HD64F3437TF16 Datasheet, PDF(389/752 Page) Hitachi Semiconductor – 12 V must not be applied to the S-mask model (single-power-supply specification), as this may permanently damage the device.

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HD64F3437TF16 Datasheet, PDF (389/752 Pages) Hitachi Semiconductor – 12 V must not be applied to the S-mask model (single-power-supply specification), as this may permanently damage the device.

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16.3 Operation

The D/A converter module has two built-in D/A converter circuits that can operate independently.

D/A conversion is performed continuously whenever enabled by the D/A control register. When a

new value is written in DADR0 or DADR1, conversion of the new value begins immediately. The

converted result is output by setting the DAOE0 or DAOE1 bit to 1.

An example of conversion on channel 0 is given next. Figure 16.2 shows the timing.

1. Software writes the data to be converted in DADR0.

2. D/A conversion begins when the DAOE0 bit in DACR is set to 1. After a conversion delay,

analog output appears at the DA0 pin. The output value is AVref Ã (DADR0 value)/256.

This output continues until a new value is written in DADR0 or the DAOE0 bit is cleared to 0.

3. If a new value is written in DADR0, conversion begins immediately. Output of the converted

result begins after the conversion delay time.

4. When the DAOE0 bit is cleared to 0, DA0 becomes an input pin.

DADR0

write cycle

DACR

write cycle

DADR0

write cycle

DACR

write cycle

Ã¸

Address

DADR0

Conversion data (1)

Conversion data (2)

DAOE0

DA0

High-impedance state

Conversion result (1)

t DCONV

Conversion result (2)

t DCONV

tDCONV: D/A conversion time

Figure 16.2 D/A Conversion (Example)

360

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