ADC1610S105HN/C1:5 Datasheet ADC1610S105HN/C1:5, ADC1610S125HN/C1;5 | P22-P24

Product data sheet Rev. 04 — 2 July 2012 22 of 38

Integrated Device Technology

ADC1610S series

Single 16-bit ADC; CMOS or LVDS DDR digital output

11.3.3 Common-mode output voltage (V

O(cm)

)

A 0.1 F filter capacitor should be connected between pin VCM and ground to ensure a

low-noise common-mode output voltage. When AC-coupled, pin VCM can be used to set

the common-mode reference for the analog inputs, for instance via a transformer middle

point.

11.3.4 Biasing

The common-mode input voltage (V

I(cm)

) on pins INP and INM should be set externally to

0.5V

DDA

for optimal performance and should always be between 0.9 V and 2 V.

11.4 Clock input

11.4.1 Drive modes

The ADC1610S can be driven differentially (LVPECL). It can also be driven by a

single-ended Low Voltage Complementary Metal Oxide Semiconductor (LVCMOS) signal

connected to pin CLKP (pin CLKM should be connected to ground via a capacitor) or pin

CLKM (pin CLKP should be connected to ground via a capacitor).

Fig 25. Equivalent schematic of the common-mode reference circuit

1.5 V

VCM

0.1 μF

package ESD parasitics

005aaa051

COMMON-MODE

REFERENCE

ADC core

a. Rising edge LVCMOS b. Falling edge LVCMOS

Fig 26. LVCMOS single-ended clock input

LVCMOS

clock input

CLKP

CLKM

005aaa174

005aaa053

LVCMOS

clock input

CLKP

CLKM

Product data sheet Rev. 04 — 2 July 2012 23 of 38

Integrated Device Technology

ADC1610S series

Single 16-bit ADC; CMOS or LVDS DDR digital output

11.4.2 Equivalent input circuit

The equivalent circuit of the input clock buffer is shown in Figure 29. The common-mode

voltage of the differential input stage is set via internal 5 k resistors.

a. Sine clock input b. Sine clock input (with transformer)

c. LVPECL clock input

Fig 27. Differential clock input

Sine

clock input

CLKP

CLKM

005aaa173

Sine

clock input

CLKP

CLKM

005aaa054

LVPECL

clock input

005aaa172

CLKP

CLKM

cm(clk)

= common-mode voltage of the differential input stage.

Fig 28. Equivalent input circuit

CLKP

CLKM

005aaa056

Package ESD Parasitics

5 kΩ 5 kΩ

cm(clk)

SE_SEL SE_SEL

Product data sheet Rev. 04 — 2 July 2012 24 of 38

Integrated Device Technology

ADC1610S series

Single 16-bit ADC; CMOS or LVDS DDR digital output

Single-ended or differential clock inputs can be selected via the SPI interface

(see Table 21). If single-ended is enabled, the input pin (CLKM or CLKP) is selected via

control bit SE_SEL.

If single-ended is implemented without setting bit SE_SEL to the appropriate value, the

unused pin should be connected to ground via a capacitor.

11.4.3 Duty cycle stabilizer

The duty cycle stabilizer can improve the overall performance of the ADC by

compensating the duty cycle of the input clock signal. When the duty cycle stabilizer is

active (bit DCS_EN = logic 1; see Table 21), the circuit can handle signals with duty cycles

of between 30 % and 70 % (typical). When the duty cycle stabilizer is disabled

(DCS_EN = logic 0), the input clock signal should have a duty cycle of between 45 % and

55 %.

11.4.4 Clock input divider

The ADC1610S contains an input clock divider that divides the incoming clock by a factor

of 2 (when bit CLKDIV = logic 1; see Table 21). This feature allows the user to deliver a

higher clock frequency with better jitter performance, leading to a better SNR result once

acquisition has been performed.

11.5 Digital outputs

11.5.1 Digital output buffers: CMOS mode

The digital output buffers can be configured as CMOS by setting bit LVDS_CMOS to

logic 0 (see Table 23).

Each digital output has a dedicated output buffer. The equivalent circuit of the CMOS

digital output buffer is shown in Figure 30. The buffer is powered by a separate power

supply, pins OGND and VDDO, to ensure 1.8 V to 3.3 V compatibility and is isolated from

the ADC core. Each buffer can be loaded by a maximum of 10 pF.

Fig 29. CMOS digital output buffer

VDDO

ESD PACKAGEPARASITICS

AGND

005aaa122

50 Ω

LOGIC

DRIVER

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P38

ADC1610S105HN/C1:5

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ADC1610S105HN/C1:5

ADC1610S105HN/C1:5

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