DC1298A-AA Linear Technology, DC1298A-AA Datasheet - Page 21

DC1298A-AA

Manufacturer Part Number

DC1298A-AA

Description

BOARD EVAL LTM9002-AA

Manufacturer

Linear Technology

Type

Baseband Receiverr

Datasheets

1.DC1298A-LA.pdf (28 pages)

2.DC1298A-LA.pdf (4 pages)

Specifications of DC1298A-AA

Design Resources

Demo Circuit 1298A Schematic

Frequency

0Hz ~ 300MHz

Features

LTM9002 14bit Dual Receiver Subsystem, DC-170MHz LPF

Tool / Board Applications

Wireless Connectivity-ZigBee, RF, Infrared, USB

Mcu Supported Families

LTM9002

Development Tool Type

Hardware - Eval/Demo Board

For Use With/related Products

LTM9002

Lead Free Status / RoHS Status

Not applicable / Not applicable

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APPLICATIONS INFORMATION

The ampliﬁ er is unconditionally stable, i.e. differential

stability factor Kf > 1 and stability measure B1 > 0. How-

ever, the overall differential gain is affected by the source

impedance in Figure 7:

The noise performance of the ampliﬁ er also depends

upon the source impedance and termination. For example,

an input 1:4 transformer in Figure 5 improves the input

noise ﬁ gure by adding 6dB gain at the inputs. A trade-off

between gain and noise is obvious when constant noise

ﬁ gure circle and constant gain circle are plotted within

the input Smith Chart, based on which users can choose

the optimal source impedance for a given gain and noise

requirement.

SENSE Pin Operation

The internal voltage reference can be conﬁ gured for two

pin-selectable input ranges of 0.1V (±50mV differential)

or 0.5V (±25mV differential) for LTM9002-AA. Tying the

SENSE pin to V

pin to 1.5V selects the lower range. For other versions of

LTM9002, the input span is either 2V

gain or 1V

An external reference can be used by applying its output

directly or through a resistive divider to SENSE. It is not

recommended to drive the SENSE pin with a logic device.

The SENSE pin should be tied to the appropriate level as

close to the converter as possible. The SENSE pin is inter-

nally bypassed to ground with a 1μF ceramic capacitor.

AV = | V

–

Figure 6. Input Termination for Differential

50Ω Input Impedance Using Shunt Resistor

0.1μF

P-P

OUT

50Ω

divided by the gain.

0.1μF

selects the higher range; tying the SENSE

| = (500/(R

–

+ Z

/2)

500Ω

P-P

LTM9002

divided by the

9002 F06

Input Range

The input range can be set based on the application. The

0.1V input range (LTM9002-AA) will provide the best SNR

performance while maintaining excellent SFDR. The lower

input range will have slightly better SFDR performance, but

the SNR will degrade by 5dB. See the Typical Performance

Characteristics section.

Adjusting the Full-Scale Input Range

To trim the full-scale range of one channel to match that

of the other channel, ﬁ rst set the desired range for both

channels by applying an external reference to SENSEA

and SENSEB as shown in Figure 8. Set the DAC codes to

approximately match the external reference voltage. Ap-

ply a full-scale voltage to the input of each channel. Read

the output of both channels and adjust the setting for the

DAC of one channel until the desired channel matching

has been achieved.

The adjustment range and step size depends on the resistor

values chosen for or the source resistance of the external

reference circuit. The external reference is connected to

the SENSE pin which has 10k (±1%) series impedance

with the internal DAC voltage. For the circuit shown in Fig-

ure 8, the step size is 76μV and the code representing 1V

is 0xAAB (0.666748 decimal). In this example, the SENSE

voltage trim range is from approximately 0.79V to 1.1V

including offset and gain errors. Therefore, the effective

input span can be trimmed from ±39.6mV to 55.2mV with

a step size of 3.8μV. However, it is not recommended to

–

Figure 7. Calculate Differential Gain

–

500Ω

LTM9002

9002 F07

9002f

DC1298A-AA Linear Technology, DC1298A-AA Datasheet - Page 21

DC1298A-AA

Specifications of DC1298A-AA

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