LTC1412 Linear Technology, LTC1412 Datasheet - Page 8

LTC1412

Manufacturer Part Number

LTC1412

Description

12-Bit/ 3Msps/ Sampling A/D Converter

Manufacturer

Linear Technology

Datasheet

1.LTC1412.pdf (16 pages)

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LTC1412

APPLICATIONS

sample-and-hold capacitors to acquire the analog signal.

During the convert phase the comparator zeroing switches

open, putting the comparator into compare mode. The

input switches connect the C

transferring the differential analog input charge onto the

summing junction. This input charge is successively com-

pared with the binary-weighted charges supplied by the

differential capacitive DAC. Bit decisions are made by the

high speed comparator. At the end of a conversion, the

differential DAC output balances the A

charges. The SAR contents (a 12-bit data word) which

represents the difference of A

the 12-bit output latches.

Dynamic Performance

The LTC1412 has excellent high speed sampling capabil-

ity. FFT (Fast Four Transform) test techniques are used to

test the ADC’s frequency response, distortion and noise at

the rated throughput. By applying a low distortion sine

wave and analyzing the digital output using an FFT algo-

rithm, the ADC’s spectral content can be examined for

frequencies outside the fundamental. Figure 2 shows a

typical LTC1412 FFT plot.

Signal-to-Noise Ratio

The signal-to-noise plus distortion ratio [S/(N + D)] is the

ratio between the RMS amplitude of the fundamental input

frequency to the RMS amplitude of all other frequency

components at the A/D output. The output is band limited

–

SAMPLE

Figure 1. Simplified Block Diagram

DAC

HOLD

DAC

–

SAMPLE

DAC

–

INFORMATION

–

SAR

SAMPLE

ZEROING SWITCHES

and A

–

capacitors to ground,

HOLD

COMP

LATCHES

OUTPUT

–

are loaded into

and A

1412 F01

–

•

input

D11

to frequencies from above DC and below half the sampling

frequency. Figure 2 shows a typical spectral content with

a 3MHz sampling rate and a 100kHz input. The dynamic

performance is excellent for input frequencies up to and

beyond the Nyquist limit of 1.5MHz.

Effective Number of Bits

The Effective Number of Bits (ENOBs) is a measurement of

the resolution of an ADC and is directly related to the

S/(N + D) by the equation:

where N is the effective number of bits of resolution and

S/(N + D) is expressed in dB. At the maximum sampling

rate of 3MHz the LTC1412 maintains near ideal ENOBs up

to the Nyquist input frequency of 1.5MHz. Refer to

Figure 3.

N = [S/(N + D) – 1.76]/6.02

Figure 2b. LTC1412 Nonaveraged, 4096 Point FFT,

Input Frequency = 1.45MHz

Figure 2a. LTC1412 Nonaveraged, 4096 Point FFT,

Input Frequency = 100kHz

–100

–120

–100

–120

–20

– 40

– 60

– 80

–20

– 40

– 60

– 80

SFDR = 83dB

SINAD = 72.5dB

SNR = 73db

SMPL

200 400 600 800 1000 1200 1400

= 1.419kHz

= 3Msps

FREQUENCY (kHz)

SFDR = 93.3dB

SINAD = 73dB

SMPL

= 97.412kHz

= 3Msps

1412 F02B

1412 F02a

LTC1412 Linear Technology, LTC1412 Datasheet - Page 8

LTC1412

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