Lucent Technologies MN10285K User Manual

Analog-to-Digital Converter

ADC Setup Examples

MN102H75K/F75K/85K/F85K LSI User Manual

Panasonic Semiconductor Development Company

149

Panasonic

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To set up the input port:

Set the P0DIR[5:3] bits of the port 0 I/O control register (P0DIR) to 0. This sets

the ADIN2 (P05), ADIN1 (P04), and ADIN0 (P03) pins (P11) to general-purpose
input.

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To set up the ADC:

Set the operating conditions in the ADC control register (ANCTR). Select
multiple-channel, single-conversion mode (ANMD[1:0] = b’01’) and B

OSC

/8 as

the clock source (ANCK[1:0] = b’10’). Set the conversion start/busy bit, ANEN,
to 0. Set ANTC to 1, enabling conversion start at timer 1 underflow. Set the

AN1CH[3:0] field to the first channel (channel 0) and set the ANNCH[3:0] to the
last channel (channel 2).

ANCTR (example)

x’00FDA0’

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To set up the conversion cycle

Set the divide-by ratio for timer 1. To divide B

OSC

/4 by 256, write 255

(x’FF’) to the timer 1 base register (TM1BR). (The valid range for TM1BR
is 1 to 255.)

TM1BR (example)

x’00FE11’

Do not change the clock source
once you have selected it.

Selecting the clock source while

you set up the count operation
control will corrupt the value in

the binary counter.

Set the TM1LD bit of the TM1MD register to 1 and the TM1EN bit to 0.

(This loads the value in the base register to the binary counter.)

TM1MD (example)

x’00FE21’

Set TM1LD to 0 and TM1EN to 1. This starts the timer. Counting begins at
the start of the next cycle.

When the binary counter (TM1BC) reaches 0, the microcontroller reloads the
value in the base register (TM1BR) to TM1BC and simultaneously generates a

timer 1 underflow interrupt. After each timer 1 underflow, the ADC converts
each of the ADIN[2:0] inputs a single time.

Bit:

NCH3

NCH2

NCH1

NCH0

1CH3

1CH2

1CH1

1CH0

—

CK1

CK0

MD1

MD0

Setting:

Bit:

TM1

BR7

TM1

BR6

TM1

BR5

TM1

BR4

TM1

BR3

TM1

BR2

TM1

BR1

TM1

BR0

Setting:

Bit:

TM1

—

TM1

Setting: