24189155 R3060 -- 1k ---------------- J24189119 R3066 -- 470 --------------- J24189111 R3071 -- 470 --------------- J24189111 2. Expose the 440 MHz board. (again refer to fig 1) a. Remove the Knob and the lock nut from around the shaft. I find a small screw driver to work well for this. If you have a spanner wrench use it! b. Remove the screw from in between the MIC and speaker jacks. c. Remove the 4 screws from the back metal panel, and the 4 screws from the plastic L cover over the back of the key pad. d. Remove the battery release tab from the back, and the 2 screws securing the L cover to the metal back cover. e. Remove the front cover, beeing careful not to loose the gasket. f. Release the flat ribbon cable from the Main Unit. Then angle the Main unit upwards and pull it away from the radio. g. Remove the contact unit (the small board that the ribbon cable goes into, that is plugged into the 144 and 440 units.) by alternately prying gently up on each corner of it with a small flat screw driver. h. Remove the 4 screws in shield over the 144 unit, and the 1 screw that goes into the the board it self. i. Lift the top shield, the 144 board, and the second shield over the 440 board. j. Remove the screw from the antenna connector, and lift the 440 unit out of the radio. 2. Install these parts according to the parts layout diagram (fig 3 also fig 4 shows the board from my radio) 3. Reassemble the radio. 4. Power the radio on, you should be able to receive 700-999 MHz now. Notes on the performance of the mod: I have done this to my radio, S/N 5H132340, and it has worked just fine. The sensitivity in not great, but it works well enough to receive my local police department on 856.2125. The step size is fixed to 12.5 kHz, but you can enter any frequency you like on the keypad, and it will work. The shitty software from R/T Sys will not allow you to program or edit any memory that has 700-999 programed into it! Here is the sensitivity of my radio for a 12 dB SINAD ratio. FREQ. µV dBm 600 none none 650 none none 700 133 -64.5 750 77.4 -69.2 800 31.8 -76.9 850 9.8 -87.1 900 9.3 -87.7 950 25.1 -79.0 999 30.3 -77.4 Appendix A INTERNAL SYSTEM ALIGNMENT These adjustments are all done in software, if you want to change the deviation, or the responce of the S-meter you can easily do it from the keypad. The setting of each adjustment is separate for each band. 1. Deviation adjustment. The radio will allow you to adjust the high and low gain separately, which allows you to "customize" the transmit audio for you own voice. The adjustment for the high frequency's is "MOD H" and the setting for low frequency's is "MOD L". These can be adjusted with the up and down keys. The factory says to adjust the radio to 4.2-4.5 kHz with a 25mV 1 kHz tone fed into it. 2. S-Meter The adjustments that can be made here require the radio be receiving a signal to set the adjustment, as it can not be adjusted with the up and down keys, like the deviation can be. The "S-FULL" adjustment sets the amount of signal that would cause the S-Meter to light fully. The factory says the amount of signal to inject to the receiver, is +20dBµ with 1 kHz tone and 3.5 kHz deviation. The "S-1" adjustment sets the amount of signal that would cause the very first unit to light on the S-meter. The factory says the amount of signal to inject to the receiver, is -5dBµ with 1 kHz tone and 3.5 kHz deviation. 3. Squelch This setting adjusts the action of the squelch. (this is my understanding) The Squelch circuit is a Bi-level acting squelch, meaning that as long as a strong signal is being received the squelch will chop off immediately after losing a Carrier. When the signal is weak, there is some hysteresis introduced into the circuit to prevent it from chopping a weak signal. The first adjustment, "SQL TH" will set the Threshold for a weak signal. The factory setting is a -11dBµ signal. You can mess with this if you want to, but it is best to leave it alone. if you do write down your present settings first. The second adjustment, "SQL TI" sets the signal level required to cause the squelch to close at the end of a signal with out leaving a burst of static (i.e. a squelch tail). This is set at -5dBµ from the factory. This can also cause a signal that is very wide (5-6 kHz of deviation) to clip. If this happens to you, but the signal sounds fine when listing to it with the squelch open, this needs to be set to a larger signal level. I have had to do this to my radio, as quite a few hams have rich audio! 4. IF selection I have no idea what this does other than setting the receive frequency different from the displayed freq. I have experimented with this setting on VHF and found the following off sets for the actual RX frequency vs. the displayed frequency. IF # Offset (All in MHz) 1 +29.8 2 +27.8 3 +23.25 If you have any info on this at all please write me an email and let me know. Appendix B Band setting I have Experimented with the BAND setting and have found the following limits on VHF for the various settings of it. Band # RX Range TX Range 0 60-180, 300-512 144-148 2 110-180 140-174 3 110-180 140-174 4 110-180 144-146 5 144-146 144-146 6 110-180 144-148 7 60-999 60-999 UHF 0 300-512, 700-999, 60-180 440-443 If you have any corrections/additions to this please email me with them. Appendix C Settings of my radio (S/N 5H132340) from the factory. Setting VHF UHF Band 1 1 IF # 0 0 S-FULL BB 66 S-1 47 23 SQL TH 72 84 SQL TI 45 5D MOD L 25 20 MOD H 27 24 Appendix D Avaliable tuning steps for various band segments. This part was submitted by Kent, KB1ESG. Side Rx range (MHz) Available Steps (KHz) ___________________________________________ VHF 60 - 179.95 5, 10, 12.5, 15, 20, 25, 50 180 - 999 10, 12.5, 20, 25, 50 UHF 60 - 699.995 5, 10, 12.5, 15, 20, 25, 50 700 - 999 12.5 This is version 2.1 of this document and may be posted by any one, to any place in cyberspace. You may not charge for access to any place it is posted. It may not be published in any book with out my express written concent. You may modify as long as credit is given to Me (KB9MCI), Yaesu Japan, Marty N8XIH, Kent KB1ESG, and a copy it is emailed to me. This copyright statement must remain in place on any copy's of this document. Bryan Fields, KB9MCI Bryan@kb9mci.net (708)-862-3485