Talking to the Magnavox: Difference between revisions

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[[Category: GPS]]
[[Category: GPS]]
== The ports ==
The data streams can be moved around by reconfiguring but these are the default settings. Note that 2 ports are RS232 and 2 are RS422.
'''Port 1 RS232 - Control port.''' When I need it, I can plug the control port into a machine running the Magnavox control program, see below.
'''Port 2 RS422 - Raw data port.'''
Not using it for anything right now.
'''Port 3 RS232 - RTCM differential port''' (input and output).
This port is normally plugged into a 420 MHz Pacific Crest Radio Modem,
which is turned on when I want to test DGPS. Hmmm. I wonder if I can send this data over an Internet connection?
'''Port 4 RS422 - Equipment port (NMEA).'''
This port will be connected to my Linux gpsd server.
I have an RS485 to USB adapter that should be just the thing to connect to RS422. The signal levels are the same as RS485, but the RS422 spec has no tristate mode. Since the Magnavox talks constantly it requires a dedicated point-to-point connection anyway so this is not a big deal.


==NMEA from the Magnavox==
==NMEA from the Magnavox==

Revision as of 04:08, 13 September 2010


The ports

The data streams can be moved around by reconfiguring but these are the default settings. Note that 2 ports are RS232 and 2 are RS422.

Port 1 RS232 - Control port. When I need it, I can plug the control port into a machine running the Magnavox control program, see below.

Port 2 RS422 - Raw data port. Not using it for anything right now.

Port 3 RS232 - RTCM differential port (input and output). This port is normally plugged into a 420 MHz Pacific Crest Radio Modem, which is turned on when I want to test DGPS. Hmmm. I wonder if I can send this data over an Internet connection?

Port 4 RS422 - Equipment port (NMEA). This port will be connected to my Linux gpsd server. I have an RS485 to USB adapter that should be just the thing to connect to RS422. The signal levels are the same as RS485, but the RS422 spec has no tristate mode. Since the Magnavox talks constantly it requires a dedicated point-to-point connection anyway so this is not a big deal.

NMEA from the Magnavox

NMEA strings are pouring in at 9600 bps on the serial port; I can see them in a minicom window. It looks like a NMEA message comes in once per second.

I tried to use gpsd[1], a wonderful program, but it does not have support for my antiquated Magnavox.

I want to be able to both control the Magnavox (which unlike your $99 GPS has no front panel) and to read all the data it can generate, including things like the almanac, the satellite positions, the differential data stream and so on.

Each of the proprietary strings is prefixed with $PMVXG,code, where code is a 3-digit integer padded leading zeroes. There are about 50 codes defined. Here is a sample of the output.

$PMVXG,015,0000000,0000,1,,*61                                                  
$PMVXG,052,  3.4515,*57                                                         
$PMVXG,100,05,10,052,38,47,,,,D5,  + ,-000.871,,,*05                            
$PMVXG,100,06,29,103,19,45,,,,71,  + ,0003.445,,,*6A                            
$PMVXG,100,07,30,190,25,45,,,,92,  + ,0000.011,,,*6D                            
$PMVXG,100,08,00,,,,,,,*6D                                                      
$PMVXG,000,NAV,11,9,0000,0*34                                                   
$PMVXG,036,032708,5539.86934,N,10942.90202,W,????????,000000,343634,0*7E        
$PMVXG,023,032709,4432.72623,N,12315.75804,W,00055.40,333.0,000.0,03,032708,03,C
$PMVXG,022,098828.00,00.5,00.7,01.5,15,00,21,06,10,29,30,00,26,00,16,18*7F      
$PMVXG,052,  3.4514,*56                                                         
$PMVXG,100,09,26,118,13,42,,,,77,  + ,0003.917,,,*61                            
$PMVXG,100,10,02,072,00,00,,,,82,SRCH,,,,*7F                                    
$PMVXG,100,11,16,315,21,44,,,,03,  + ,0000.257,,,*6C                            
$PMVXG,100,12,18,197,23,46,,,,A3,  + ,0002.088,,,*1A                            
$PMVXG,000,NAV,11,9,0000,0*34                                                   
$PMVXG,023,032710,4432.72623,N,12315.75805,W,00055.40,002.5,000.0,03,032709,03,0
$PMVXG,052,  3.4513,*51                                                         
$PMVXG,000,NAV,11,9,0000,0*34                                                   
$PMVXG,023,032711,4432.72623,N,12315.75805,W,00055.39,202.4,000.0,03,032710,03,4
$PMVXG,052,  3.4512,*50                                                         
$PMVXG,533,14,11,2005,,,*4F

Fields are comma-separated, and the last part (eg *4f) is a checksum field. (When present, the checksum is delimited by the *, not by a comma!) You don't have to send checksum, it's optional, just leave it off when sending commands.

000 Receiver status: It's in Navigation mode, 11 satellites should be visible, it's tracking 9, time since last navigation: 0, and its wating for initialization.
015 RCm input port statistics
022 Nav constellation
023 Position, height, COG and SOG
036 Self survey results
052 Oscillator offset (?) (something I have been longing to know...)
100 GPS Channel status
101 Control sentence accept/reject: 0 = accepted
533 GPS date

Initialization

I think the 000 message means that I need to send it an initialization command to make it happy. The 000 command sets its known position, and the 001 command sets some constants and limits. Since I am in navigation mode, I don't need to give it position.

Sending commands to the box

You can ask the box to send a sentence with command $PMVXG,YYY where YYY is the Magnavox code or NMEA string prefix. Commands are terminated with CRLF. (return key followed by control-j)

Example: $PMVXG,GPQ
Response: $PMVXG,101,GPQ,6,01,E*76  6 = requested sentence unavailable
Example: $PMVXG,037
Response: $PMVXG,101,037,3,,*4F     3 =  unrecognized id                                                          
Example: $PMVXG,003
Response: $PMVXG,101,037,3,,*4F     3 =  unrecognized id                                                          

Stop sending the date (block 533): $PMVXG,007,533,,2,,,,,
Send date once every 10 seconds: $PMVXG,007,533,,1,,10,,,

Start sending lat-lon (GLL) strings to control port: $PMVXG,007,GLL,,1,,1,,,
Stop sending GLL: $PMVXG,007,GLL,,2,,,,,

Start sending position (GGA) strings to control port: $PMVXG,007,GGA,,1,,1,,,
Stop sending GGA: $PMVXG,007,GGA,,2,,,,,

Start sending velocity/track over ground (VTG) strings to control port: $PMVXG,007,VTG,,1,,1,,,
Stop sending VTG: $PMVXG,007,VTG,,2,,,,,
(Not much point in using this when the station is parked on my office floor.)

Set in NAV mode: $PMVXG,035,0,,,
Set in COR REF mode: $PMVXG,035,1,,,

Magnavox control program (CDU311)

I have version 3.11 which was released on Dec 07 1993

Virtual machines

I usually run Linux on my computers though I do have a Windows XP laptop (which Julie has adopted) and a MacBook (I am typing this on it right now).

The little Magnavox control program came on a floppy disk and it runs under MSDOS.

When I first got the Magnavox a few years ago, I set up and used a VMWare Workstation virtual machine; I just finished setting up the program to run under VirtualBox instead, since it's what I use for virtual machines now. See the VirtualBox page for details.

Spying on the serial port

I installed interceptty on my Linux server. I run it with this command line. This will create a named pipe /tmp/ttyS0 that vmware will think is the real serial port. This allows me to spy on the serial protocol used by the CDU311 MSDOS program that came with the receiver.

interceptty -s 'ispeed 9600 ospeed 9600' /dev/ttyS0 @/tmp/ttyS0

Once it is running, I can connect the VirtualBox serial port to the pipe /tmp/ttyS0 instead of the device.

It is important to plug the right cable in from the Magnavox. :-) There are 4, and each outputs a different data stream.

Screenshot

Here is a screenshot of the CDU program running on the virtual machine. The date appears to be off by a decade or two. I should fix that. You'd think it would know the date already.

A few resources

gpsd a daemon that reads nmea data
Python GPS project
Python serial library