AD9739-EBZ Analog Devices Inc, AD9739-EBZ Datasheet - Page 49

AD9739-EBZ

Manufacturer Part Number

AD9739-EBZ

Description

14 Bit 2.5 GSPS DAC

Manufacturer

Analog Devices Inc

Datasheet

1.AD9739BBCZ.pdf (56 pages)

Specifications of AD9739-EBZ

Number Of Dac's

Number Of Bits

Outputs And Type

1, Differential

Sampling Rate (per Second)

2.5G

Data Interface

SPI™

Dac Type

Current

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD9739

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The differential voltage existing between IOUTP and IOUTN

can also be converted to a single-ended voltage via a transformer or

differential amplifier configuration. Internal to the AD9739 is a

differential resistance between IOUTP and IOUTN that must

be factored into the calculations for the voltage output and

impedance out of the DAC. The approximate impedance between

the outputs is 70 Ω.

Depending on the mode of operation and desired signal, the

output stage can be configured in several ways for optimal ac

performance. Figure 107 shows the optimal output network

when measuring the signal in normal mode (baseband).

Figure 108 shows the optimal output network when measuring

the signal in mix mode (second or third Nyquist zone). The

bandwidth of the ADT2T-1T-1P center tap transformer is not

sufficient to support mix mode outputs; therefore, the best

solution is to use the balun by itself.

Finally, when measuring DOCSIS performance, it is necessary

to use a filter between the DAC and the transformer to control

the impedance and help to decrease the folded back harmonics

for higher frequency outputs. The optimal transformer for

DOCSIS measurements is the JTX-2-10T, which is a balun and

center-tapped transformer in one package. This output stage is

shown in Figure 109.

Figure 107. Recommended Transformer Output Stage for Normal Mode

Figure 108. Recommended Transformer Output Stage for Mix Mode

Figure 109. Recommended Transformer Output Stage for DOCSIS

IOUTN

IOUTP

IOUTN

70Ω

IOUTN

IOUTP

70Ω

90Ω

Measurements

4.7pF

90Ω

MABACT0039

5.6nH

2.2pF

MABACT0039

JTX-2-10T

ADT2T-1T-1P

Rev. 0 | Page 49 of 56

INTERRUPT REQUESTS

There following six interrupt requests (IRQ) can be used for

additional verification of the status of each controller.:

•

Each IRQ is enabled using the enable bits in the interrupt mask

can be measured in one of the following ways: via the SPI bits

found in the interrupt service request register (IST), Register

0x04 (IRQ_Req) or using the IRQ pin (Pin F13).

If the pin is used to determine that an interrupt has occurred, it

is also necessary to check Register 0x04 to determine which bit

caused the interrupt because the pin can only indicate that an

interrupt has occurred. To clear an IRQ, it is necessary to write

a 1 to the bit in Register 0x04 that caused the interrupt. A detailed

diagram of the interrupt circuitry is shown in Figure 110.

DATA

SPI

Receiver locked

Receiver lost lock

Mu controller locked

Mu controller lost lock

Sync controller locked

Sync controller lost lock

SCLK

IMR

Figure 110. Interrupt Request Circuitry

SOURCE

INT

INT(n)

SPI WRITE

DATA = 1

(PIN F13)

SPI ISR

READ DATA

SPI ADDRESS

AD9739

INT

SOURCE

AD9739-EBZ Analog Devices Inc, AD9739-EBZ Datasheet - Page 49

AD9739-EBZ

Specifications of AD9739-EBZ

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