AD9148BPCZ AD [Analog Devices], AD9148BPCZ Datasheet - Page 59

AD9148BPCZ

Manufacturer Part Number

AD9148BPCZ

Description

Quad 16-Bit,1 GSPS, TxDAC+ Digital-to-Analog Converter

Manufacturer

AD [Analog Devices]

Datasheet

1.AD9148BPCZ.pdf (73 pages)

Current page: 59 of 73
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Preliminary Technical Data

ANALOG OUTPUTS

TRANSMIT DAC OPERATION

Figure 75 shows a simplified block diagram of one pair of the

transmit path DACs. The DAC core consists of a current source

array, switch core, digital control logic, and full-scale output

current control. The DAC full-scale output current (I

nominally 20 mA. The output currents from the IOUTx_P and

IOUTx_N pins are complementary, meaning that the sum of

the two currents always equals the full-scale current of the DAC.

The digital input code to the DAC determines the effective

differential current delivered to the load.

The DAC has a 1.2 V band gap reference with an output impedance

of 5 kΩ. The reference output voltage appears on the VREF pin.

When using the internal reference, the VREF pin should be

decoupled to AVSS with a 0.1 μF capacitor. The internal reference

should only be used for external circuits that draw dc currents

of 2 μA or less. For dynamic loads or static loads greater than

2 μA, the VREF pin should be buffered. If desired, an external

reference (between 1.10 V to 1.30 V) can be applied to the

VREF pin.

A 10 kΩ external resistor, R

RESET pin to AVSS. This resistor, along with the reference

control amplifier, sets up the correct internal bias currents for

the DAC. Because the full-scale current is inversely proportional to

this resistor, the tolerance of R

output amplitude.

The full-scale current can be calculated by

where DAC gain is set individually for the I and Q DACs in

respectively.

OUTFS

SET

REF

⎛

⎜

⎝

⎛

⎜

⎝

SET

, must be connected from the

SET

DAC gain

is reflected in the full-scale

0.1µF

RSET

10kΩ

⎞

⎟

⎠

⎞

⎟

⎠

VREF

I120

Figure 75. Simplified Block Diagram of DAC Core

OUTFS

1.2V

5kΩ

) is

Rev. PrA | Page 59 of 73

Q DAC GAIN

I DAC GAIN

CURRENT

SCALING

For nominal values of VREF (1.2 V), R

gain (512), the full-scale current of the DAC is typically 20.16 mA.

The DAC full-scale current can be adjusted from 8.66 mA to

31.66 mA by setting the DAC gain parameter setting as shown

in Figure 74.

Transmit DAC Transfer Function

The output currents from the IOUTx_P and IOUTx_N pins are

complementary, meaning that the sum of the two currents always

equals the full-scale current of the DAC. The digital input code

to the DAC determines the effective differential current delivered

to the load. IOUTx_P provides the maximum output current

when all bits are high. The output currents vs. DACCODE for

the DAC outputs are expressed as

where DACCODE = 0 to 2

Q DAC

I DAC

OUT_N

OUT

Figure 74. DAC Full-Scale Current vs. DAC Gain Code

= I

OUTFS

⎡

⎢ ⎣

IOUT1_P/IOUT3_P

IOUT1_N/IOUT3_N

IOUT2_N/IOUT4_N

IOUT2_P/IOUT4_P

DACCODE

200

– I

OUT_P

DAC GAIN CODE

400

⎤

⎥ ⎦

− 1.

OUTFS

600

SET

(10 kΩ), and DAC

800

AD9148

1000

(1)

(2)

AD9148BPCZ AD [Analog Devices], AD9148BPCZ Datasheet - Page 59

AD9148BPCZ

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