Texas Instruments AMC80 Evaluation module AMC80EVM AMC80EVM Datenbogen
Produktcode
AMC80EVM
External
Fan Header
Interrupt Output
Test Points
CH0-6
Header
10-Pin
Connector
External
Power
Interrupt Input Headers
AMC80
I C
3.3V
2
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AMC80EVM Hardware Setup
2.1
Theory of Operation for AMC80EVM
shows the basic architecture of the AMC80 test board. The board requires power and I
2
C
communication with the SM-USB-DIG Platform. This configuration allows the AMC80EVM software to
communicate with the IC, as well as to simulate and monitor hardware driven interrupts via digital I/O
controllers. In addition, headers allow for application specific connections to be used on the AMC80EVM.
communicate with the IC, as well as to simulate and monitor hardware driven interrupts via digital I/O
controllers. In addition, headers allow for application specific connections to be used on the AMC80EVM.
Figure 3. AMC80 Test Board Block Diagram
2.2
Signal Definitions of H1 (10-Pin Male Connector Socket)
shows the pinout for the 10-pin connector socket used to communicate between the AMC80EVM
and the SM-USB-DIG Platform. It should be noted that the AMC80 test board only uses the necessary I
2
C
communication lines (pins 1 and 3) and the V
DUT
and GND (pins 6 and 8) pins to issue commands to the
AMC80.
Table 3. AMC80EVM Pin Connectors
Pin on U1
Signal
Description
1
I2C_SCL
I
2
C clock signal (SCL)
2
CTRL/MEAS4
GPIO: Control output or measure input
3
I2C_SDA1
I
2
C data signal (SDA)
4
CTRL/MEAS5
GPIO: Control output or measure input
5
SPI_DOUT1
SPI™ data output (MOSI)
Switchable device under test (DUT) power supply: +3.3V, +5V,
6
VDUT
Hi-Z (disconnected).
(1)
7
SPI_CLK
SPI clock signal (SCLK)
8
GND
Power return (GND)
9
SPI_CS1
SPI chip select signal (CS)
10
SPI_DIN1
SPI data input (MISO)
(1)
When V
DUT
is Hi-Z, all digital I/O are also Hi-Z.
5
SBOU101 – March 2011
AMC80EVM
© 2011, Texas Instruments Incorporated