Specifications
Chapter 3 Hardware
50 Reference Manual ReadyBoard 800
Infrared (IrDA) Port (J9)
The Infrared Data Association (IrDA) signals pass through a two-way communications header for an
external IrDA device using infrared as the transmission medium. There are two basic infrared
implementations provided; the Hewlett-Packard Serial Infrared (HPSIR) and the Amplitude Shift Keyed
Infrared (ASKIR) methods. HPSIR is a serial implementation of infrared developed by Hewlett-
Packard. The IrDA (HPSIR and ASKIR) signals share the same header as the IrDA model select
signals. These signals are operating system (OS) and/or application dependent and will be configured
and enable based on the user's application of these signals.
The HPSIR method allows serial communication at baud rates up to 115k baud. Each word is sent
serially beginning with a zero value start bit. A zero is sent when a single infrared pulse is sent at the
beginning of the serial bit time. A one is sent when no infrared pulse is sent during the bit time.
The Amplitude Shift Keyed infrared (ASKIR) allows serial communication at baud rates up to 19.2 k
baud. Each word is sent serially beginning with a zero value start bit. A zero is sent when a 500 kHz
waveform is sent for the duration of the serial bit time. A one is sent when no transmission is sent
during the serial bit time.
Both of these methods require an understanding of the timing diagrams provided in the Super I/O
controller (W83627HF) specifications available from the manufacture’s web site and referenced earlier
in this manual. For more information, refer to the Winbond W83627HF specifications and the Infrared
Data Association web site at http://www.irda.org.
NOTE For faster speeds and infrared applications not covered in this brief
description, refer to the W83627HF chip specifications by Winbond
Electronics Corp.
Table 3-20. Infrared Interface Pin/Signal Descriptions (J9)
Pin # Signal Description
1 +5V +5V
2 IRTX IR Transmit Data
3 IRSel IR Mode Select
4 IRRX IR Receive Data
5 GND Ground
Note: The shaded area denotes power or ground.
Real Time Clock (RTC)
The ReadyBoard 800 contains a Real Time Clock (RTC). The CMOS RAM is backed up with a
Lithium Battery. If the battery is not present, the BIOS has a battery-free boot option to complete the
boot process.
Oops! Jumper (BIOS Recovery)
The Oops! jumper is provided in the event the BIOS settings you’ve selected prevent you from booting
the system, but does not reset the CMOS or change the Time & Date in the BIOS. Refer to the CMOS
Normal/Clear jumper (JP2) to reset the BIOS and change the Time & Date.
By using the Oops! jumper you can prevent the current BIOS settings in Flash memory from being
loaded, forcing the use of the default BIOS settings. Connect the DTR pin to the RI pin on Serial port 1
(COM 1) prior to applying power to prevent the current BIOS settings from loading. After booting with
the Oops! jumper in place, remove the Oops! jumper and go into BIOS Setup. Change the desired BIOS
settings, or select the default settings, and save the changes before rebooting the system.
To convert the Serial 1 interface to an Oops! jumper, short together the DTR (4) and RI (9) pins on the
Serial Port 1 DB9 connector as shown in Figure 3-2.