ADC14DS105LFEB/NOPB National Semiconductor, ADC14DS105LFEB/NOPB Datasheet - Page 21

ADC14DS105LFEB/NOPB

Manufacturer Part Number

ADC14DS105LFEB/NOPB

Description

BOARD EVAL FOR ADC14DS105 LF

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheet

1.ADC14DS105CISQENOPB.pdf (28 pages)

Specifications of ADC14DS105LFEB/NOPB

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

105M

Data Interface

Serial

Inputs Per Adc

1 Differential

Power (typ) @ Conditions

1W @ 105MSPS

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

ADC14DS105

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

ADC14DS105LFEB

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graded noise performance. Loading any of these pins, other

than V

The nominal voltages for the reference bypass pins are as

follows:

2.3 OF/DCS Pin

Duty cycle stabilization and output data format are selectable

using this quad state function pin. When enabled, duty cycle

stabilization can compensate for clock inputs with duty cycles

ranging from 30% to 70% and generate a stable internal clock,

improving the performance of the part. With OF/DCS = V

output data format is 2's complement and duty cycle stabi-

lization is not used. With OF/DCS = AGND the output data

format is offset binary and duty cycle stabilization is not used.

With OF/DCS = (2/3)*V

plement and duty cycle stabilization is applied to the clock. If

OF/DCS is (1/3)*V

duty cycle stabilization is applied to the clock. While the sense

of this pin may be changed "on the fly," doing this is not rec-

ommended as the output data could be erroneous for a few

clock cycles after this change is made.

Note: This signal has no effect when SPI_EN is high and the

serial control interface is enabled.

3.0 DIGITAL INPUTS

Digital CMOS compatible inputs consist of CLK, and PD_A,

PD_B, Reset_DLL, DLC, TEST, WAM, SPI_EN, SCSb,

SCLK, and SDI.

3.1 Clock Input

The CLK controls the timing of the sampling process. To

achieve the optimum noise performance, the clock input

should be driven with a stable, low jitter clock signal in the

range indicated in the Electrical Table. The clock input signal

should also have a short transition region. This can be

achieved by passing a low-jitter sinusoidal clock source

through a high speed buffer gate. The trace carrying the clock

signal should be as short as possible and should not cross

any other signal line, analog or digital, not even at 90°.

The clock signal also drives an internal state machine. If the

clock is interrupted, or its frequency is too low, the charge on

the internal capacitors can dissipate to the point where the

accuracy of the output data will degrade. This is what limits

the minimum sample rate.

The clock line should be terminated at its source in the char-

acteristic impedance of that line. Take care to maintain a

constant clock line impedance throughout the length of the

line. Refer to Application Note AN-905 for information on set-

ting characteristic impedance.

It is highly desirable that the the source driving the ADC clock

pins only drive that pin. However, if that source is used to drive

other devices, then each driven pin should be AC terminated

with a series RC to ground, such that the resistor value is

equal to the characteristic impedance of the clock line and the

capacitor value is

where t

"L" is the line length and Z

of the clock line. This termination should be as close as pos-

CMO

= 2.0 V

= 1.0 V

= 1.5 V

is the signal propagation rate down the clock line,

may result in performance degradation.

the output data format is offset binary and

the output data format is 2's com-

is the characteristic impedance

the

sible to the ADC clock pin but beyond it as seen from the clock

source. Typical t

board material. The units of "L" and t

(inches or centimeters).

The duty cycle of the clock signal can affect the performance

of the A/D Converter. Because achieving a precise duty cycle

is difficult, the ADC14DS105 has a Duty Cycle Stabilizer.

3.2 Power-Down (PD_A and PD_B)

The PD_A and PD_B pins, when high, hold the respective

channel of the ADC14DS105 in a power-down mode to con-

serve power when that channel is not being used. The chan-

nels may be powereed down individually or together. The data

in the pipeline is corrupted while in the power down mode.

The Power Down Mode Exit Cycle time is determined by the

value of the components on the reference bypass pins

( V

in the Power Down mode and must be recharged by on-chip

circuitry before conversions can be accurate. Smaller capac-

itor values allow slightly faster recovery from the power down

mode, but can result in a reduction in SNR, SINAD and ENOB

performance.

Note: This signal has no effect when SPI_EN is high and the

serial control interface is enabled.

3.3 Reset_DLL

This pin is normally low. If the input clock frequency is

changed abruptly, the internal timing circuits may become

unlocked. Cycle this pin high for 1 microsecond to re-lock the

DLL. The DLL will lock in several microseconds after

Reset_DLL is asserted.

3.4 DLC

This pin sets the output data configuration. With this signal at

logic-1, all data is sourced on a single lane (SD1_x) for each

channel. When this signal is at logic-0, the data is sourced on

dual lanes (SD0_x and SD1_x) for each channel. This sim-

plifies data capture at higher data rates.

Note: This signal has no effect when SPI_EN is high and the

SPI interface is enabled.

3.5 TEST

When this signal is asserted high, a fixed test pattern

(10100110001110 msb->lsb) is sourced at the data outputs.

When low, the ADC is in normal operation. The user may

specify a custom test pattern via the serial control interface.

Note: This signal has no effect when SPI_EN is high and the

SPI interface is enabled.

3.6 WAM

In dual-lane mode only, when this signal is at logic-0 the serial

data words are offset by half-word. With this signal at logic-1

the serial data words are aligned with each other. In single

lane mode this pin must be set to logic-0.

Note: This signal has no effect when SPI_EN is high and the

SPI interface is enabled.

3.7 SPI_EN

The SPI interface is enabled when this signal is asserted high.

In this case the direct control pins (OF/DCS, PD_A, PD_B,

DLC, WAM, TEST) have no effect. When this signal is de-

asserted, the SPI interface is disabled and the direct control

pins are enabled.

, V

CMO

and V

is about 150 ps/inch (60 ps/cm) on FR-4

). These capacitors loose their charge

should be the same

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ADC14DS105LFEB/NOPB National Semiconductor, ADC14DS105LFEB/NOPB Datasheet - Page 21

ADC14DS105LFEB/NOPB

Specifications of ADC14DS105LFEB/NOPB

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