Infrared and IrDA connections in palmtops and computers.
IrDA is designed for cheap, bidirectional, short range, fairly directional connections. Initially up to 115.2kbps via additions to an RS232C serial port, and latter up to 4 Mbps. They use baseband return to zero inverted modulation. The 4 Mbps scheme uses a 4 pulse position modulation scheme of two bits per pulse.
Remote controls for TVs and similar are totally different. They use approximately 40 kHz signals and pulse width modulation, with a variety of protocols. They are customised for low speed, wide angle, one way, long range connections. These are not IrDA compliant. You can find one piece receiver transmitter packages for remote signals at low cost, and drive these from TTL. IrDA can't normally do TV remote control signals, and are shorter range, but you can often fake the signals in software. Infrared connections for keyboards and the like do not have to follow any standard, as the manufacturer supplies both ends of the connection.
Formed in June 1993 with about 50 companies. Published SIR, IrLAP and IrLMP in June 1994, with speeds up to 115kbps. Updated speed to 4 Mb in Oct 1995. Microsoft announce support in Nov 1995, with an add on for Windows 95, and good support in Windows 98. Windows NT does not support IrDA. Digital camera support Oct 1996, IrTran-P for pictures published Oct 1997. Desktop to peripheral support Oct 1997. IrDA Control, for mice, keyboards, joystick in Feb 1998. IrOBEX (Object Exchange Protocol) (also adopted by Bluetooth) in June 1999. Financial messaging SIG Oct 1999. See IrDA Standards below for an outline.
Details of the IrDA standards are at http://www.irda.org. They are long, and not real light reading, but this is the fundamental site for IrDA information.
IrDA devices tend to cost peanuts, since they basically consist of an LED and a phototransistor, connected to a UART. Additional hardware costs are in the order of $5, and power consumption is relatively minor. A pulse from the UART represents a one, and no pulse is a one. A frame is start bit, 8 data pulses, and a stop bit. Pulse width is a minimum of 1.6 usec to 3/16th of the bitrate period. Communication is half duplex. Most of the complexity is in the software.
The IrDA standard has a physical layer (PHY), IrDA-SIR, a link access protocol IrLAP, and link management and transport protocol IrLMP.
The simplest version (often called SIR) takes standard RS232 port signals, shortens the bit length to 3/16th of its original length (to reduce power consumption), and sends it out via an infra red diode. It works up to the 115 kbps maximum data rate of a standard UART. Transmissions start at 9600 bps and negotiate higher speeds after a link is established. Communication is half duplex. The fast data rate (FIR) 4 Mbps uses 125 ns pulses in 4 pulse position modulation mode. Minimum light intensity is 40 mW/sr up to 115 kbps and 100 mW/sr over. Wavelength is between 850 and 900 nm.
Data packets use CRC-16 to 1.152 Mb/s and CRC-32 at 4 Mb/s.
The IrDA-SIR hardware is an encoder/decoder, an IR output driver and LED, and a receiver. The character stream is start bit, 8 data bits, no parity bit, stop bit. 0 is a pulse, 1 is no pulse. Minimum pulse 1.6 microsecond.
The software protocols act as a stack.
If considering a cellular phone for data, I believe you should demand it include a data adaptor, and a genuine IrDA connection.
Although many phones have an infrared port, most of these are not data adaptor enabled, and do not use IrDA. Such designs are not a good investment, because they either lack a built in modem for data, or use a custom infrared port instead of a standard IrDA port. Phones that lack a data adaptor (built in modem) and IrDA require custom programs on a computer.
Cellular phones that let you connect from a Psion 5 via the IrDA
port, and that also include modem (data adaptor) facilities seem to
commonly include
Ericsson SH888 and i888
Nokia 8810
Ericsson 788 and clip-on DI-27
Ericsson T28 and clip-on DI-28
Siemens S25
A somewhat more complete list (part of Rolf Brunsting's list)
Ericsson CF888
Ericsson I888
Ericsson R320s
Ericsson R320sc
Ericsson R380s
Ericsson SH888
Motorola L7089
Motorola P7389
Motorola Talkabout 180
Motorola Talkabout T2288
Motorola Timeport 250
Motorola Timeport 260
Motorola V2288
Motorola V3690
Motorola V50
Nokia 6210
Nokia 6250
Nokia 7110
Nokia 8210
Nokia 8290
Nokia 8810
Nokia 8850
Nokia 8890
Nokia 9000
Nokia 9000i
Nokia 9000il
Nokia 9110
Nokia 9110i
Orange L7089e
Pocketline Spectrum
Samsung SGH-A100
Samsung SGH-A110
Samsung SGH-Q100
Sendo D800
Siemens S25
Siemens S35i
Siemens S40
Siemens SL45
Ericsson click-on DI27 Infrared Adapter:
Ericsson A1018s
Ericsson CA638
Ericsson CF688
Ericsson CF768
Ericsson CF868
Ericsson GA628
Ericsson GF768
Ericsson GF768c
Ericsson GF788
Ericsson GF788c
Ericsson GF788e
Ericsson GH688
Ericsson I868
Ericsson PF768
Ericsson R250Pro
Ericsson S868
Ericsson T10s
Ericsson T10sc
Ericsson T18s
Ericsson T18sc
Ericsson T18z
Ericsson click-on DI27 Infrared Adapter:
Ericsson A2618s
Ericsson R310s
Ericsson T28s
Ericsson T28sc
Ericsson T28World
There are several others, but I won't bother to search for them until I need to replace my SH888. Lists are available on some web sites.
The Hewlett Packard 5P and 6P (and equivalent Postscript model) laser printer include an IrDA compliant InfraRed input port, which can be used by IrDA equipped portable computers. Unfortunately, earlier palmtop computers with infrared output (like the Newton Message Pad) tended to use the earlier ASK method. The HP 5MP works fine if driven by Psion 3c, 3mx, 5 or 7 pocket computer, or a Windows 9x notebook computer. I'm told Windows 2000 also supports printers. If printer drivers are available, they would work with Palm OS, Windows CE and Pocket PC handhelds.
The early Cannon BJC80 and BJC50 printer included an IrDA port, however it does not seem to work with the Psion 3c nor initially with Psion 5. Testing with a later model BJC80 printer and a Psion 5 with IR worked fine (although replacing the pathetic Psion printer driver with IR upgrades and Andrew Johnson driver also probably assisted). BJC85 also works.
Used for IR remote control, such as TV. IR ASK (from Sharp, who made the Newton), will connect to other Newton, and to Sharp Wizard organiser. Later (unspecified) models added some IrDA on O/S 2.1. This provided IrLAP and IrLMP over SIR. Prints to HP (and some other) printers. Smartdog Software Backtalk will beam to Palm and some OCR pens, and some cellular phones. Sloup or EETransfer will beam to desktops. There is an FAQ, possibly not maintained.
The Hewlett Packard 200LX palmtop can drive an IrDA HP 5MP printer if
you add an unsupported driver, which is usually available on the net as
a zipped file called irda200.zip. Try
http://hpcvbbs.cv.external.hp.com:80/software_archives/ftp/hp200lx/irda/itda200.zip
ftp://hpcvbbs.cv.external.hp.com/dist/hp200lx/irda/itda200.zip
Hewlett Packard NetBeamIR infrared access point connects to your 10base2 or 10baseT and allows an IrDA equiped Windows 95 notebook computer to access Novell, Windows NT or Lan manager networks. Model is HP J2964A, check http:www.hp.com/go/network_city
Clarinet Systems have an IrDA to Ethernet converter. Their EthIR Switch comes in 8 and 16 beam models. Beams are from EthIR Beam devices. Their EthIR Lan TCP/IP system is said to work with Windows 95/98, Windows CE, MacOS, PalmOS and Linux. No mention of Psion. Wiring is Cat 5. EthIR will route to DHCP and DNS. It is intended to work with an existing Ethernet LAN. EthIR Beam receives IR frames from an infrared device and delivers these to the EthIR switch. The EthIR Switch translates these into Ethernet frames. EthIR Beam doesn't work with IR equipped cameras (but will use JetSend to HP jetSend printer). A single beam EthIR Switch is now available, called EthIR Lan 101. Neat stuff. Says they support Epoc. www.clarinetsys.com/
ACTiSYS ACT-IR100M is said to be compatible with Psion, WinCE, laptops, HP 5MP printer (but not HP340, 1150C, 650C). Compatibility list is at www.d-store.com/d-store/psion/ircompat.htm
Extended Systems make JetEye IrDA transceivers which allows a PC or printer to produce IrDA signals. 5777 N. Meeker Ave, Boise, Idaho 83713 phone 800-235-7576 or 208-322-7800 fax 406-587-9170 Check their web site http://www.extendsys.com. They were working on a Psion 3c to JetEye connection. Their ESI-9680 JetEye plugs into a PC serial port of any Dos or Windows machine, and emulates a serial port, but requires IrDA file transfer software (not included). JetEye Net is an Ethernet port connection, complete with TCP/IP, Novell, and Windows NT software.
Socket Communications have a PCMCIA card to IrDA adaptor called an infrared serial IO card. Works with Windows, OS/2 Warp, and Dos notebooks, HP LX and some others. They are at http://www.socketcom.com. The Australian distributor is Advanced Portable Technologies, on +61 2 9906-3800
Most current desktop PC style motherboards include IrDA connectors, but not the IrDA receiver and transmitter. You need to add the infra red LED and receiver. These are not usually available from the places selling the motherboards. You often have to also enable IrDA in the BIOS.
You can connect a PC motherboard with an IRDA connector (which is usually a 5 pin header with pin order Vcc, NC, Rx, Ground, and Tx) to an infrared converter cheaply using several different cheap IR packages. The packages contain an IR LED and a phototransistor, and some pulse shaping circuits. See the Vishay Telefunken TFDS 4500. On this chip, connect pin 2 to RxD, pin 3 to Vcc, pin 4 to Ground, pin 7 to TxD. Connect 15 ohm resistor from pin 8 (LED anode) to Vcc. Dschen Reinecke gives the details, and can sell the parts. www.dschen.de/english_irda_tfds_4500.HTML
Elektor Electronics, the international electronics magazine, had an IrDA RS232 link project in their November 1996 issue, pages 58 to 63. All surface mount, but the double sided PCB is clean. Connects to a standard RS232. Uses a Temic TOIM3232 for pulse shaping and baud rate generating, and a TFDS4000 IR transceiver. Temic are at www.temic.de. Works with the standard Windows 95 IrDA drives, although three hardware specific files are also needed. Disk and PCB (item 960107-C) can be obtained from Elektor for Pound 15.25 (disk only for Pound 8). PO Box 1414, Dorchester DT2 8YH England.
If there is interest in conversions like this, I'll add a different version on this site.
Most current notebook computers include a working IrDA port, and do not require any hardware changes to make it work.
See above for details of adding IrDA hardware to a desktop computer.
I've checked Windows 95 ver 4.00.950, and it included IrDA support. Installing support wasn't totally straight forward, but after about 15 minutes of fiddling it worked (for printing to a HP 5MP).
Windows 98SE works well with IrDA.
Windows NT does not have IrDA support.
Windows 2000 has dropped the legacy IrCOMM support in favour of IrOBEX (I won't be upgrading - too many legacy devices).
Windows 2000 does not support virtual comm ports using IrCOMM, however it does support printer ports. There is a patch on the Microsoft site that seems to add a mobile phone modem support as a pseudo IrCOMM device. This works for mobile phones, where Windows is the initiating device. Other legacy gear, like digital cameras, and Psion PDAs, fail to work with Windows 2000. This is probably because a PDA can be an initiating device for a file transfer.
IrCOMM supports emulating a serial port. This is exactly what is needed by older devices, and by programs that expect a serial port, such as PsiWin. Microsoft say it just imitates a wire connection, and is thus unreliable. It supports older application to application ad hoc control signalling. This is exactly what I need for most of my remote control devices, which have no operating system support. Also, it takes exclusive use of the port, so you can't use multiple devices at once. My attitude is that I'm not changing O/S until they fix it (or until all my old devices break), whichever comes first. Wonder how Linux IrDA support is going these days?
Note also that the Microsoft IrCOMM patch for Windows 2000 (and
probably the versions for Windows 9x although these are no longer
supported) has a buffer overflow vulnerability in a buffer handling
information from an IrDA device. A specially formed IrDA packet can
cause an unhandled exception that would cause an access violation, and
restart Windows. See Microsoft Security Bulletin MS01-046, and the
patch is at
www.microsoft.com/windows2000/downloads/critical/q252795/default.asp
www.microsoft.com/hwdev/infrared/IrCOMM.htm
support.microsoft.com/support/kb/articles/0252/7/95.asp
There is said to be a third party fix for Windows 2000 at www.irda4w2k.com/ This is linked to Extended Systems, and their IrCOMM program. These are intended to support phones, not pdas. $17 cost. www.extendedsystems.de
There is said to be a tutorial on the matter (in German) at www.heise.de/ct/faq
Report: ..."with the virtual com port IrCommV1011 my mobile phone Nokia 8210 now seems to work as a modem. PsiWin still doesn't work."
There was a beta version at www.users.totalise.co.uk/~tbroom/irdaw2k.zip
Another IrDA Virtual comport for W2K, but it doesn't work with PsiWin. Probably intended for GSM phones. www.gsm.org.uk/gnu_ircomm.ht
Create a virtual comm port and works just fine for me under W2K. www.theitguy.net/tools/IrCOMM2k-1.2.0-eng.zip
One user said "it's free and works well". Another said it didn't work. http://www.ircomm2k.de/
"I tried the same, but also without any luck. The program IrCOMM2k does create a virtual IR port, which works. I connected my irda-compliant gsm to it, and I was able to install it as a modem.
"When I bring the Psion in range, the irda-icon in the system tray states "symbian EPOC device in range", and a communication starts (according to this icon). PsiWin however is unable to connect to the Psion (tried uninstalling it, prior to adding the IrCOMM2k; but this gave similar results). On some occasions (I don't know when/why) the computer hangs, but killing the processes irftp.exe and ircomm2k.exe (in taskmanager) solves this...
"The IRDA-adapter is an Actisys 210L (mainboard adapter, irda 1.0). I read somewhere that irda 1.1 is required, but I have lost the link... Jorg"
Alan McFarlane (who is much happier with IrOBEX and unhappier with IrCOMM than I am) has a couple of very informative short articles regarding IrDA and Windows XP and 2000 at www.alanjmcf.fsnet.co.uk/infrared/MicrosoftIrCommInXPand2000.html
IrOBEX (InfraRed Object Exchange) is a method of exchanging Objects via IrDA. Typical objects are calendar entries in vCalendar format, or vCard data entries. Psion Epoc Release 5 supports the 1998 version of IrOBEX, and will thus beam Agenda calendar dates, and Contact data entries. The two devices in question need to agree on their concept of what an object is, and what to do with it. Often they do not. You should note that IrOBEX is not intended for the same purposes as IrCOMM, and is not suitable as a replacement for it. It implicitly relies upon both devices agreeing on the nature of an object, which is not always the case.
QuickLink Pen sold in Australia by Wizcom Technologies, PO Box 168, Glenhuntly Vic 3163 ph +61 3 9221 8202. Pen shaped scanner with OCR and serial RS232 plus IrDA link. Arm 7 TDMI with 64 to 192 kbyte of RAM, and socket for flash memory card, 2 MB ROM (operating system?) Screen is 61mm by 20mm, 122 x 32 pixels, total size 163mm x 38mm x 23mm, weight 90 grams. The scanning element is a 128 pixel 400 dpi linear array handling 6-22 point fonts. No indication about working with Psion. The same company do Quicktionary, a spelling aid pen. I don't know of it working with Psion. www.quicktionary.com
C-Pen comes in several models. Rechargeable battery, 8 MB flash, 1 MB RAM. Programs include C Write to recognise letters from pen movements, and a dictionary. Size 150 x 38 x 23 mm, 10 MHz Strong Arm processor, 100 grams. Uses infrared port, no serial line. Around A$700 end of 1999. C-Pen 200 is a smaller, lighter, cheaper model with only 512k RAM and 2 MB flash, and a two line display rather than four lines. No dictionary or message store. Around A$400 end of 1999. There is a C-Pen 600 also. Works if you use plBeam with a Psion. www.cpen.com and www.ctechnologies.se.
A Psion driver is discussed from time to time, but I don't think it is ready yet, however you can use the plBeam application to make IrOBEX work.
Australian agent Swe-Tech Pty Ltd PO Box 288, Albert Street, Brisbane, Qld 4002 (07) 3220 0388 www.swe-tech.com.au
These are not IrDA. They are a custom infrared
I started using an Acer WIL 12001 infrared keyboard around 1996. Plugs into the keyboard and serial ports. It was trouble free for many years. Sufficiently bright sunlight can restrict its range (although when it is that bright, I usually can't read my display). Cost me about A$120 through an Acer dealer (who hadn't heard of it and had to get it in for me). Only problem is that the inbuilt mouse device (a largish button you tilt) is even less acceptable than a regular mouse Crashed and got unreliable in late 1999 (I suspect bad battery connections). I was pretty happy with it and would have bought another except in the meanwhile they all got lots more keys and became too big to sit on my lap.
I replaced it with an SK 7100 I got for $100 from the Innovations catalog. This also works fine, and has nice handgrips at each end to help when you move it somewhere one handed. It has a bunch of extra sound card control buttons at the top, but I've never seen anything that responds to them. These keys emit ikoma qegjp cbdl according to my text editor.
I destroyed my Innovations keyboard by spilling Coke (lots) in it. After three days of cleaning and drying it still didn't work (and I'd discovered the keys did not disassemble gracefully), so I bought another. About a month later the "broken" one started working fine again. These use a Silitek joystick style mouse tat is very easy to use.
Behavior Tech Computer have infrared wireless keyboards. They are at 4180 Business Center Drive, Fremont Ca 94538 phone (510) 657-3956 or fax (510) 657-1859, email at btcusa.com.
CNF have infrared keyboards (pn:1830ir) plus models with a trackball (pn:1830irt). Check CNF Inc, 15345 Calle Enrique, Morgan Hill, Ca 95037 phone 1-800-826-3462 or 408-778-1160 or fax 408-779-6558 or check http://www.cnfinc.com. The standard model uses two AAAs, while the trackboard model uses two AAs. They claim 90 hours life, at a half hour a day. Their infrared is at 56 KHz so it isn't IrDA. The keyboards shown are small (11.5 inches) and have 86 keys.
Microspeed Wireless Keyboard Deluxe includes a two button Microsoft Mouse compatible trackball in a small (11.5" x 5.6" x 1.2") 86 key infrared keyboard that runs off two AA batteries. The receiver has PS2 keyboard and mouse connectors. No software drivers are required, as the input is as if it came direct from keyboard and mouse. Microspeed are at 5005 Brandin Court, Fremont, Ca 94538 USA phone (510) 490-1403, fax (510) 490-1665, or www.microspeed.com
Sejin make a range of infrared keyboards and remote controls. Their Beamer model is a keyboard, trackball and universal remote control. Suggested retail price is US$219. Try www.sejin.com
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