Analog-to-Digital Converter
Description
6
Analog-to-Digital Converter
Table 6-1 ADC Functions and Features
Function/Feature
Sample and hold
Embedded
Conversion time
4 µs per channel (when B
Clock sources
Programmable to B
Operating modes
46 operating modes (four types)
• Single conversion of one input (channel 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or 11)
• Single conversion of multiple inputs (channels 0–n, where n = 1–11)
• Continuous conversion of one input (channel 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or 11)
• Continuous conversion of multiple inputs (channels 0–n, where n = 1–11)
Conversion start
Timer 1 underflow or register setting
Interrupts
An interrupt is generated each time a single or continuous conversion sequence ends
Note:
1. Channels correspond to the ADIN pin having the same number. For instance, channel 3 (or ch3) corresponds to
ADIN3.
MN102H75K/F75K/85K/F85K LSI User Manual
6.1
Description
The MN102H75K/85K contains an 8-bit charge redistribution A/D converter
(ADC) that can process up to 12 channels. The reference clock is selectable to
B
x 1/8 or 1/16. When B
OSC
B
/8 (conversion rate = 4 µs) or higher.
OSC
V
DD
ADIN0
ADIN1
ADIN2
ADIN3
M
ADIN4
ADIN5
U
ADIN6
X
ADIN7
ADIN8
ADIN9
ADIN10
ADIN11
V
SS
Figure 6-1 ADC Architecture
6.2
Features
= 24 MHz)
OSC
divided by 8 or 16
OSC
(1)
143
Panasonic
is 24 MHz, you must set the reference clock to
OSC
8-bit
Sample
successive-
and
approximation
hold
ADC
Description
Panasonic Semiconductor Development Company
AN0BUF
AN1BUF
AN2BUF
AN3BUF
AN4BUF
AN5BUF
AN6BUF
AN7BUF
AN8BUF
AN9BUF
AN10BUF
AN11BUF