KDC5512H-Q48EVAL Intersil, KDC5512H-Q48EVAL Datasheet - Page 17

KDC5512H-Q48EVAL

Manufacturer Part Number

KDC5512H-Q48EVAL

Description

DAUGHTER CARD FOR KAD5512

Manufacturer

Intersil

Series

FemtoCharge™r

Datasheets

1.KAD5512HP-25Q72.pdf (34 pages)

2.KMB-001LEVALZ.pdf (7 pages)

3.KDC5514EVALZ.pdf (9 pages)

Specifications of KDC5512H-Q48EVAL

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

250M

Data Interface

Parallel

Inputs Per Adc

1 Differential

Input Range

1.47 Vpp

Power (typ) @ Conditions

429mW @ 250MSPS

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

KAD5512HP-25, KMB001 Motherboard

For Use With

KMB001LEVAL - MOTHERBOARD FOR LVDS ADC CARD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Theory of Operation

Functional Description

The KAD5512HP is based upon a 12-bit, 250MSPS A/D

converter core that utilizes a pipelined successive

approximation architecture (Figure 21). The input voltage is

captured by a Sample-Hold Amplifier (SHA) and converted

to a unit of charge. Proprietary charge-domain techniques

are used to successively compare the input to a series of

reference charges. Decisions made during the successive

approximation operations determine the digital code for each

input value. The converter pipeline requires six samples to

produce a result. Digital error correction is also applied,

resulting in a total latency of eight and one half clock cycles.

This is evident to the user as a time lag between the start of

a conversion and the data being available on the digital

outputs.

The KAD5512HP family offers 2.5dB improvement in SNR

over the KAD5512P by simultaneously sampling the input

signal with two ADC cores in parallel and summing the digital

result. Since the input signal is correlated between the two

cores and noise is not, an increase in SNR is achieved. As a

result of this architecture, indexed SPI operations must be

executed on each core in series. Refer to “Indexed Device

Configuration/Control” on page 24 for more details.

Power-On Calibration

The ADC performs a self-calibration at start-up. An internal

power-on-reset (POR) circuit detects the supply voltage

INP

INN

1.25V

–

SHA

FIGURE 21. ADC CORE BLOCK DIAGRAM

2.5-BIT

FLASH

KAD5512HP

1.5-BIT/STAGE

6-STAGE

ramps and initiates the calibration when the analog and

digital supply voltages are above a threshold. The following

conditions must be adhered to for the power-on calibration to

execute successfully:

• A frequency-stable conversion clock must be applied to

• DNC pins (especially 3, 4 and 18) must not be pulled up or

• SDO (pin 66) must be high

• RESETN (pin 25) must begin low

• SPI communications must not be attempted

A user-initiated reset can subsequently be invoked in the

event that the previous conditions cannot be met at

power-up.

The SDO pin requires an external 4.7kΩ pull-up to OVDD. If

the SDO pin is pulled low externally during power-up,

calibration will not be executed properly.

After the power supply has stabilized the internal POR

releases RESETN and an internal pull-up pulls it high, which

starts the calibration sequence. If a subsequent

user-initiated reset is required, the RESETN pin should be

connected to an open-drain driver with a drive strength of

less than 0.5mA.

the CLKP/CLKN pins

down

LVDS/LVCMOS

CORRECTION

GENERATION

OUTPUTS

DIGITAL

CLOCK

ERROR

1-BIT/STAGE

3-STAGE

FLASH

3-BIT

October 1, 2009

FN6808.3

KDC5512H-Q48EVAL Intersil, KDC5512H-Q48EVAL Datasheet - Page 17

KDC5512H-Q48EVAL

Specifications of KDC5512H-Q48EVAL

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