6 compactflash, 7 eeprom, 8 digital temperature sensor, lm75 – Kontron VMP3 User Manual

VMP3

Configuration

ID 29230, Rev. 01

© 2005 Kontron Modular Computers GmbH

Page 4 - 23

29230

.01.UG.VC.050727/091437

P R E L I M I N A R Y

4.6

CompactFlash

Write access to the CompactFlash address area is only possible using word-wide (16-bit) write
commands.

4.7

EEPROM

Access to the EEPROM is effected via the I2C bus controller of the MPC8541E and not the
CPM I2C channel. The EEPROM uses the I2C address 0xA0. Write protection is achieved by
installing a 0 ohm resistor (R22) and removing a 0 ohm resistor (R23). Default is unprotected.

For more detailed information please refer to the manuals for the MICROCHIP 24LC64 or Cat-
alyst 24WC64, and the MOTOROLA MPC8555 (chapter 11, I2C Interface).

4.8

Digital Temperature Sensor, LM75

Access to the onboard digital temperature sensor (DTS) is effected via the I2C bus controller
of the MPC8541E. The DTS uses the I2C address 0x90.

For more detailed information please refer to the manuals for the National Semiconductor
LM75 and the MOTOROLA MPC8555 (chapter 11, I2C Interface).

4.9

Ethernet PHY Addresses

The Gigabit Ethernet PHYs of the VMP3 are accessible via the MDIO interface of the
MPC8541. Their addresses are 0x01 for the PHY of the TSEC1 and 0x00 for the TSEC2. The
PHY of the FCC1 is accessible via the parallel port pins PD[18] (MDIO) and PD[17] (MDC) and
has the PHY address 0x04.

Table 4-33: CompactFlash Register

REGISTER

READ/WRITE

ADDRESS

Data Register

R/W

0xFFFE 0000

Error Register

R

0xFFFE 8003

Feature Register

W

0xFFFE 8003

Sector Count Register

R/W

0xFFFE 8005

Sector Number Register

R/W

0xFFFE 8007

Cylinder Low Register

R/W

0xFFFE 8009

Cylinder High Register

R/W

0xFFFE 800B

Drive/Head Register

R/W

0xFFFE 800D

Status Register

R

0xFFFE 800F

Device Control Register

W

0xFFFE 801D

Alternate Status Register

R

0xFFFE 801D

Card Drive Address Register

R

0xFFFE 801F