AD9953YSVZ Analog Devices Inc, AD9953YSVZ Datasheet - Page 12

AD9953YSVZ

Manufacturer Part Number

AD9953YSVZ

Description

IC DDS DAC 14BIT 400MSPS 48-TQFP

Manufacturer

Analog Devices Inc

Datasheet

1.AD9953YSVZ.pdf (32 pages)

Specifications of AD9953YSVZ

Resolution (bits)

14 b

Master Fclk

400MHz

Tuning Word Width (bits)

32 b

Voltage - Supply

1.71 V ~ 1.96 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

48-TQFP Exposed Pad, 48-eTQFP, 48-HTQFP, 48-VQFP

Data Rate

25Mbps

Rf Ic Case Style

TQFP

No. Of Pins

Supply Voltage Range

1.71V To 1.89V, 3.135V To 3.465V

Operating Temperature Range

-40Â°C To +105Â°C

Msl

MSL 3 - 168 Hours

Frequency Max

400MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

AD9953/PCB - BOARD EVAL FOR AD9953

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Current page: 12 of 32
Download datasheet (569Kb)

AD9953

THEORY OF OPERATION

COMPONENT BLOCKS

DDS Core

The output frequency (f

frequency of the system clock (SYSCLK), the value of the

frequency tuning word (FTW), and the capacity of the

accumulator (2

below with f

The value at the output of the phase accumulator is translated to

an amplitude value via the COS(x) functional block and routed

to the DAC.

In certain applications, it is desirable to force the output signal

to zero phase. Simply setting the FTW to 0 does not accomplish

this; it only results in the DDS core holding its current phase

value. Thus, a control bit is required to force the phase

accumulator output to zero.

At power-up, the clear phase accumulator bit is set to Logic 1,

but the buffer memory for this bit is cleared (Logic 0).

Therefore, upon power-up, the phase accumulator will remain

clear until the first I/O UPDATE is issued.

Phase-Locked Loop (PLL)

The PLL allows multiplication of the REFCLK frequency.

Control of the PLL is accomplished by programming the 5-bit

REFCLK multiplier portion of Control Function Register No. 2,

Bits <7:3>.

When programmed for values ranging from 0x04 to 0x14

(4 decimal to 20 decimal), the PLL multiplies the REFCLK

input frequency by the corresponding decimal value. However,

the maximum output frequency of the PLL is restricted to

400 MHz. Whenever the PLL value is changed, the user should

be aware that time must be allocated to allow the PLL to lock

(approximately 1 ms).

The PLL is bypassed by programming a value outside the range

of 4 to 20 (decimal). When bypassed, the PLL is shut down to

conserve power.

Table 4. Clock Input Modes of Operation

CFR1<4>

Low

High







defined as the frequency of SYSCLK.



CLKMODESELECT

High

Low

FTW

–

, in this case). The exact relationship is given



FTW



 

2 /

) of the DDS is a function of the

2 /



with

CFR2<7:3>

3 < M < 21

M < 4 or M > 20

3 < M < 21

M < 4 or M > 20





FTW





1 –

Rev. A | Page 12 of 32

Oscillator Enabled?

Yes

Clock Input

The AD9953 supports various clock methodologies. Support for

differential or single-ended input clocks and enabling of an on-

chip oscillator and/or a phase-locked loop (PLL) multiplier is all

controlled via user programmable bits. The AD9953 may be

configured in one of six operating modes to generate the system

clock. The modes are configured using the CLKMODESELECT

pin, CFR1<4>, and CFR2<7:3>. Connecting the external pin

CLKMODESELECT to Logic High enables the on-chip crystal

oscillator circuit. With the on-chip oscillator enabled, users of

the AD9953 connect an external crystal to the REFCLK and

REFCLKB inputs to produce a low frequency reference clock in

the range of 20 MHz to 30 MHz. The signal generated by the

oscillator is buffered before it is delivered to the rest of the chip.

This buffered signal is available via the CRYSTAL OUT pin. Bit

CFR1<4> can be used to enable or disable the buffer, turning on

or off the system clock. The oscillator itself is not powered

down in order to avoid long start-up times associated with

turning on a crystal oscillator. Writing CFR2<9> to Logic High

enables the crystal oscillator output buffer. Logic Low at

CFR2<9> disables the oscillator output buffer.

Connecting CLKMODESELECT to Logic Low disables the

on-chip oscillator and the oscillator output buffer. With the

oscillator disabled, an external oscillator must provide the

REFCLK and/or REFCLKB signals. For differential operation,

these pins are driven with complementary signals. For single-

ended operation, a 0.1 μF capacitor should be connected

between the unused pin and the analog power supply. With the

capacitor in place, the clock input pin bias voltage is 1.35 V. In

addition, the PLL may be used to multiply the reference

frequency by an integer value in the range of 4 to 20. Table 4

summarizes the clock modes of operation. Note that the PLL

multiplier is controlled via the CFR2<7:3> bits, independent of

the CFR1<4> bit.

System Clock

CLK

= F

= 0

OSC

× M

Frequency Range (MHz)

80 < F

20 < F

80 < F

10 < F

N/A

CLK

< 400

< 30

< 400

AD9953YSVZ Analog Devices Inc, AD9953YSVZ Datasheet - Page 12

AD9953YSVZ

Specifications of AD9953YSVZ

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