AD9740-EB Analog Devices, AD9740-EB Datasheet - Page 11

AD9740-EB

Manufacturer Part Number

AD9740-EB

Description

10-Bit/ 165 MSPS TxDAC D/A Converter

Manufacturer

Analog Devices

Datasheet

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IOUTA and IOUTB also have a negative and positive voltage

compliance range that must be adhered to in order to achieve

optimum performance. The negative output compliance range of

–1.0 V is set by the breakdown limits of the CMOS process.

Operation beyond this maximum limit may result in a breakdown

of the output stage and affect the reliability of the AD9740.

The positive output compliance range is slightly dependent on the

full-scale output current, I

nominal 1.2 V for an I

The optimum distortion performance for a single-ended or differ-

ential output is achieved when the maximum full-scale signal at

IOUTA and IOUTB does not exceed 0.5 V.

DIGITAL INPUTS

The AD9740’s digital section consists of 10 input bit channels

and a clock input. The 10-bit parallel data inputs follow stan-

dard positive binary coding where DB13 is the most significant

bit (MSB) and DB0 is the least significant bit (LSB). IOUTA

produces a full-scale output current when all data bits are at

Logic 1. IOUTB produces a complementary output with the

full-scale current split between the two outputs as a function of

the input code.

The digital interface is implemented using an edge-triggered

master/slave latch. The DAC output updates on the rising edge

of the clock and is designed to support a clock rate as high as

165 MSPS. The clock can be operated at any duty cycle that meets

the specified latch pulsewidth. The setup and hold times can also

be varied within the clock cycle as long as the specified minimum

times are met, although the location of these transition edges

may affect digital feedthrough and distortion performance. Best

performance is typically achieved when the input data transitions

on the falling edge of a 50% duty cycle clock.

DAC TIMING

Input Clock and Data Timing Relationship

Dynamic performance in a DAC is dependent on the relation-

ship between the position of the clock edges and the point in

time at which the input data changes. The AD9740 is rising

edge triggered, and so exhibits dynamic performance sensitivity

when the data transition is close to this edge. In general, the

goal when applying the AD9740 is to make the data transition

close to the falling clock edge. This becomes more important as

the sample rate increases. Figure 7 shows the relationship of SFDR

to clock placement with different sample rates. Note that at the

lower sample rates, more tolerance is allowed in clock place-

ment, while at higher rates, more care must be taken.

REV. 0

Figure 6. Equivalent Digital Input

DIGITAL

INPUT

OUTFS

= 20 mA to 1.0 V for an I

. It degrades slightly from its

DVDD

OUTFS

= 2 mA.

–11–

Figure 7. SFDR vs. Clock Placement @ f

50 MHz

Sleep Mode Operation

The AD9740 has a power-down function that turns off the output

current and reduces the supply current to less than 4 mA over the

specified supply range of 3.0 V to 3.6 V and temperature range.

This mode can be activated by applying a logic level 1 to the SLEEP

pin. The SLEEP pin logic threshold is equal to 0.5 × AVDD. This

digital input also contains an active pull-down circuit that ensures

the AD9740 remains enabled if this input is left disconnected.

The AD9740 takes less than 50 ns to power down and approximately

5 µs to power back up.

POWER DISSIPATION

The power dissipation, P

several factors that include:

The power dissipation is directly proportional to the analog

supply current, I

and is insensitive to f

both the digital input waveform, f

DVDD. Figure 9 shows I

wave output ratios (f

DVDD = 3.3 V.

AVDD

•

The power supply voltages (AVDD and DVDD)

The full-scale current output I

The update rate f

The reconstructed digital input waveform

is directly proportional to I

–3

AVDD

–2

TIME (ns) OF DATA CHANGE RELATIVE

OUT

CLOCK

, and the digital supply current, I

TO RISING CLOCK EDGE

DVDD

–1

CLOCK

, of the AD9740 is dependent on

. Conversely, I

as a function of full-scale sine

) for various update rates with

OUTFS

CLOCK

OUTFS

as shown in Figure 8

, and digital supply

DVDD

OUT

is dependent on

AD9740

= 50MHz

= 20 MHz and

= 20MHz

DVDD

AD9740-EB Analog Devices, AD9740-EB Datasheet - Page 11

AD9740-EB

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