Sun, 26 Jun 2016 01:32:13 +0200
[hp34970a] poc of an arduino display
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/content/hp34970a_3.rst Sun Jun 26 01:32:13 2016 +0200 @@ -0,0 +1,90 @@ +========================================== + HP 34970A Data Acquisition Unit - part 3 +========================================== + +:Author: David Douard +:Category: Electronics +:Tags: HP, 34970A, DMM, repair, test equipment +:series: HP 34970A repair +:series_index: 3 + + +As explained in `the previous post in this series <{filename}/hp34970a_2.rst>`_, I've started to sniff the serial +protocol between the main board and the display panel so I can replace +the failed VFD by an OLED or TFT display managed by an arduino or +similar. + +Protocol +======== + +The serial communication takes place at a rather unusual speed: 187.5 +kbits/s, otherwise, a standard 8N1 scheme. + +The protocol consist in a transmission frame with a start of +transmission handcheck, some commands with arguments, and an end of +transmission packet. + +Each transmitted character is acknowledged by the receiver, either by +a ``<0x99>`` (for the initial handcheck) or by a ``<0x00>`` for the +other ones.. + +I've only probed the CPU->DP communications. I don't really care the +other way fr now since I plan to keep the original 80C51 so it manages +this protocol and handle the keyboard. + +In the direction CPU->DP, we can find: + +- ``<0x66>``: start of transmission, must be acknowledged by a + ``<0x99>`` by the receiver; this start of transmission is then followed by a "command": + +- ``<CMD> <NCHAR> <CHAR1> ... <CHARN>``: the command byte is followed + by the numer of characters sent as argument, then the characters + themselves. + +- ``<0x55>``: end of transmission. + + +I've only identified 2 commands for now, but these are the most +important ones: + +- ``0x00``: send the chars to the main display +- ``0x0C``: send the chars to the secondary channel display + + +Quick prototype +=============== + +With this very incomplete reverse ingeeniring of the communication, I +have enough meat to try a quick prototype. + +I've used an Arduino Uno and a cheap 3.2" TFT color display. As I +wanted to have my serial protocol to debug the code for the beginning, +I've used the SoftwareSerial_ library for this prototype. + +The result is this beautiful clean setup: + +.. image:: {filename}/images/hp34970a/poc_display.jpg + :alt: A very quick proof of concept of an arduino based display replacement for the HP34970A. + + +As you can see, it works: I have the main content od the VFD display +on my TFT module! + +.. image:: {filename}/images/hp34970a/poc_display_mux_off.jpg + :alt: The FTF display showing the main area and the current channel area. + +.. image:: {filename}/images/hp34970a/poc_display_vdc.jpg + :alt: The same with the channel 209 configured as VDC, 6.5digits. + + +The job is far from finished however: I still have to figure out how +the "annotation" flags are encoded and display them, and most +importantly, I have it make it work with the hardwre USART of the +mega328. This seems to mbe necessary because I have glitches +sometimes. But I'm very happy it worked almost at my first try. I was +quite surprised since the baudrate is above the maximum officially +supported one (115200). + +I'll release the code of the prototype any time soon. + +.. _SoftwareSerial: https://www.arduino.cc/en/Reference/SoftwareSerial