Update hardware instructions to better match real testing processes
Signed-off-by: Egor Savkin <es@m-labs.hk>
This commit is contained in:
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@ -2,16 +2,16 @@
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"nodes": {
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"nodes": {
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"nixpkgs": {
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"nixpkgs": {
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"locked": {
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"locked": {
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"lastModified": 1697851979,
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"lastModified": 1710695816,
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"narHash": "sha256-lJ8k4qkkwdvi+t/Xc6Fn74kUuobpu9ynPGxNZR6OwoA=",
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"narHash": "sha256-3Eh7fhEID17pv9ZxrPwCLfqXnYP006RKzSs0JptsN84=",
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"owner": "NixOS",
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"owner": "NixOS",
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"repo": "nixpkgs",
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"repo": "nixpkgs",
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"rev": "5550a85a087c04ddcace7f892b0bdc9d8bb080c8",
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"rev": "614b4613980a522ba49f0d194531beddbb7220d3",
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"type": "github"
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"type": "github"
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},
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},
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"original": {
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"original": {
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"owner": "NixOS",
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"owner": "NixOS",
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"ref": "nixos-23.05",
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"ref": "nixos-23.11",
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"repo": "nixpkgs",
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"repo": "nixpkgs",
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"type": "github"
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"type": "github"
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}
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}
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@ -1,7 +1,7 @@
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{
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{
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description = "Sinara assembly and test instructions";
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description = "Sinara assembly and test instructions";
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inputs.nixpkgs.url = github:NixOS/nixpkgs/nixos-23.05;
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inputs.nixpkgs.url = github:NixOS/nixpkgs/nixos-23.11;
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outputs = { self, nixpkgs }:
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outputs = { self, nixpkgs }:
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@ -13,8 +13,8 @@
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"hw_rev": "vX.Y", // optional
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"hw_rev": "vX.Y", // optional
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"ports": [<port num>],
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"ports": [<port num>],
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"edge_counter": <bool>,
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"edge_counter": <bool>,
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"bank_direction_low": "input",
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"bank_direction_low": "input", // or "output"
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"bank_direction_high": "output"
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"bank_direction_high": "output" // or "input"
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}
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}
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```
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```
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@ -4,20 +4,11 @@
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## JSON
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## JSON
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Put the `ext_ref_frequency` field into the JSON description if the Kasli is going to use an external frequency:
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Not present in the JSON.
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```json
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Peripherals typically should choose `"clk_sel": 2` for MMCX connection and `"clk_sel": 1` for external SMA connection.
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{
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Refer to the [official docs](https://m-labs.hk/artiq/manual/core_drivers_reference.html) by searching for `clk_sel`.
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"hw_rev": "<hw rev>",
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You may also need to add `"refclk": <number>` field to the target card.
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"base": "<base>",
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...
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"ext_ref_frequency": <freq in Hz>,
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...
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"peripherals": [...]
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}
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```
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On peripherals you should choose `"clk_sel": 2` on connected devices.
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## Setup external clocker
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## Setup external clocker
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@ -41,12 +32,12 @@ Here is example setup for SynthNV RF signal generator:
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1. Switch `CLK SEL` pin to `EXT`/`INT` according to customer needs
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1. Switch `CLK SEL` pin to `EXT`/`INT` according to customer needs
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2. Connect MMCx cables according to the customer needs and boards specifications (see image below for reference):
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2. Connect MMCx cables according to the customer needs and boards specifications (see image below for reference):
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if the `INT` source is chosen, connect MMCx cable to `INT CLK`, otherwise connect external clocker to SMA `EXT CLK`
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if the `INT` source is chosen, connect MMCx cable to `INT CLK`, otherwise connect external clocker to SMA `EXT CLK`
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3. Connect the Clocker to the Kasli via 30-pin ports
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3. Connect the Clocker to the Kasli via 30-pin ports, or via external power supply
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![](../img/clocker_ref.jpg)
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![](../img/clocker_ref.jpg)
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4. Connect the Clocker's SMA output to the Kasli's `CLK`/`CLK IN` SMA pin
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4. Connect the Clocker's SMA output to the Kasli's `CLK`/`CLK IN` SMA pin
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5. After assembling the crates and flashing the firmware, start Kasli and write config as follows:
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5. After assembling the crates and flashing the firmware, start Kasli and set config if needed:
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`artiq_coremgmt config write -s rtio_clock ext0_bypass`. Please refer to the [official manual](https://m-labs.hk/artiq/manual/installing.html#miscellaneous-configuration-of-the-core-device)
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`artiq_coremgmt config write -s rtio_clock ext0_bypass`. Please refer to the [official manual](https://m-labs.hk/artiq/manual/installing.html#miscellaneous-configuration-of-the-core-device)
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for the details and available options
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for the details and available options. In most cases you may skip this step.
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6. Reboot either via `artiq_coremgmt reboot` or via power supply if the board's firmware doesn't have such command
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6. Reboot either via `artiq_coremgmt reboot` or via power supply if the board's firmware doesn't have such command
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## Testing
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## Testing
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@ -9,7 +9,9 @@
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{
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{
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"type": "mirny",
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"type": "mirny",
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"almazny": true, // for mirny with almazny only
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"almazny": true, // for mirny with almazny only
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"ports": [<port num>]
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"ports": [<port num>],
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"clk_sel": 2, // optional
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"refclk": 125e6 // optional
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}
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}
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```
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```
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@ -37,8 +39,8 @@ mirny0_ch3 info: {'f_outA': 1300000000.0, 'f_outB': 10400000000, 'output_divider
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After running `artiq_sinara_test`:
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After running `artiq_sinara_test`:
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1. Install gqrx `nix-shell -p gqrx`
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1. Install gqrx `nix-shell -p gqrx`
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2. Connect bladeRF via USB cable only
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2. Connect HackRF One via USB cable only
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3. Run gqrx and choose `BladeRF #<number>...`
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3. Run gqrx and choose `HackRF HackRF One...`
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4. Default settings
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4. Default settings
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5. When gqrx loaded, start DSP processing with frequency at mirnyN_chM freq
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5. When gqrx loaded, start DSP processing with frequency at mirnyN_chM freq
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6. Connect the probe through attenuator to the Mirny's port
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6. Connect the probe through attenuator to the Mirny's port
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@ -25,9 +25,9 @@ phaser0 10+0 10+1 10+2 10+3 10+4 MHz
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### Upconverter
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### Upconverter
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1. Install gqrx `nix-shell -p gqrx`
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1. Install gqrx `nix-shell -p gqrx`
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2. Connect bladeRF via USB cable only
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2. Connect HackRF One via USB cable only
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3. Run gqrx and choose `Nuand bladeRF SN <number>...`
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3. Run gqrx and choose `HackRF HackRF One...`
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4. Input rate 20000000, other settings are default
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4. Default settings
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5. Lower the gain in `Input options`
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5. Lower the gain in `Input options`
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6. When gqrx loaded, start DSP processing with frequency near 2.875 GHz +- DUC frequencies from `artiq_sinara_test`
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6. When gqrx loaded, start DSP processing with frequency near 2.875 GHz +- DUC frequencies from `artiq_sinara_test`
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in `Receiver Options`
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in `Receiver Options`
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@ -39,11 +39,7 @@ phaser0 10+0 10+1 10+2 10+3 10+4 MHz
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### Baseband
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### Baseband
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1. Install gqrx `nix-shell -p gqrx`
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1. Connect the probe through attenuator to the Phaser's ports RF0 or RF1 (not the ADC)
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2. Connect bladeRF via USB cable only
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2. Find FTT (Fourier Transform) function in the oscilloscope
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3. Run gqrx and choose `Nuand bladeRF SN <number>...`
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3. Start processing with frequency near DUC frequencies from `artiq_sinara_test`
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4. Input rate 15000000, other settings are default
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4. You should see 5 tones on `artiq_sinara_test`'s frequencies
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5. When gqrx loaded, start DSP processing with frequency near 2.875 GHz (???)
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6. Connect the probe through attenuator to the Phaser's ports RF0 or RF1 (not the ADC)
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7. You should see 5 tones on `artiq_sinara_test`'s frequencies (???):
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![phaser_baseband.png](../img/phaser_baseband.png)
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@ -33,3 +33,4 @@ PASSED
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1. Apply 1.5V (connect the AA-battery) to the `samplerX`'s requested channel
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1. Apply 1.5V (connect the AA-battery) to the `samplerX`'s requested channel
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2. Press `Enter`, the `artiq_sinara_test` should output `PASSED`
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2. Press `Enter`, the `artiq_sinara_test` should output `PASSED`
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3. Repeat steps 1-2 for every available channel.
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3. Repeat steps 1-2 for every available channel.
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4. Disassemble AA-battery tool as it risks getting corrosion
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@ -23,6 +23,28 @@ dfu-util -a 0 -s 0x08000000:leave -D thermostat.bin
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Then check that fans are working properly.
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Then check that fans are working properly.
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You may also check fan controls via `fan` commands (see the firmware documentation).
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You may also check fan controls via `fan` commands (see the firmware documentation).
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## Test PID
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1. For Zotino: connect 10-pins IDC 2.54mm FC cable from internal Thermostat connector to the Zotino TEC
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2. General TEC: connect external connector to the TEC
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3. Connect Ethernet and PSU
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4. Run:
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```shell
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git clone gitea@git.m-labs.hk:esavkin/thermostat.git
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cd thermostat
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git checkout zotino-tec
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nix develop
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python pytec/tec_qt.py
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```
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5. In `Output Config`, set limits:
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* `Max Cooling Current` - 400 mA
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* `Max Heating Current` - 400 mA
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* `Max Voltage Difference` - 1 V
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6. `PID Config` -> `PID Auto Tune` set desired target temperature, which should be slightly above your room temperature (+10C)
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7. Set `Thermistor Config` -> `B` and other values, according to the datasheet of the TEC module, for example for Zotino `B` is `3455 K`
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8. Run `PID Config` -> `PID Auto Tune` -> `Run` and check graphs that the measured temperature goes to the target temperature,
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and eventually stabilizes at +- 0.01 of the target
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## Common problems
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## Common problems
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### Thermostat doesn't connect or doesn't enter DFU mode
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### Thermostat doesn't connect or doesn't enter DFU mode
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## Setup
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## Setup
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Check if [SUServo](./suservo.md) is enabled/disabled respective to customer needs. Connect to the clocker source.
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Check if [SUServo](./suservo.md) is enabled/disabled respective to customer needs. Connect to the clock source - either Clocker,
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Kasli or external via SMA.
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### Synchronization
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### Synchronization
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}
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}
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```
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```
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Fastino uses two physical EEM channels, but in the JSON file there should be only one channel specified,
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Fastino uses one physical EEM channel, despite having two EEM ports.
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and it should be the one connected to Fastino's EEM0.
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## Setup
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## Setup
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