SPT9713BIP Cadeka Microcircuits, SPT9713BIP Datasheet - Page 4

SPT9713BIP

Manufacturer Part Number

SPT9713BIP

Description

Digital to Analog Converters - DAC D/A CONVERTER 12-BIT 100MWPS 640mW

Manufacturer

Cadeka Microcircuits

Datasheet

1.SPT9713BIP.pdf (7 pages)

Specifications of SPT9713BIP

Product Category

Digital to Analog Converters - DAC

Number Of Converters

Conversion Rate

100 MWPs

Resolution

12 bit

Settling Time

13 ns

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

PLCC-28

Maximum Power Dissipation

640 mW

Minimum Operating Temperature

- 40 C

Supply Current

8 mA

Supply Voltage - Max

5.25 V

Supply Voltage - Min

4.75 V

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THEORY OF OPERATION

The SPT9713 uses a segmented architecture incorporat-

ing most significant bit (MSB) decoding. The four MSBs

(D1–D4) are decoded to thermometer code lines to drive

15 discrete current sinks. For the eight least significant

bits (LSBs), D5 and D6 are binary weighted and D7–D12

are applied to the R-2R network. The 12-bit decoded data

is input to internal master/slave latches. The latched data

is input to the switching network and is presented on the

output pins as complementary current outputs.

TYPICAL INTERFACE CIRCUIT

The SPT9713 requires few external components to

achieve the stated operation and performance. Figure 2

shows the typical interface requirements when using the

SPT9713 in normal circuit operation. The following sec-

tions provide descriptions of the pin functions and outline

critical performance criteria to consider for achieving opti-

mal device performance.

POWER SUPPLIES AND GROUNDING

The SPT9713 requires the use of +5 V and –5.2 V sup-

plies. All supplies should be treated as analog supply

sources. This means the ground returns of the device

should be connected to the analog ground plane. All sup-

ply pins should be bypassed with .01 µF and 10 µF

decoupling capacitors as close to the device as possible.

The two grounds available on the SPT9713 are DGND

and AGND. These grounds are not tied together internal to

the device. The use of ground planes is recommended to

achieve the best performance of the SPT9713. All ground,

reference and analog output pins should be tied directly to

the DAC ground plane. The DAC and system ground

planes should be separate from each other and only con-

nected at a single point through a ferrite bead to reduce

ground noise pickup.

DIGITAL INPUTS AND TIMING

The SPT9713 uses TTL logic drivers for each data input

D1–D12 and Latch Enable. It also employs master/slave

latches to simplify digital interface timing requirements

and reduce glitch energy by synchronizing the current

switches. This is an improvement over the AD9713, which

typically requires external latches for digital input synchro-

nization.

Referring to figure 1, data is latched into the DAC on the

rising edge of the latch enable clock with the associated

setup and hold times. The output transition occurs after a

typical 2 ns propagation delay and settles to within ±1 LSB

in typically 13 ns. Because of the SPT9713’s rising-edge

triggering, no timing changes are required when replacing

an AD9713 operating in the transparent mode.

VOLTAGE REFERENCE

When using the internal reference, Ref Out should be con-

nected to Control Amp In and decoupled with a 0.1 µF

capacitor. Control Amp Out should be connected to Ref In

and decoupled to the analog supply. (See figure 2.)

Full-scale output current is determined by Control Amp In

and R

The internal reference is typically –1.20 V with a tolerance

of ±0.05 V and a typical drift of 50 ppm/°C. If greater accu-

racy or temperature stability is required, an external refer-

ence can be utilized.

OUTPUTS

The output of the SPT9713 is comprised of complemen-

tary current sinks, I

at either I

The sum of the two is always equal to the full-scale output

current minus one LSB.

By terminating the output current through a resistive load

to ground, an associated voltage develops. The effective

resistive load (R

which develops can be determined using the following

formulas:

The resistive load of the SPT9713 can be modified to in-

corporate a wide variety of signal levels. However, optimal

device performance is achieved when the outputs are

equivalently loaded.

Out

Control Amp Out = –1.2 V, and R

Out

) in parallel with the resistive load (R

Out

Eff

Set

= 51

(FS) = (–1.2 V / 7.5 k ) x 128 = –20.48 mA

(Current Out is a constant 128 factor of the

reference current)

= 51

Out

= R

= 1.0 k

using the following formula:

Out

(FS) = (Control Amp In / R

Eff

or I

x I

Out

|| 1.0 k

Eff

Out

) is the output resistance of the device

Out

are based upon the digital input code.

(FS) = 48.52

and I

= 48.52

= –0.994 V

Out

. The output current levels

Set

x –20.48 mA

Set

= 7.5 k

) x 128

). The voltage

SPT9713

2/15/01

SPT9713BIP Cadeka Microcircuits, SPT9713BIP Datasheet - Page 4

SPT9713BIP

Specifications of SPT9713BIP

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