max5873egktd Maxim Integrated Products, Inc., max5873egktd Datasheet - Page 13

max5873egktd

Manufacturer Part Number

max5873egktd

Description

Max5873 12-bit, 200msps, High-dynamic-performance, Dual Dac With Cmos Inputs

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX5873EGKTD.pdf (16 pages)

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Use a pair of transformers (Figure 6) or a differential

amplifier configuration to convert the differential voltage

existing between OUTIP/OUTQP and OUTIN/OUTQN to

a single-ended voltage. Optimize the dynamic perfor-

mance by using a differential transformer-coupled out-

put to limit the output power to < 0dBm full scale. Pay

close attention to the transformer core saturation char-

acteristics when selecting a transformer for the

MAX5873. Transformer core saturation can introduce

strong 2nd-order harmonic distortion especially at low

output frequencies and high signal amplitudes. For best

results, center tap the transformer to ground. When not

using a transformer, terminate each DAC output to

ground with a 25Ω resistor. Additionally, place a 50Ω

resistor between the outputs (Figure 7).

For a single-ended unipolar output, select OUTIP

(OUTQP) as the output and ground OUTIN (OUTQN) to

GND. Driving the MAX5873 single-ended is not recom-

Figure 5. Differential Clock-Signal Generation

Figure 6. Differential-to-Single-Ended Conversion Using a Wideband RF Transformer

Differential Coupling Using a Wideband RF

CLOCK SOURCE

SINGLE-ENDED

12-Bit, 200Msps, High-Dynamic-Performance,

PERFORMS SINGLE-ENDED-TO-

WIDEBAND RF TRANSFORMER

DIFFERENTIAL CONVERSION

DATA11–DATA0

1:1

______________________________________________________________________________________

GND

MAX5873

GND

25Ω

0.1µF

Transformer

OUTIP/OUTQP

OUTIN/OUTQN

TO DAC

Dual DAC with CMOS Inputs

CLKP

CLKN

50Ω

100Ω

50Ω

mended since additional noise and distortion will

be added.

The distortion performance of the DAC depends on the

load impedance. The MAX5873 is optimized for 50Ω

differential double termination. It can be used with a

transformer output as shown in Figure 6 or just one 25Ω

resistor from each output to ground and one 50Ω resis-

tor between the outputs (Figure 7). This produces a full-

scale output power of up to -2dBm, depending on the

output current setting. Higher termination impedance

can be used at the cost of degraded distortion perfor-

mance and increased output noise voltage.

Grounding and power-supply decoupling can strongly

influence the MAX5873 performance. Unwanted digital

crosstalk couples through the input, reference, power

supply, and ground connections, and affects dynamic

performance. High-speed, high-frequency applications

require closely followed proper grounding and power-

supply decoupling. These techniques reduce EMI and

internal crosstalk that can significantly affect the

MAX5873 dynamic performance.

Use a multilayer PCB with separate ground and power-

supply planes. Run high-speed signals on lines directly

above the ground plane. Keep digital signals as far

away from sensitive analog inputs and outputs, refer-

ence input sense lines, common-mode input, and clock

inputs as practical. Use a symmetric design of clock

input and the analog output lines to minimize 2nd-order

harmonic distortion components, thus optimizing the

DAC’s dynamic performance. Keep digital signal paths

short and run lengths matched to avoid propagation

delay and data skew mismatches.

T1, 1:1

Grounding, Bypassing, and Power-

WIDEBAND RF TRANSFORMER T2 PERFORMS THE

DIFFERENTIAL-TO-SINGLE-ENDED CONVERSION

T2, 1:1

OUT

, SINGLE-ENDED

Supply Considerations

max5873egktd Maxim Integrated Products, Inc., max5873egktd Datasheet - Page 13

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