AD9854/PCBZ Analog Devices Inc, AD9854/PCBZ Datasheet - Page 10

AD9854/PCBZ

Manufacturer Part Number

AD9854/PCBZ

Description

300 MHZ QUADRATURE DDS SYN. Eval Board

Manufacturer

Analog Devices Inc

Series

AgileRF™r

Datasheet

1.AD9854ASTZ.pdf (52 pages)

Specifications of AD9854/PCBZ

Main Purpose

Timing, Direct Digital Synthesis (DDS)

Utilized Ic / Part

AD9854

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD9854

Pin No.

31, 32, 37, 38, 44,

50, 54, 60, 65

33, 34, 39, 40, 41,

45, 46, 47, 53, 59,

62, 66, 67

Mnemonic

I/O UD CLK

WR/SCLK

RD/CS

FSK/BPSK/HOLD

OSK

AVDD

AGND

VOUT

VINP

VINN

IOUT1

IOUT2

DACBP

DAC R

PLL FILTER

DIFF CLK ENABLE

REFCLK

S/P SELECT

MASTER RESET

SET

Voltage Input Negative. The inverting input of the internal high speed comparator.

Selects serial programming mode (logic low) or parallel programming mode (logic high).

Description

Bidirectional I/O Update Clock. Direction is selected in control register. If this pin is selected as an

input, a rising edge transfers the contents of the I/O port buffers to the programming registers. If I/O

UD CLK is selected as an output (default), an output pulse (low to high) with a duration of eight

system clock cycles indicates that an internal frequency update has occurred.

Write Parallel Data to I/O Port Buffers. Shared function with SCLK. Serial clock signal associated

with the serial programming bus. Data is registered on the rising edge. This pin is shared with WR

when the parallel mode is selected. The mode is dependent on Pin 70 (S/P SELECT).

Read Parallel Data from Programming Registers. Shared function with CS. Chip-select signal

associated with the serial programming bus. Active low. This pin is shared with RD when the

parallel mode is selected.

Multifunction pin according to the mode of operation selected in the programming control

selects Phase 1 and logic high selects Phase 2. In chirp mode, logic high engages the hold

function, causing the frequency accumulator to halt at its current location. To resume or

commence chirp mode, logic low is asserted.

Output Shaped Keying. Must first be selected in the programming control register to function. A

logic high causes the I and Q DAC outputs to ramp up from zero-scale to full-scale amplitude at a

preprogrammed rate. Logic low causes the full-scale output to ramp down to zero scale at the

preprogrammed rate.

Connections for the Analog Circuitry Supply Voltage. Nominally 3.3 V more positive than AGND

and DGND.

Connections for Analog Circuitry Ground Return. Same potential as DGND.

Noninverted Output of the Internal High Speed Comparator. Designed to drive 10 dBm to 50 Ω

load as well as standard CMOS logic levels.

Voltage Input Positive. The noninverting input of the internal high speed comparator.

Unipolar Current Output of I, or the Cosine DAC. (Refer to Figure 3.)

Complementary Unipolar Current Output of I, or the Cosine DAC.

Complementary Unipolar Current Output of Q, or the Sine DAC.

Unipolar Current Output of Q, or the Sine DAC. This DAC can be programmed to accept external

12-bit data in lieu of internal sine data, allowing the AD9854 to emulate the AD9852 control DAC

function.

Common Bypass Capacitor Connection for Both I and Q DACs. A 0.01 μF chip capacitor from this

pin to AVDD improves harmonic distortion and SFDR slightly. No connect is permissible, but

results in a slight degradation in SFDR.

Common Connection for Both I and Q DACs. Used to set the full-scale output current. R

Normal R

Connection for the External Zero-Compensation Network of the REFCLK Multiplier’s PLL Loop

Filter. The zero-compensation network consists of a 1.3 kΩ resistor in series with a 0.01 μF

capacitor. The other side of the network should be connected to AVDD as close as possible to

Pin 60. For optimum phase noise performance, the REFCLK multiplier can be bypassed by setting

the bypass PLL bit in Control Register 1E hex.

Differential REFCLK Enable. A high level of this pin enables the differential clock inputs, REFCLK

and REFCLK (Pin 69 and Pin 68, respectively).

Complementary (180° Out of Phase) Differential Clock Signal. User should tie this pin high or low

when single-ended clock mode is selected. Same signal levels as REFCLK.

Single-Ended Reference Clock Input (CMOS Logic Levels Required) or One of Two Differential

Clock Signals. In differential reference clock mode, both inputs can be CMOS logic levels or have

greater than 400 mV p-p square or sine waves centered about 1.6 V dc.

Initializes the serial/parallel programming bus to prepare for user programming; sets

programming registers to a do-nothing state defined by the default values listed in Table 8.

Active on logic high. Asserting this pin is essential for proper operation upon power-up.

SET

range is from 8 kΩ (5 mA) to 2 kΩ (20 mA).

Rev. E | Page 10 of 52

SET

= 39.9/I

OUT

AD9854/PCBZ Analog Devices Inc, AD9854/PCBZ Datasheet - Page 10

AD9854/PCBZ

Specifications of AD9854/PCBZ

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