Datalogging 10 bit stream
Moderator: Matt
Re: Datalogging 10 bit stream
Nistune runs under linux but there is a problem with the comms dropping out with consult which I have on my list to look at
I'm trying to get VEMS working at the moment and get that release done. Then I'll add this one next, but we need a clear definition of inputs to use
I'm trying to get VEMS working at the moment and get that release done. Then I'll add this one next, but we need a clear definition of inputs to use
Re: Datalogging 10 bit stream
Okay guys here is your Anduino solution. There are no Nistune software changes required for this so it will work with all current Nistune version. Basically I've taken the DLP definitions and protocol and put most of it into the Arduino. Several hours later we have something which is compatible with the analog inputs for DLP Design A/D converter and means no additional Nistune code needed
Get the code below, compile and upload to your chosen Arduino device. It creates a COM port @ 115200bps and acts like a DLP device for the purpose of Nistune uses. Nistune will poll the device, then setup binary mode and then query channels 1-8. I've tested tonight with two channels. Make sure the device is grounded. I seem to get a bit of fluctuation on my bench but that may be the power supply I'm using
Channel 1 (A0) is AFR LHS like with DLP and channels 2-6 (A1-A5) are auxillary inputs AUX1-AUX5
Get the code below, compile and upload to your chosen Arduino device. It creates a COM port @ 115200bps and acts like a DLP device for the purpose of Nistune uses. Nistune will poll the device, then setup binary mode and then query channels 1-8. I've tested tonight with two channels. Make sure the device is grounded. I seem to get a bit of fluctuation on my bench but that may be the power supply I'm using
Channel 1 (A0) is AFR LHS like with DLP and channels 2-6 (A1-A5) are auxillary inputs AUX1-AUX5
Code: Select all
/* Arduino One - DLP emulation */
const int DLP_CMD_DIGITAL_IN_CH1 = 0x41;
const int DLP_CMD_DIGITAL_IN_CH2 = 0x53;
const int DLP_CMD_DIGITAL_IN_CH3 = 0x44;
const int DLP_CMD_DIGITAL_IN_CH4 = 0x46;
const int DLP_CMD_DIGITAL_IN_CH5 = 0x47;
const int DLP_CMD_DIGITAL_IN_CH6 = 0x4E;
const int DLP_CMD_DIGITAL_IN_CH7 = 0x4A;
const int DLP_CMD_DIGITAL_IN_CH8 = 0x4B;
const int DLP_CMD_ANALOG_IN_CH1 = 0x5A;
const int DLP_CMD_ANALOG_IN_CH2 = 0x58;
const int DLP_CMD_ANALOG_IN_CH3 = 0x43;
const int DLP_CMD_ANALOG_IN_CH4 = 0x56;
const int DLP_CMD_ANALOG_IN_CH5 = 0x42;
const int DLP_CMD_ANALOG_IN_CH6 = 0x4E;
const int DLP_CMD_ANALOG_IN_CH7 = 0x4D;
const int DLP_CMD_ANALOG_IN_CH8 = 0x2C;
const int DLP_CMD_TEMPERATURE_IN_CH1 = 0x39;
const int DLP_CMD_TEMPERATURE_IN_CH2 = 0x30;
const int DLP_CMD_TEMPERATURE_IN_CH3 = 0x2D;
const int DLP_CMD_TEMPERATURE_IN_CH4 = 0x3D;
const int DLP_CMD_TEMPERATURE_IN_CH5 = 0x4F;
const int DLP_CMD_TEMPERATURE_IN_CH6 = 0x50;
const int DLP_CMD_TEMPERATURE_IN_CH7 = 0x5B;
const int DLP_CMD_TEMPERATURE_IN_CH8 = 0x5D;
const int DLP_SETUP_FARENHEIT = 0x4C; // not used
const int DLP_SETUP_CELCIUS = 0x3B; // not used
const int DLP_SETUP_ASCII = 0x60;
const int DLP_SETUP_BINARY = 0x5C;
const int DLP_CMD_PING = 0x27;
const int DLP_RESP_PING = 0x51;
const int SET_MODE_ASCII = 0;
const int SET_MODE_BINARY = 1;
const float AD_MULTIPLIER = 5.0/1024.0;
void setup() {
Serial.begin(115200);
pinMode(A0,INPUT);
pinMode(A1,INPUT);
pinMode(A2,INPUT);
pinMode(A3,INPUT);
pinMode(A4,INPUT);
pinMode(A5,INPUT);
}
int rxByte = 0;
int currMode = SET_MODE_ASCII;
int sensorValue = 0;
void loop()
{
if (Serial.available() > 0)
{
rxByte = Serial.read();
int sendADVal = false;
int sendTempVal = false;
switch (rxByte)
{
case DLP_SETUP_ASCII:
currMode = SET_MODE_ASCII;
break;
case DLP_SETUP_BINARY:
currMode = SET_MODE_BINARY;
break;
case DLP_SETUP_FARENHEIT:
break; // not used
case DLP_SETUP_CELCIUS:
break; // not used
case DLP_CMD_PING:
// ping response
Serial.write(DLP_RESP_PING);
break;
case DLP_CMD_ANALOG_IN_CH1:
sensorValue = analogRead(A0);
sendADVal = true;
break;
case DLP_CMD_ANALOG_IN_CH2:
sensorValue = analogRead(A1);
sendADVal = true;
break;
case DLP_CMD_ANALOG_IN_CH3:
sensorValue = analogRead(A2);
sendADVal = true;
break;
case DLP_CMD_ANALOG_IN_CH4:
sensorValue = analogRead(A3);
sendADVal = true;
break;
case DLP_CMD_ANALOG_IN_CH5:
sensorValue = analogRead(A4);
sendADVal = true;
break;
case DLP_CMD_ANALOG_IN_CH6:
sensorValue = analogRead(A5);
sendADVal = true;
break;
case DLP_CMD_ANALOG_IN_CH7:
case DLP_CMD_ANALOG_IN_CH8:
sensorValue = 0; // not available
sendADVal = true;
break;
case DLP_CMD_TEMPERATURE_IN_CH1:
case DLP_CMD_TEMPERATURE_IN_CH2:
case DLP_CMD_TEMPERATURE_IN_CH3:
case DLP_CMD_TEMPERATURE_IN_CH4:
case DLP_CMD_TEMPERATURE_IN_CH5:
case DLP_CMD_TEMPERATURE_IN_CH6:
case DLP_CMD_TEMPERATURE_IN_CH7:
case DLP_CMD_TEMPERATURE_IN_CH8:
sensorValue = 0; // not available
sendTempVal = true;
break;
default:
break;
}
if (sendADVal || sendTempVal)
{
if (currMode == SET_MODE_BINARY)
{
Serial.write((char)(sensorValue >> 8));
Serial.write((char)(sensorValue));
}
else
{
Serial.print((float)sensorValue * AD_MULTIPLIER,2);
Serial.println("V");
}
}
}
}
Re: Datalogging 10 bit stream
Okay followup post. The indenting gets lost when posting on the forum, so I've included a zip file here to use instead
Okay as for reasons for this way:
1. MIL-tec solution with configuring AD outputs to power the boost sensor straight from the board plugged in is fine but you waste inputs.
You can still modify my code and just assign unused extra channels with 0 response, the same as 7 and 8 which have no physical inputs.
2. Alternate protocol format. We dont use the header because definitions are in the AUX1.csv files etc. Also prefer binary over text as its easier to parse and my DLP code already does it for free
Okay as for reasons for this way:
1. MIL-tec solution with configuring AD outputs to power the boost sensor straight from the board plugged in is fine but you waste inputs.
You can still modify my code and just assign unused extra channels with 0 response, the same as 7 and 8 which have no physical inputs.
2. Alternate protocol format. We dont use the header because definitions are in the AUX1.csv files etc. Also prefer binary over text as its easier to parse and my DLP code already does it for free
Sensor1 name, Sensor2 name,Sensor3 name<CR><LF>
value1, value2, value3<CR><LF>
- Attachments
-
- nistune_ad_converter.zip
- DLP A/D emulation
- (1.13 KiB) Downloaded 1381 times
Re: Datalogging 10 bit stream
Then use the "code" tag Exhibit A:Matt wrote:Okay followup post. The indenting gets lost when posting on the forum, so I've included a zip file here to use instead
*matt edit*
Thanks. Fixed! Now I look like a dumb ass
Its right there next to "quote" !!
Re: Datalogging 10 bit stream
Hi Matt,
I'm trying to understand all of the code in the sketch.
(char)(sensorValue >>
What is the purpose of this? Why would you bit shift the value 8 places across?
I'm trying to understand all of the code in the sketch.
Code: Select all
if (sendADVal || sendTempVal)
{
if (currMode == SET_MODE_BINARY)
{
Serial.write((char)(sensorValue >> 8));
Serial.write((char)(sensorValue));
}
else
{
Serial.print((float)sensorValue * AD_MULTIPLIER,2);
Serial.println("V");
}
}
What is the purpose of this? Why would you bit shift the value 8 places across?
Re: Datalogging 10 bit stream
To put out the MSB of the value first, and then the LSB
(char) conversion filters to 8 bits. Doing the shift before (char) enables us to put the MSB out
(char) conversion filters to 8 bits. Doing the shift before (char) enables us to put the MSB out
Re: Datalogging 10 bit stream
Hey Matt, i have an unused board with a pic18 in it, and i'm trying to emulate the DLP IO8 serial protocol.
But i'm getting an Comm. TimeOut at the wideband window in NISTUNE. See pics attached please...
Can you tell me wich mode are NISTUNE using (ASCII or binary).
And if it is ASCII, is there a null character or CR at the end of every response?
Thanks!
But i'm getting an Comm. TimeOut at the wideband window in NISTUNE. See pics attached please...
Can you tell me wich mode are NISTUNE using (ASCII or binary).
And if it is ASCII, is there a null character or CR at the end of every response?
Thanks!
- Attachments
-
- Terminal_dlp1.jpg
- Sending a ping, input CH1, input CH2, input CH2, from Terminal
Response with null char and CR - (54.76 KiB) Downloaded 11873 times
-
- Nistune_dlp2.jpg
- ... and few seconds later...
- (21.08 KiB) Downloaded 11873 times
-
- Nistune_dlp1.jpg
- When i clin in Lambda...
- (34 KiB) Downloaded 11873 times
Re: Datalogging 10 bit stream
Configured for Binary mode (and Celcius)
We ping with 0x27
Then we send a command to read inputs Analog IN CH 1.. CH7
Afterwards we expect 14 bytes back (2 bytes per each channel)
There are no CR/LF characters
Your output 0x27 (ping) then 0x5A (CH1) then 0x58 (CH2) then 0x58 (CH2 again?!) then 0x43 (CH3) is reading the channels
Response 0x51 is correct, then 2 x bytes for each channel. Appears too many bytes below
We ping with 0x27
Then we send a command to read inputs Analog IN CH 1.. CH7
Afterwards we expect 14 bytes back (2 bytes per each channel)
There are no CR/LF characters
Your output 0x27 (ping) then 0x5A (CH1) then 0x58 (CH2) then 0x58 (CH2 again?!) then 0x43 (CH3) is reading the channels
Response 0x51 is correct, then 2 x bytes for each channel. Appears too many bytes below
Re: Datalogging 10 bit stream
Thanks Matt!
The first time you query DLP also set C° and Binary mode, so the complete secuence is...
27 '
3B 5C 5A 58 43 56 42 4E 4D ;\ZXCVBNM
and then repeatedly...
27 '
5A 58 43 56 42 4E 4D ZXCVBNM
All AUX sorted out, but... how are you interpreting/scalling first channel (AFR) bytes? may be 0v:8-5v:32, linearly? can i change this scalling in nistune?
Edit: got it... afr1.csv ...
The first time you query DLP also set C° and Binary mode, so the complete secuence is...
27 '
3B 5C 5A 58 43 56 42 4E 4D ;\ZXCVBNM
and then repeatedly...
27 '
5A 58 43 56 42 4E 4D ZXCVBNM
All AUX sorted out, but... how are you interpreting/scalling first channel (AFR) bytes? may be 0v:8-5v:32, linearly? can i change this scalling in nistune?
Edit: got it... afr1.csv ...
- Attachments
-
- NT_DLP-io8_2.jpg
- (178.13 KiB) Downloaded 11859 times
Last edited by dlP on Sat Feb 01, 2014 1:12 am, edited 1 time in total.
Re: Datalogging 10 bit stream
Ahah... pretty clever!
Re: Datalogging 10 bit stream
Found this through a google search. I've been getting into programming and recently purchased an arduino for other purposes. I may have to try this out.
Re: Datalogging 10 bit stream
Hi guys,
I don't know if this will help anyone, but if you are using an Arduino DLP you can alter the "pinmode(A*, INPUT)" to "pinmode(A*, INPUT_PULLUP)" you will get less fluctuation if there is no signal connected.
I am still having some problems with my AFR readout being up to 0.7 out however.
I don't know if this will help anyone, but if you are using an Arduino DLP you can alter the "pinmode(A*, INPUT)" to "pinmode(A*, INPUT_PULLUP)" you will get less fluctuation if there is no signal connected.
I am still having some problems with my AFR readout being up to 0.7 out however.
Re: Datalogging 10 bit stream
Not sure on the variance reported, but sounds like PULLUP uses an internal low value resistor for the line. DLPs can have flucutation on the pins if unused lines are not all pulled low
Re: Datalogging 10 bit stream
https://youtu.be/FHU6rCLDdU0
This is a video of my uego next to my nistune readout. I haven't checked the output voltage yet, I was thinking maybe the signal might need a smoothing capacitor, unless like others, the voltage is not the thing causing the fluctuation.
This is a video of my uego next to my nistune readout. I haven't checked the output voltage yet, I was thinking maybe the signal might need a smoothing capacitor, unless like others, the voltage is not the thing causing the fluctuation.