Difference between revisions of "SimpleUSB Channel Driver"
(4 intermediate revisions by the same user not shown) | |||
Line 77: | Line 77: | ||
Node names are in format of ''usb_<nodenumber>''. Where <nodenumber> = the AllStar Link node of your system. ''Note that usb and the node number are separated by an underscore (_) character.'' | Node names are in format of ''usb_<nodenumber>''. Where <nodenumber> = the AllStar Link node of your system. ''Note that usb and the node number are separated by an underscore (_) character.'' | ||
− | Example | + | ===Example=== |
Your simpleusb.conf file defines your usb radio as '''[usb_1000]'''. Your rpt.conf file would then have: | Your simpleusb.conf file defines your usb radio as '''[usb_1000]'''. Your rpt.conf file would then have: | ||
Line 98: | Line 98: | ||
==Parallel Port Pin Numbers== | ==Parallel Port Pin Numbers== | ||
− | Additional | + | '''Additional notes on parallel port pin numbers.''' |
When you are looking at the '''pp#''' addressing, the actual hardware pin numbers are in computer natural logical format.<br> | When you are looking at the '''pp#''' addressing, the actual hardware pin numbers are in computer natural logical format.<br> | ||
Line 130: | Line 130: | ||
Allstar denoted pins pp9 through pp12 are 'Input pins' listed as 'A#' in the parallel port scheme. | Allstar denoted pins pp9 through pp12 are 'Input pins' listed as 'A#' in the parallel port scheme. | ||
− | Special note | + | ===Special note=== |
+ | All these pins require 'buffering' by adding a transistor to do the actual switching. | ||
They will not sink much current on their own. | They will not sink much current on their own. | ||
While these port pins vary, most will only sink about 20ma-50ma of current. | While these port pins vary, most will only sink about 20ma-50ma of current. | ||
Line 141: | Line 142: | ||
It is a coil and susceptible to absorbing RF and there is no quicker way to lock a computer up than to bugger this input/output with a stray signal. | It is a coil and susceptible to absorbing RF and there is no quicker way to lock a computer up than to bugger this input/output with a stray signal. | ||
− | Final Note | + | ===Final Note=== |
+ | If you think you might be adding a Doug Hall RBI-1 Remote base later, Start populating pins 'above' pp3 reserving the 1st 3 pins. | ||
Check command tables for info, not related to simple_usb.conf. | Check command tables for info, not related to simple_usb.conf. | ||
[[Category:Node Configuration]] | [[Category:Node Configuration]] |
Latest revision as of 17:53, 27 January 2022
chan_simpleusb is ideal for smaller computers and those systems that do not need the chan_usbradio driver.
You must enable SimpleUSB.so to load in modules.conf first.
simpleusb.conf
The configuration of chan_simpleusb is done with the simpleusb.conf file and is self explanatory:
; SimpleUSB configuration
;
[general]
[usb_<node#>]
eeprom=0
hdwtype=0 ; Leave this set to 0 for USB sound fobs modified using
; the instructions from usbfob.pdf. Use a setting of
; 1 is for Dingotel/Sph interfaces.
rxboost=1 ; 0 = 20db attenuator inserted, 1= 20db attenuator removed
; Set to 1 for additonal gain if using a low-level receiver output
carrierfrom=usbinvert ; no,usb,usbinvert
; no - no carrier detection at all
; usb - from the COR line on the modified USB sound fob
; usbinvert - from the inverted COR line on the modified USB sound fob
ctcssfrom=usbinvert ; no,usb,usbinvert
; no - CTCSS decoding, system will be carrier squelch
; usb - CTCSS decoding using input from USB FOB
; usbinvert - from the inverted CTCSS line on the modified USB sound fob
txmixa=voice ; Left channel output: no,voice,tone,composite,auxvoice
; no - Do not output anything
; voice - output voice only
txmixb=no ; Right channel output: no,voice,tone,composite, auxvoice
; See txmixa above.
invertptt=0 ; Invert PTT 0 = ground to transmit, 1 = open to transmit
; This is the collector lead of the 2n4401 on the modified
; usb sound fob.
; please refer to the howto for the procedure to do this.
duplex=1 ; Full Duplex
Configuration using Parallel Port
When setting chan_simpleusb to use a parallel port for I/O you must set a definition for the port address in rpt.conf:
iobase=0x378 ; Parallel port address (using for cor/ptt & switches +dh-rbi - 378,278,3bc common Lpt 1,2,3
You must then define the parallel port pins used for I/O in simpleusb.conf:
[usb_<node#1>] ( ie [usb_1234] )
pp6=ptt
pp15=ctcss (valid ctcss signal from ext hardware 0/5v)
pp11=cor
carrierfrom=ppinvert (could also be ctcss or ctcssinvert or pp)
...(+ additional info for this nodes usb config)...
[usb_<node#2>]
pp7=ptt
pp12=cor
pp14=ctcss
carrierfrom=ctcss
...(+ additional info for this nodes usb config)...
Notes
When configuring your simpleusb radio node you MUST ensure that the name of the radio is the same in both rpt.conf and simpleusb.conf. The system looks inside the file SimpleUSB.conf for the match of the node# to be configured (i.e. usb_1234).
Node names are in format of usb_<nodenumber>. Where <nodenumber> = the AllStar Link node of your system. Note that usb and the node number are separated by an underscore (_) character.
Example
Your simpleusb.conf file defines your usb radio as [usb_1000]. Your rpt.conf file would then have:
rxchannel = SimpleUSB/usb_1000
If you are reusing the simpleusb.conf file from an older installation (i.e., ACID), take special note of the change in naming. When a exact match is not made, the settings that follow will not be loaded.
Miscellaneous
Parallel Port Addressing:
A line is required in your node stanza in RPT.conf to access the parallel port in the software.
iobase=0x378 ; Parallel port address
Settings are 0x378 = LPT1, 0x278 = LPT2, 0x3bc = LPT3
You can have more than one, but you need to place them in other node stanza's addressed separately. Note: Some older systems plug and play can have issues addressing these. If so, go to bios setup and address them manually. This will prevent the system from changing the address.
Parallel Port Pin Numbers
Additional notes on parallel port pin numbers.
When you are looking at the pp# addressing, the actual hardware pin numbers are in computer natural logical format.
So hardware pin D0 on the LPT port is equal to pp1 in the software configuration.
"0" is the first number to a computer as seen at the BIOS and/or hardware addressing.
Be sure you are testing/setting/attaching the correct pin number.
Here is a listing of hardware pins and the software setup equivalents:
Hardware pin | Software equivalent |
---|---|
D0 | pp1 |
D1 | pp2 |
D2 | pp3 |
D3 | pp4 |
D4 | pp5 |
D5 | pp6 |
D6 | pp7 |
D7 | pp8 |
Allstar denoted pins pp9 through pp12 are 'Input pins' listed as 'A#' in the parallel port scheme.
Special note
All these pins require 'buffering' by adding a transistor to do the actual switching. They will not sink much current on their own. While these port pins vary, most will only sink about 20ma-50ma of current. In the case of some older radios you might interface, you might need to buffer with a transistor (2n2222 / 3904/3906) AND/OR a relay actuated by the buffer transistor. Mainly the PTT lines.
The best design is with optically-coupled transistors to prevent voltages and/or rf from running back through this port. The unused output pins can be applied to switch things at the site. i.e. fan/light/alarm or even switching off other equipment. It is not advisable to work a relay coil directly with a PP pin. It is a coil and susceptible to absorbing RF and there is no quicker way to lock a computer up than to bugger this input/output with a stray signal.
Final Note
If you think you might be adding a Doug Hall RBI-1 Remote base later, Start populating pins 'above' pp3 reserving the 1st 3 pins.
Check command tables for info, not related to simple_usb.conf.