dac0830-mwc National Semiconductor Corporation, dac0830-mwc Datasheet - Page 9

dac0830-mwc

Manufacturer Part Number

dac0830-mwc

Description

8-bit ?p Compatible, Double-buffered D To A Converters

Manufacturer

National Semiconductor Corporation

Datasheet

1.DAC0830-MWC.pdf (28 pages)

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Typical Performance Characteristics

DAC0830 Series Application Hints

These DAC’s are the industry’s first microprocessor compat-

ible, double-buffered 8-bit multiplying D to A converters.

Double-buffering allows the utmost application flexibility from

a digital control point of view. This 20-pin device is also pin

for pin compatible (with one exception) with the DAC1230, a

12-bit MICRO-DAC. In the event that a system’s analog

output resolution and accuracy must be upgraded, substitut-

ing the DAC1230 can be easily accomplished. By tying

address bit A

(double precision) which automatically increments the ad-

dress for the second byte write (starting with A

used. This allows either an 8-bit or the 12-bit part to be used

with no hardware or software changes. For the simplest 8-bit

application, this pin should be tied to V

uses in section 1.1).

Analog signal control versatility is provided by a precision

R-2R ladder network which allows full 4-quadrant multiplica-

tion of a wide range bipolar reference voltage by an applied

digital word.

1.0 DIGITAL CONSIDERATIONS

A most unique characteristic of these DAC’s is that the 8-bit

digital input byte is double-buffered. This means that the

data must transfer through two independently controlled 8-bit

latching registers before being applied to the R-2R ladder

network to change the analog output. The addition of a

second register allows two useful control features. First, any

DAC in a system can simultaneously hold the current DAC

data in one register (DAC register) and the next data word in

the second register (input register) to allow fast updating of

the DAC output on demand. Second, and probably more

important, double-buffering allows any number of DAC’s in a

system to be updated to their new analog output levels

simultaneously via a common strobe signal.

Variation vs. Supply Voltage

Gain and Linearity Error

to the ILE pin, a two-byte µP write instruction

00560829

(also see other

=“1”) can be

Write Pulse Width

(Continued)

The timing requirements and logic level convention of the

eliminate external interfacing logic when applied to most

popular microprocessors and development systems. It is

easy to think of these converters as 8-bit “write-only”

memory locations that provide an analog output quantity. All

inputs to these DAC’s meet TTL voltage level specs and can

also be driven directly with high voltage CMOS logic in

non-microprocessor based systems. To prevent damage to

the chip from static discharge, all unused digital inputs

should be tied to V

are inadvertantly left floating, the DAC interprets the pin as a

logic “1”.

1.1 Double-Buffered Operation

Updating the analog output of these DAC’s in a

double-buffered manner is basically a two step or double

write operation. In a microprocessor system two unique

system addresses must be decoded, one for the input latch

controlled by the CS pin and a second for the DAC latch

which is controlled by the XFER line. If more than one DAC

is being driven, Figure 2 , the CS line of each DAC would

typically be decoded individually, but all of the converters

could share a common XFER address to allow simultaneous

updating of any number of DAC’s. The timing for this opera-

tion is shown, Figure 3 .

It is important to note that the analog outputs that will change

after a simultaneous transfer are those from the DAC’s

whose input register had been modified prior to the XFER

command.

00560830

or ground. If any of the digital inputs

Data Hold Time

www.national.com

00560831

dac0830-mwc National Semiconductor Corporation, dac0830-mwc Datasheet - Page 9

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