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NEWS |
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NEWS |
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==== |
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==== |
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11.11.2010 |
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11.11.2010 |
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Firmware was edited to work without bootloader falashing tool. |
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Firmware was edited to work without bootloader falashing tool. |
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So simply program PIC18F4550.hex in to PIC18F4550v01A module with 20MHz crystal. |
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So simply program PIC18F4550.hex in to PIC18F4550v01A module with 20MHz crystal. |
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Connect it via I2C to CLKGEN01A. And you have wide tunable LO compatible with DG8SAQ USB Si570 synthesiser! |
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Connect it via I2C to CLKGEN01A. And you have wide tunable LO compatible with DG8SAQ USB Si570 synthesiser! |
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14 Apr 2009 |
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14 Apr 2009 |
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The UBW has 1 power indicator LED, and 2 blinking LED's usually used to indicate the |
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The UBW has 1 power indicator LED, and 2 blinking LED's usually used to indicate the |
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status of USB connections with the PC. |
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status of USB connections with the PC. |
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Charles (and maybe some of you) finds the blinking LED's to be too bright and |
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Charles (and maybe some of you) finds the blinking LED's to be too bright and |
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distracting. |
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distracting. |
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|
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So I have implemented a toggle switch (the PRG button) function for you to turn |
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So I have implemented a toggle switch (the PRG button) function for you to turn |
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the blinking on or off. |
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the blinking on or off. |
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|
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Once turned on or off, the setting is stored in EEPROM, so it will continue to |
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Once turned on or off, the setting is stored in EEPROM, so it will continue to |
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behave this way when you power off and next power on the UBW. |
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behave this way when you power off and next power on the UBW. |
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|
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The default setting is LED blinking ON. So when you (re)flash the firmware, the |
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The default setting is LED blinking ON. So when you (re)flash the firmware, the |
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default is active. |
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default is active. |
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|
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14 Mar 2009 |
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14 Mar 2009 |
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|
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I have just released the latest version of my UBW Emulator firmware. It now |
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I have just released the latest version of my UBW Emulator firmware. It now |
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has (almost) all the functionalities of Fred (PE0FKO)'s v15.10 firmware for |
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has (almost) all the functionalities of Fred (PE0FKO)'s v15.10 firmware for |
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ATTINY45 and ATTINY85. All the functions are accessible with Winrad with Fred's |
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ATTINY45 and ATTINY85. All the functions are accessible with Winrad with Fred's |
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ExtIO_Si570_v0.8.dll, including the wonderful option of setting of the |
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ExtIO_Si570_v0.8.dll, including the wonderful option of setting of the |
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filter crossover points from the software. The crossover points are stored |
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filter crossover points from the software. The crossover points are stored |
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in the UBW EEPROM so it will persist until changed again. Another new feature |
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in the UBW EEPROM so it will persist until changed again. Another new feature |
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is the setting of floating point offset and multiplier in the firmware. This |
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is the setting of floating point offset and multiplier in the firmware. This |
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complements the setting of offset and (usually) integer multiplier in the PC |
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complements the setting of offset and (usually) integer multiplier in the PC |
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SDR software. |
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SDR software. |
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|
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Winrad/ExtIO can be used to calibrate the UBW/Si570 (2 methods are available - |
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Winrad/ExtIO can be used to calibrate the UBW/Si570 (2 methods are available - |
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calibrating the default freq, or against a known station freq, eg. WWV). |
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calibrating the default freq, or against a known station freq, eg. WWV). |
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Once calibrated, there is no need to calibrate other software - both set |
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Once calibrated, there is no need to calibrate other software - both set |
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freq by value and set freq by register will give the correct calibrated |
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freq by value and set freq by register will give the correct calibrated |
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freq now. In PowerSDR, leave the fxtal freq at the default 114.285 Mhz. |
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freq now. In PowerSDR, leave the fxtal freq at the default 114.285 Mhz. |
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The new UBW Emulator works perfectly with Rocky v3.6, PowerSDR-sr40, |
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The new UBW Emulator works perfectly with Rocky v3.6, PowerSDR-sr40, |
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and PowerSDR-IQ. (set the Fxtal freq in the setup tab to the default 114.285 Mhz). |
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and PowerSDR-IQ. (set the Fxtal freq in the setup tab to the default 114.285 Mhz). |
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With Fred's v15.10 firmware in the ATTINY, users can use the ATTINY based USB |
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With Fred's v15.10 firmware in the ATTINY, users can use the ATTINY based USB |
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interfaces to do auto band switching of the mobo for Rx. To be able to do both Rx |
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interfaces to do auto band switching of the mobo for Rx. To be able to do both Rx |
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and Tx BPF switching, Rx/Tx switching (PTT), and external LPF switching, from a |
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and Tx BPF switching, Rx/Tx switching (PTT), and external LPF switching, from a |
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single USB connection, there are only 3 uC solutions that I know of: |
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single USB connection, there are only 3 uC solutions that I know of: |
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|
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|
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1. The UBW (or UBW32) with this UBW firmware |
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1. The UBW (or UBW32) with this UBW firmware |
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2. Dave Brainerd's HSUSB, with firmware by Christos |
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2. Dave Brainerd's HSUSB, with firmware by Christos |
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3. Arduino board (or clone), with PE0FKO firmware modified by Loftur TF3LJ. |
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3. Arduino board (or clone), with PE0FKO firmware modified by Loftur TF3LJ. |
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See Message #31623 |
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See Message #31623 |
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UBW EMULATOR |
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UBW EMULATOR |
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============ |
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============ |
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This is the UBW emulator firmware for emulating the AVR based |
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This is the UBW emulator firmware for emulating the AVR based |
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DG8SAQ USB Si570 synthesiser, and Tony's USB-i2C Interface. |
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DG8SAQ USB Si570 synthesiser, and Tony's USB-i2C Interface. |
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It emulates most of the functions of the orginal DG8SAQ firmware. |
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It emulates most of the functions of the orginal DG8SAQ firmware. |
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In addition, it emulates the new functions of the PE0FKO firmware (v15.10) |
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In addition, it emulates the new functions of the PE0FKO firmware (v15.10) |
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by Fred, with smooth tune, calibration, setting of Auto BPF crossover |
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by Fred, with smooth tune, calibration, setting of Auto BPF crossover |
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points, setting of startup freq etc. After calibration of the UBW, |
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points, setting of startup freq etc. After calibration of the UBW, |
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both set freq by value (used by Rocky) and set freq by register (used by |
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both set freq by value (used by Rocky) and set freq by register (used by |
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PowerSDR-sr40, with the fxtal freq set to the default 114.285 Mhz) will |
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PowerSDR-sr40, with the fxtal freq set to the default 114.285 Mhz) will |
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give the correct calibrated freq output from the Si570. No further |
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give the correct calibrated freq output from the Si570. No further |
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calibration with the PC software is required. |
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calibration with the PC software is required. |
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|
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I would like to thank Joe Hopster who wrote the original UBW Si570 |
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I would like to thank Joe Hopster who wrote the original UBW Si570 |
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code, Tom DG8SAQ for the AVR synthesiser code, Mike Collins who has |
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code, Tom DG8SAQ for the AVR synthesiser code, Mike Collins who has |
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been invaluable in helping with the debugging and testing, John Fisher |
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been invaluable in helping with the debugging and testing, John Fisher |
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for the code example on Si570 slide, Edson for advice on BPF selection coding, |
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for the code example on Si570 slide, Edson for advice on BPF selection coding, |
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bug fixing and testing, Fred for help to emulate his v15.7 firmware, |
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bug fixing and testing, Fred for help to emulate his v15.7 firmware, |
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and others who have contributed so much to Softrock and Si570. |
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and others who have contributed so much to Softrock and Si570. |
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The emulator firmware HEX file is loaded in the UBW (either PIC |
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The emulator firmware HEX file is loaded in the UBW (either PIC |
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18F2455, 18F2550 or 18F2553 version) by the Microchip USB bootloader. |
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18F2455, 18F2550 or 18F2553 version) by the Microchip USB bootloader. |
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See UBW website for more details about the bootloader. |
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See UBW website for more details about the bootloader. |
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|
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Before starting the firmware (via the reset button, or on power up by |
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Before starting the firmware (via the reset button, or on power up by |
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plugging in the USB), the UBW should be connected via i2c interface to |
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plugging in the USB), the UBW should be connected via i2c interface to |
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an Si570. Power up the Si570 before the UBW. |
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an Si570. Power up the Si570 before the UBW. |
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There are several ways for connecting the UBW with the Si570. |
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There are several ways for connecting the UBW with the Si570. |
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(1) Connection is with 4 wires, +5V, Gnd, SCL, SDA, to an i2c |
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(1) Connection is with 4 wires, +5V, Gnd, SCL, SDA, to an i2c |
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level converter, and then to Si570 with 4 wires, +3V3, Gnd, SCL, and |
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level converter, and then to Si570 with 4 wires, +3V3, Gnd, SCL, and |
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SDA. If you use the WB6DHW Si570 board, it has the level converter built-in. So |
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SDA. If you use the WB6DHW Si570 board, it has the level converter built-in. So |
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You can just connect the 4 wires to the header pins on the WB6DHW board. Note |
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You can just connect the 4 wires to the header pins on the WB6DHW board. Note |
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that the order of the 4 wires on the UBW is: GND, VCC, RB0, RB1. The order |
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that the order of the 4 wires on the UBW is: GND, VCC, RB0, RB1. The order |
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of the 4 header pins on WB6DHW board is: +5V, GND, SDA, SCL. |
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of the 4 header pins on WB6DHW board is: +5V, GND, SDA, SCL. |
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|
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(2) If you are not using an IC such as GTL2002 for +5V to +3V3 conversion, you |
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(2) If you are not using an IC such as GTL2002 for +5V to +3V3 conversion, you |
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can use discretes with the Philips (see AN97055 from Philips) |
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can use discretes with the Philips (see AN97055 from Philips) |
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i2c level converter circuit using 2 BS170's. |
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i2c level converter circuit using 2 BS170's. |
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|
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(3) The UBW Emulator firmware sets up the SCL and SDA pins as open collector outputs. |
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(3) The UBW Emulator firmware sets up the SCL and SDA pins as open collector outputs. |
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So you can just connect 3 wires from the UBW to the +3v3 Si570 on the Softrock: |
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So you can just connect 3 wires from the UBW to the +3v3 Si570 on the Softrock: |
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GND, SCL and SDA. The SCL and SDA lines will have pullup resistors to +3V3 on the |
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GND, SCL and SDA. The SCL and SDA lines will have pullup resistors to +3V3 on the |
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Softrock pcb. This has been tested to work. HOwever, there is the risk that |
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Softrock pcb. This has been tested to work. HOwever, there is the risk that |
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if the UBW firmware malfunctions for some reason (eg loading the wrong firmware instead |
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if the UBW firmware malfunctions for some reason (eg loading the wrong firmware instead |
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of the Emulator firmware), the RB0 and RB1 (SDA and SCL) pins may go to output high of |
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of the Emulator firmware), the RB0 and RB1 (SDA and SCL) pins may go to output high of |
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+5V, which may damage the Si570 or other +3V3 chips. |
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+5V, which may damage the Si570 or other +3V3 chips. |
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The PC will detect the new USB device as a DG8SAQ-I2C device and as |
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The PC will detect the new USB device as a DG8SAQ-I2C device and as |
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far as the PC is concerned, the UBW behaves almost exactly like the |
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far as the PC is concerned, the UBW behaves almost exactly like the |
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USB Si570 synthesiser (which is based on the AVR uController). When |
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USB Si570 synthesiser (which is based on the AVR uController). When |
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prompted by the PC to install the driver for this device, you install |
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prompted by the PC to install the driver for this device, you install |
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the AVR USB driver (from the USB Si570 synthesiser software download). |
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the AVR USB driver (from the USB Si570 synthesiser software download). |
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You will also need the libusb0.dll and libusb0.sys files installed |
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You will also need the libusb0.dll and libusb0.sys files installed |
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for the PC software to work (available also from the USB Si570 synthesiser |
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for the PC software to work (available also from the USB Si570 synthesiser |
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software package). |
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software package). |
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|
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The following PC software programs have been tested with the UBW emulation so far: |
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The following PC software programs have been tested with the UBW emulation so far: |
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|
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1. SI570_USB_Test.exe from the USB Si570 synthesiser software package |
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1. SI570_USB_Test.exe from the USB Si570 synthesiser software package |
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2. USB_Synth.exe from the USB Si570 synthesiser software package |
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2. USB_Synth.exe from the USB Si570 synthesiser software package |
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2. Rocky v3.6 |
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2. Rocky v3.6 |
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3. Guido's PowerSDR v1.9.0 sr40 |
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3. Guido's PowerSDR v1.9.0 sr40 |
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4. WinRad with Fred's ExtIO_Si570_v0.8.dll |
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4. WinRad with Fred's ExtIO_Si570_v0.8.dll |
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5. Christos's PowerSDR-IQ v1.12.20 |
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5. Christos's PowerSDR-IQ v1.12.20 |
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SI570_USB_Test.exe can be used test the USB communication and UBW |
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SI570_USB_Test.exe can be used test the USB communication and UBW |
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functions,and for calibrating the UBW-Si570 ie. |
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functions,and for calibrating the UBW-Si570 ie. |
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|
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(1) Click "Read Si570 Register" - the default Si570 startup frequency |
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(1) Click "Read Si570 Register" - the default Si570 startup frequency |
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and register values will be displayed |
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and register values will be displayed |
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|
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(2) If you know the actual startup frequency of your Si570 (which is |
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(2) If you know the actual startup frequency of your Si570 (which is |
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close to but generally not equal to the nominal startup freq of 56.32 |
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close to but generally not equal to the nominal startup freq of 56.32 |
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Mhz), you can do the calibration now by inputting the actual freq in the |
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Mhz), you can do the calibration now by inputting the actual freq in the |
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text box to the left of the "cal on startup freq", and then hit "cal |
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text box to the left of the "cal on startup freq", and then hit "cal |
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on startup freq". The UBW-Si570 is now calibrated for "set freq by |
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on startup freq". The UBW-Si570 is now calibrated for "set freq by |
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value". The calibration is stored in the EEPROM of the UBW and you do |
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value". The calibration is stored in the EEPROM of the UBW and you do |
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not need to re-calibrate again unless you reload the UBW firmware from |
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not need to re-calibrate again unless you reload the UBW firmware from |
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the .hex file. |
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the .hex file. |
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|
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|
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(3) Now you can input any freq desired in the text box and hit either |
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(3) Now you can input any freq desired in the text box and hit either |
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"set freq by value" or "set freq by register". The si570 should now |
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"set freq by value" or "set freq by register". The si570 should now |
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output the freq set by you. It should be accurate as set, and can be |
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output the freq set by you. It should be accurate as set, and can be |
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confirmed with an external freq counter. |
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confirmed with an external freq counter. |
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Many of the functions of the SI570_USB_Test.exe have been implemented, |
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Many of the functions of the SI570_USB_Test.exe have been implemented, |
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including Paddle input, RXTX level, etc. |
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including Paddle input, RXTX level, etc. |
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|
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|
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Both the "old" and "new" (with new icon) versions of USB_Synth.exe work in setting |
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Both the "old" and "new" (with new icon) versions of USB_Synth.exe work in setting |
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the Si570 freq. The old version uses set freq by value, and the new version |
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the Si570 freq. The old version uses set freq by value, and the new version |
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(with enhancements) uses set freq by register. |
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(with enhancements) uses set freq by register. |
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|
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If the SI570_USB_Test run is OK, you can fire up Rocky v3.6 to use the |
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If the SI570_USB_Test run is OK, you can fire up Rocky v3.6 to use the |
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Si570-USB functionality. Rocky uses the "set freq by value" method. You can use |
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Si570-USB functionality. Rocky uses the "set freq by value" method. You can use |
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the Rocky calibration function with the UBW, but it should not be necessary and should |
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the Rocky calibration function with the UBW, but it should not be necessary and should |
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be avoided. Use the calibration method in WinRad (see below under Calibration) or |
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be avoided. Use the calibration method in WinRad (see below under Calibration) or |
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the SI570_USB_Test.exe method (see above). |
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the SI570_USB_Test.exe method (see above). |
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|
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|
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PowerSDR works by "set Freq by Register" method. You can change freq by the band buttons |
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PowerSDR works by "set Freq by Register" method. You can change freq by the band buttons |
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or sliding the freq up and down with the mouse. Leave the Fxtal |
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or sliding the freq up and down with the mouse. Leave the Fxtal |
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freq in PowerSDR "Setup" to the default 114.285 Mhz. There is no need for |
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freq in PowerSDR "Setup" to the default 114.285 Mhz. There is no need for |
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further calibration. |
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further calibration. |
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|
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|
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To use Winrad, you have to download the ExtIO_Si570.dll by Fred PE0FKO. Put the v0.8 |
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To use Winrad, you have to download the ExtIO_Si570.dll by Fred PE0FKO. Put the v0.8 |
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dll in the same directory as Winrad (usually installed in "c:\Program Files\Winrad" directory). |
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dll in the same directory as Winrad (usually installed in "c:\Program Files\Winrad" directory). |
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|
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|
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|
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|
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Calibration |
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Calibration |
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=========== |
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=========== |
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You can use Winrad (with ExtIO_Si570_v0.8.dll by Fred) to do the calibration. This is the |
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You can use Winrad (with ExtIO_Si570_v0.8.dll by Fred) to do the calibration. This is the |
| 174 |
easier (and preferred method). There are two calibration methods in ExtIO_Si570.dll. One is |
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easier (and preferred method). There are two calibration methods in ExtIO_Si570.dll. One is |
| 175 |
calibrating to the factory default freq of the Si570 (a value close to 56.32 Mhz). The |
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calibrating to the factory default freq of the Si570 (a value close to 56.32 Mhz). The |
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other method is to tune Winrad to a known frequency station, eg. the WWV stations broadcasting |
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other method is to tune Winrad to a known frequency station, eg. the WWV stations broadcasting |
| 177 |
at 2.5 Mhz, 5.0 Mhz, 10.0 Mhz, 15.0 Mhz etc., and then put in the actual frequencies. For |
177 |
at 2.5 Mhz, 5.0 Mhz, 10.0 Mhz, 15.0 Mhz etc., and then put in the actual frequencies. For |
| 178 |
example, you may find a good signal of WWV at 10.023 Mhz. So the "tuned" freq is 10.023 Mhz, |
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example, you may find a good signal of WWV at 10.023 Mhz. So the "tuned" freq is 10.023 Mhz, |
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but the "real" freq is 10.000 Mhz. So you enter this real freq in the box and the hit "calibrate" |
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but the "real" freq is 10.000 Mhz. So you enter this real freq in the box and the hit "calibrate" |
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botton. |
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botton. |
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|
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|
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Si570 calibration can also be done with SI570_USB_Test.exe software, |
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Si570 calibration can also be done with SI570_USB_Test.exe software, |
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to calibrate the startup freq accurately once after loading (or reloading) |
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to calibrate the startup freq accurately once after loading (or reloading) |
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of the firmware .hex file. The calibration data are then stored in the UBW EEPROM. |
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of the firmware .hex file. The calibration data are then stored in the UBW EEPROM. |
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|
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If UBW is not connected to the Si570 |
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If UBW is not connected to the Si570 |
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==================================== |
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==================================== |
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I have eliminated the readstartupconfiguration() step. So now the UBW will NOT hang |
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I have eliminated the readstartupconfiguration() step. So now the UBW will NOT hang |
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when it is not connected to the i2c bus on startup. On connection to USB it will be |
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when it is not connected to the i2c bus on startup. On connection to USB it will be |
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recognized by the PC. |
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recognized by the PC. |
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|
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|
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Of course, if you try to communicate with the Si570 it will hang and disconnect from |
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Of course, if you try to communicate with the Si570 it will hang and disconnect from |
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the USB if you don't have the Si570 connected at this time. |
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the USB if you don't have the Si570 connected at this time. |
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|
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|
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Restoring EEPROM to factory default condition |
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Restoring EEPROM to factory default condition |
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============================================= |
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============================================= |
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|
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|
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After the UBW EEPROM is corrupted (eg. by mis-calibration), you can restore the factory default |
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After the UBW EEPROM is corrupted (eg. by mis-calibration), you can restore the factory default |
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by reloading the .hex file. (Thanks to Mike for the suggestion.). Alternatively, you can use |
200 |
by reloading the .hex file. (Thanks to Mike for the suggestion.). Alternatively, you can use |
| 201 |
SI570_USB_Test.exe to sent 41 (hex) in the "request" box, and ff (hex) in the "Value" box, |
201 |
SI570_USB_Test.exe to sent 41 (hex) in the "request" box, and ff (hex) in the "Value" box, |
| 202 |
then click "USB ctrl msg Data to Host". This then clears the EEPROM in the UBW to the default |
202 |
then click "USB ctrl msg Data to Host". This then clears the EEPROM in the UBW to the default |
| 203 |
condition and when you reset the UBW (hit the reset botton on the uBW, or by powering off |
203 |
condition and when you reset the UBW (hit the reset botton on the uBW, or by powering off |
| 204 |
and then on again). |
204 |
and then on again). |
| 205 |
|
205 |
|
| 206 |
Using Winrad, there is a "reset" botton at the "calibrate" tab which will do the same thing. |
206 |
Using Winrad, there is a "reset" botton at the "calibrate" tab which will do the same thing. |
| 207 |
|
207 |
|
| 208 |
|
208 |
|
| 209 |
Download |
209 |
Download |
| 210 |
======== |
210 |
======== |
| 211 |
|
211 |
|
| 212 |
The UBW emulation firmware and the source files can be found in |
212 |
The UBW emulation firmware and the source files can be found in |
| 213 |
Files->9V1AL->UBW emulation. |
213 |
Files->9V1AL->UBW emulation. |
| 214 |
|
214 |
|
| 215 |
|
215 |
|
| 216 |
|
216 |
|
| 217 |
IO Port Pin assignment |
217 |
IO Port Pin assignment |
| 218 |
====================== |
218 |
====================== |
| 219 |
|
219 |
|
| 220 |
|
220 |
|
| 221 |
Pin assignments for the UBW are as follows: |
221 |
Pin assignments for the UBW are as follows: |
| 222 |
|
222 |
|
| 223 |
Pin Name Input/Output Active Remarks |
223 |
Pin Name Input/Output Active Remarks |
| 224 |
|
224 |
|
| 225 |
RA0 BPF_SO O H BPF select S0 |
225 |
RA0 BPF_SO O H BPF select S0 |
| 226 |
RA1 BPF_S1 O H BPF select S1 |
226 |
RA1 BPF_S1 O H BPF select S1 |
| 227 |
S1,S0 selects 1 of 4 BPF's for Softrock |
227 |
S1,S0 selects 1 of 4 BPF's for Softrock |
| 228 |
|
228 |
|
| 229 |
RA2 RXTX O H PTT, H = Transmit |
229 |
RA2 RXTX O H PTT, H = Transmit |
| 230 |
|
230 |
|
| 231 |
RB0 SDA Open Collector For i2c connection to Si570 |
231 |
RB0 SDA Open Collector For i2c connection to Si570 |
| 232 |
RB1 SCL Open Collector may need conversion to +3v3 |
232 |
RB1 SCL Open Collector may need conversion to +3v3 |
| 233 |
in case of firmware failure |
233 |
in case of firmware failure |
| 234 |
(eg wrong firmware loaded) |
234 |
(eg wrong firmware loaded) |
| 235 |
then RB0 and RB1 may be set |
235 |
then RB0 and RB1 may be set |
| 236 |
to logic high output of +5V |
236 |
to logic high output of +5V |
| 237 |
|
237 |
|
| 238 |
RB6 PADDLE_DIT I L Paddle DIT Input, active low |
238 |
RB6 PADDLE_DIT I L Paddle DIT Input, active low |
| 239 |
RB7 PADDLE_DAH I L Paddle DAH Input, active low |
239 |
RB7 PADDLE_DAH I L Paddle DAH Input, active low |
| 240 |
As internal pullup is enabled, |
240 |
As internal pullup is enabled, |
| 241 |
there is no need to add external |
241 |
there is no need to add external |
| 242 |
pullup resistors. Just ground the pin |
242 |
pullup resistors. Just ground the pin |
| 243 |
to activate. |
243 |
to activate. |
| 244 |
|
244 |
|
| 245 |
RA3-5, RB2-5 LPF_x O H LPF select pins |
245 |
RA3-5, RB2-5 LPF_x O H LPF select pins |
| 246 |
This has to be customised for |
246 |
This has to be customised for |
| 247 |
the LPF bank you use. |
247 |
the LPF bank you use. |
| 248 |
Email me (lee188@singnet.com.sg) |
248 |
Email me (lee188@singnet.com.sg) |
| 249 |
and I will sent you a customised hex file |
249 |
and I will sent you a customised hex file |
| 250 |
|
250 |
|
| 251 |
|
251 |
|
| 252 |
Connections to SR v6.3 and Mobo v3.6 |
252 |
Connections to SR v6.3 and Mobo v3.6 |
| 253 |
===================================== |
253 |
===================================== |
| 254 |
|
254 |
|
| 255 |
|
255 |
|
| 256 |
UBW SRv6.3 Mobo v3.6 External Paddle |
256 |
UBW SRv6.3 Mobo v3.6 External Paddle |
| 257 |
|
257 |
|
| 258 |
RA0 - P7 Pin 1 - |
258 |
RA0 - P7 Pin 1 - |
| 259 |
RA1 - P7 Pin 2 - |
259 |
RA1 - P7 Pin 2 - |
| 260 |
RA2 PTT_I K6 Pin 1 - |
260 |
RA2 PTT_I K6 Pin 1 - |
| 261 |
RB0 SDA - - |
261 |
RB0 SDA - - |
| 262 |
RB1 SCL - - |
262 |
RB1 SCL - - |
| 263 |
GND GND P10 Pin 2 Paddle Common |
263 |
GND GND P10 Pin 2 Paddle Common |
| 264 |
RB6 - - Paddle dot (dit) |
264 |
RB6 - - Paddle dot (dit) |
| 265 |
RB7 - - Paddle dash (dah) |
265 |
RB7 - - Paddle dash (dah) |
| 266 |
- +5V P10 Pin 1 - |
266 |
- +5V P10 Pin 1 - |
| 267 |
|
267 |
|
| 268 |
|
268 |
|