20-101-1105 Rabbit Semiconductor, 20-101-1105 Datasheet - Page 25

20-101-1105

Manufacturer Part Number

20-101-1105

Description

MODULE RCM4100 RABBITCORE

Manufacturer

Rabbit Semiconductor

Datasheet

1.20-101-1093.pdf (112 pages)

Specifications of 20-101-1105

Module/board Type

MPU Core Module

Data Bus Width

8 bit

For Use With/related Products

RCM4100

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

316-1121

Current page: 25 of 112
Download datasheet (2Mb)

3.2.2 A/D Converter Inputs (RCM4100 only)

The following sample programs are found in the

•

User’s Manual

AD_CAL_ALL.C —Demonstrates how to recalibrate all the single-ended analog input

channels with one gain using two known voltages to generate the calibration constants for

each channel. The constants will be written into the user block data area.

Connect a positive voltage from 0–20 V DC (for example, the power supply positive out-

put) to analog input channels LN0IN–LN6IN on the Prototyping Board, and connect the

ground to GND. Use a voltmeter to measure the voltage, and follow the instructions in the

Dynamic C STDIO window once you compile and run this sample program. Remember

that analog input LN7 on the Prototyping Board is used with the thermistor and is not be

used with this sample program.

AD_CAL_CHAN.C —Demonstrates how to recalibrate one single-ended analog input

channel with one gain using two known voltages to generate the calibration constants for

that channel. The constants will be rewritten into the user block data area.

Connect a positive voltage from 0–20 V DC (for example, the power supply positive out-

put) to an analog input channel on the Prototyping Board, and connect the ground to GND.

Use a voltmeter to measure the voltage, and follow the instructions in the Dynamic C STDIO

window once you compile and run this sample program. Remember that analog input LN7

on the Prototyping Board is used with the thermistor and is not be used with this sample

program.

AD_RDVOLT_ALL.C —Demonstrates how to read all single-ended A/D input channels

using previously defined calibration constants. The constants used to compute equivalent

voltages are read from the user block data area, so the sample program cannot be run using

the “Code and BIOS in RAM” compiler option.

Compile and run this sample program once you have connected a positive voltage from 0–

20 V DC (for example, the power supply positive output) to analog input channels LN0IN–

LN6IN on the Prototyping Board, and ground to GND. Follow the prompts in the Dynamic C

STDIO window. Raw data and the computed equivalent voltages will be displayed.

Remember that analog input LN7 on the Prototyping Board is used with the thermistor and

is not be used with this sample program.

AD_SAMPLE.C —Demonstrates how to how to use a low level driver on single-ended

inputs. The program will continuously display the voltage (averaged over 10 samples) that

is present on an A/D converter channel (except LN7). The constants used to compute

equivalent voltages are read from the user block data area, so the sample program cannot be

run using the “Code and BIOS in RAM” compiler option.

Compile and run this sample program once you have connected a positive voltage from 0–

20 V DC to an analog input (except LN7) on the Prototyping Board, and ground to GND.

Follow the prompts in the Dynamic C STDIO window. Raw data and the computed equiv-

alent voltages will be displayed. If you attach a voltmeter between the analog input and

ground, you will be able to observe that the voltage in the Dynamic C STDIO window

tracks the voltage applied to the analog input as you vary it.

NOTE: The above sample program will overwrite the existing calibration constants.

NOTE: The above sample program will overwrite the existing calibration constants for

the selected channel.

SAMPLES\RCM4100\ADC

folder.

20-101-1105 Rabbit Semiconductor, 20-101-1105 Datasheet - Page 25

20-101-1105

Specifications of 20-101-1105

Related parts for 20-101-1105