AD9122 Analog Devices, AD9122 Datasheet - Page 36

AD9122

Manufacturer Part Number

AD9122

Description

Manufacturer

Analog Devices

Datasheet

1.AD9122.pdf (60 pages)

Specifications of AD9122

Resolution (bits)

16bit

Dac Update Rate

1.23GSPS

Dac Settling Time

n/a

Max Pos Supply (v)

+3.47V

Single-supply

Dac Type

Current Out

Dac Input Format

LVDS,Par

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9122AXCPZ

Manufacturer:

ADI

Quantity:

250

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9122BCPZ

Manufacturer:

VISHAY

Quantity:

15 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9122BCPZ

Manufacturer:

ADI

Quantity:

852

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD9122BCPZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Company:

H&T Electronics

Part Number:

AD9122BCPZ

Quantity:

737

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9122BCPZ-ND

Manufacturer:

ADI

Quantity:

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD9122BCPZRL

Manufacturer:

ARTESYN

Quantity:

125

Current page: 36 of 60
Download datasheet (2Mb)

AD9122

DIGITAL DATAPATH

The block diagram in Figure 50 shows the functionality of the

digital datapath. The digital processing includes a premodulation

block, three half-band (HB) interpolation filters, a quadrature

modulator with a fine resolution NCO, phase and offset adjust-

ment blocks, and an inverse sinc filter.

The digital datapath accepts I and Q data streams and processes

them as a quadrature data stream. The signal processing blocks can

be used when the input data stream is represented as complex data.

The digital datapath can also be used to process an input data

stream representing two independent real data streams, but the

functionality is somewhat restricted. The premodulation block

and any of the nonshifted interpolation filter modes can be used

for an input data stream representing two independent real data

streams. See the Coarse Modulation Mixing Sequences section

for more information.

PREMODULATION

The half-band interpolation filters have selectable pass bands

that allow the center frequencies to be moved in increments of

one-half their input data rate. The premodulation block provides

a digital upconversion of the incoming waveform by one-half the

incoming data rate, f

band input data to the center of the interpolation filter pass band.

INTERPOLATION FILTERS

The transmit path contains three interpolation filters. Each of the

three interpolation filters provides a 2× increase in output data

rate. The half-band (HB) filters can be individually bypassed or

cascaded to provide 1×, 2×, 4×, or 8× interpolation ratios. Each

half-band filter stage offers a different combination of bandwidths

and operating modes.

The bandwidth of the three half-band filters with respect to the

data rate at the filter input is as follows:

•

The usable bandwidth is defined as the frequency over which

the filters have a pass-band ripple of less than ±0.001 dB and

an image rejection of greater than +85 dB. As described in the

Half-Band Filter 1 (HB1) section, the image rejection usually

sets the usable bandwidth of the filter, not the pass-band flatness.

PREMOD

Bandwidth of HB1 = 0.8 × f

Bandwidth of HB2 = 0.5 × f

Bandwidth of HB3 = 0.4 × f

Figure 50. Block Diagram of Digital Datapath

HB1

DATA

. This can be used to frequency-shift base-

HB2

IN1

IN2

IN3

HB3

ADJUST

OFFSET

PHASE

AND

SINC

–1

Rev. B | Page 36 of 60

The half-band filters operate in several modes, providing

programmable pass-band center frequencies as well as signal

modulation. The HB1 filter has four modes of operation, and

the HB2 and HB3 filters each have eight modes of operation.

Half-Band Filter 1 (HB1)

HB1 has four modes of operation, as shown in Figure 51. The

shape of the filter response is identical in each of the four modes.

The four modes are distinguished by two factors: the filter center

frequency and whether the input signal is modulated by the filter.

As shown in Figure 51, the center frequency in each mode is

offset by one-half the input data rate (f

and Mode 1 do not modulate the input signal. Mode 2 and

Mode 3 modulate the input signal by f

Mode 0 and Mode 2, the I and Q paths operate independently

and no mixing of the data between channels occurs. When oper-

ating in Mode 1 and Mode 3, mixing of the data between the

I and Q paths occurs; therefore, the data input into the filter is

assumed to be complex. Table 15 summarizes the HB1 modes.

Table 15. HB1 Filter Modes

Mode

–100

–20

–40

–60

–80

MODE 0

CENTER

0.2

0.4

Figure 51. HB1 Filter Modes

0.6

MODE 1

FREQUENCY (×

0.8

None

MOD

1.0

MODE 2

IN1

1.2

IN1

) (Hz)

Input Data

Real or complex

Complex

Real or complex

Complex

. When operating in

) of the filter. Mode 0

1.4

1.6

MODE 3

1.8

AD9122 Analog Devices, AD9122 Datasheet - Page 36

AD9122

Specifications of AD9122

Available stocks

Related parts for AD9122