ANALOG DEVICES ADATE302-02 Service Manual

500 MHz Dual Integrated DCL with Differential

www.BDTIC.com/ADI

Drive/Receive, Level Setting DACs, and Per Pin PMU

FEATURES

Driver

3-level driver with high-Z mode and built-in clamps
Precision trimmed output resistance
Low leakage mode (typically <10 nA)
Voltage range: −2.0 V to +6.0 V

1.0 ns minimum pulse width, 1 V terminated

Comparator

Window and differential comparator
>1 GHz input equivalent bandwidth

Load

±12 mA maximum current capability

Per pin PMU

Force voltage range: −2.0 V to +6.0 V
5 current ranges: 25 mA, 2 mA, 200 μA, 20 μA, and 2 μA

Levels

14-bit DAC for DCL levels
Typically <±5 mV INL (calibrated)
16-bit DAC for PMU levels
Typically <±1.5 mV INL (calibrated) linearity in FV mode

HVOUT output buffer

0 V to 13.5 V output range

84-ball, 9 mm × 9 mm, flip-chip BGA package

1.7 W per channel with no load

APPLICATIONS

Automatic test equipment
Semiconductor test systems
Board test systems
Instrumentation and characterization equipment

ADATE302-02

GENERAL DESCRIPTION

The ADATE302-02 is a complete, single-chip solution that
performs the pin electronic functions of the driver, the compa­rator, and the active load (DCL), per pin PMU, and dc levels for
ATE applications. The device also contains an HVOUT driver
with a VHH buffer capable of generating up to 13.5 V.

The driver features three active states: data high mode, data low
mode, and term mode, as well as an inhibit state. The inhibit
state, in conjunction with the integrated dynamic clamp, facilitates
the implementation of a high speed active termination. The output
voltage range is −2.0 V to +6.0 V to accommodate a wide
variety of test devices.

The ADATE302-02 can be used as either a dual single-ended
drive/receive channel or a single differential drive/receive
channel. Each channel of the ADATE302-02 features a high
speed window comparator per pin for functional testing as well
as a per pin PMU with FV or FI and MV or MI functions. All
necessary dc levels for DCL functions are generated by on-chip
14-bit DACs. The per pin PMU features an on-chip 16-bit DAC
for high accuracy and contains integrated range resistors to
minimize external component counts.

The ADATE302-02 uses a serial bus to program all functional
blocks and has an on-board temperature sensor for monitoring
the device temperature.

Rev. 0

Information furnished by Analog Devices is believed to be accurate and reliable. However, no
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
rights of third parties that may result from its use. Specifications subject to change without notice. No
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Trademarks and registered trademarks are the property of their respective owners.

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700 www.analog.com
Fax: 781.461.3113 ©2008 Analog Devices, Inc. All rights reserved.

ADATE302-02

www.BDTIC.com/ADI

TABLE OF CONTENTS

Features .............................................................................................. 1

Applications ....................................................................................... 1

General Description ......................................................................... 1

Revision History ............................................................................... 2

Functional Block Diagram .............................................................. 3

Specifications ..................................................................................... 4

Total Function ............................................................................... 4

Driver ............................................................................................. 5

Reflection Clamp .......................................................................... 6

Normal Window Comparator .................................................... 7

Differential Comparator .............................................................. 8

Active Load .................................................................................. 10

PMU ............................................................................................. 11

External Sense (PMUS_CHx) ................................................... 15

DUTGND Input ......................................................................... 16

Serial Peripheral Interface ......................................................... 16

HVOUT Driver ........................................................................... 16

Overvoltage Detector (OVD) ................................................... 17

16-Bit DAC Monitor Mux ......................................................... 17

Absolute Maximum Ratings ......................................................... 18

Thermal Resistance .................................................................... 18

Explanation of Test Levels ......................................................... 18

ESD Caution................................................................................ 18

Pin Configuration and Function Descriptions ........................... 19

Typical Performance Characteristics ........................................... 22

Serial Peripheral Interface Details ................................................ 34

Definition of SPI Word .............................................................. 35

Write Operation.......................................................................... 36

Read Operation........................................................................... 37

Reset Operation .......................................................................... 38

Register Map ................................................................................... 39

Details of Registers ......................................................................... 40

User Information ............................................................................ 42

Details of DACs vs. Levels ......................................................... 43

Recommended PMU Mode Switching Sequences ................. 45

Block Diagrams ............................................................................... 48

Outline Dimensions ....................................................................... 52

Ordering Guide .......................................................................... 52

REVISION HISTORY

6/08—Revision 0: Initial Version

Rev. 0 | Page 2 of 52

ADATE302-02

www.BDTIC.com/ADI

FUNCTIONAL BLOCK DIAGRAM

DAC16_MON

MEASOUT01

PMUS_CH0

DATA0P

DATA0N

RCV0P

RCV0N

COMP_VTT0

COMP_Q H0P

COMP_QH0N

COMP_QL0P

COMP_QL0N

MUX

*

CH1

100

100

16-BIT DAC

MUX

50

PMU_FLAG

PMU

*

CH1

VCH

VCL

VH

VT
VL

DRV

MUX

VCH VCL

R

(TRIMMED)

OUT

SENSE

OVD

FORCE

OVD_CH0

DUT0

*

WINDOW

DIFF.

*

VHH

*

G

C

C

C

VOH

VOL

OTHER CHANNEL
DUT1

HVOUT

SDIN

RST

SCLK

CS

SDOUT

*

SPI

*

ONE PER DEVICE.

IOL

VCOM

14-BIT DAC

IOH

Figure 1. Functional Block Diagram with One of Two Channels Shown

ADATE302-02

TEMPERATURE

SENSOR

*

TEMPSENSE

07278-001

Rev. 0 | Page 3 of 52

ADATE302-02

www.BDTIC.com/ADI

SPECIFICATIONS

VDD = 10.0 V, VCC = 3.3 V, VSS = −5.75 V, V
defined in Ta b le 3 7. All specified values are at T
Temperature coefficients are measured at T
analyses, and/or limited bench evaluations. Typical values are not tested or guaranteed. Test levels are specified in the Explanation of Test
Levels section.

TOTAL FUNCTION

Table 1.

Parameter Min Typ Max Unit

TOTAL FUNCTION

Output Leakage Current

PE Disable, Range E −20.0 +6.0 +20.0 nA P −2.0 V < V

PE Disable, Range A, B, C, D 7.5 nA CT −2.0 V < V

High-Z Mode −400 +15 +400 nA P −2.0 V < V

Output Capacitance 4 pF S VTERM mode operation
DUT Pin Range −2.0 +6.0 V D

POWER SUPPLIES

Total Supply Range, V
VPLUS Supply, V
Positive Supply, VDD 9.5 10.0 10.5 V D Defines PSRR conditions
Negative Supply, VSS −6.0 −5.75 −5.5 V D Defines PSRR conditions
Logic Supply, VCC 3.1 3.3 3.5 V D Defines PSRR conditions
Comparator Termination, V
V

Supply Current, I

PLUS

V

Supply Current, I

PLUS

Logic Supply Current, ICC 1.0 2.7 10.0 mA P Quiescent (SPI is static)
Comparator Termination Current,

I

COMP_VTTx

Positive Supply Current, IDD 140.0 190 256.0 mA P Load power down (IOH = IOL = 0 mA)

170.0 231 311.0 mA P Load active off (IOH = IOL = 12 mA)
Negative Supply Current, ISS 200.0 272 406.0 mA P Load power down (IOH = IOL = 0 mA)

230.0 311 461.0 mA P Load active off (IOH = IOL = 12 mA)
Total Power Dissipation 2.5 3.55 4.0 W P Load power down (IOH = IOL = 0 mA)

3.0 4.2 5.5 W P Load active off (IOH = IOL = 12 mA)

TEMPERATURE MONITORS

Temperature Sensor Gain 10 mV/K CT
Temperature Sensor Accuracy Without

Calibration over 25°C to 100°C

VREF INPUT

Reference Input Voltage Range for

DACs (VREF Pin)

Input Bias Current 0.08 100 A P Tested with 5 V applied

to VSS 22.5 23.25 V D Defines PSRR conditions

PLUS

16.25 16.75 17.25 V D Defines PSRR conditions

PLUS

1 1.5 3.3 V D

COMP_VTTx

−1.0 +1.3 +4.0 mA P HVOUT disabled

PLUS

4.0 12.7 17.0 mA P HVOUT enabled, RCVx pins active, no load, VHH = 12 V

PLUS

= 16.75 V, V

PLUS

= 80°C, where TJ corresponds to the internal temperature sensor, unless otherwise noted.

J

= 80°C ± 20°C, unless otherwise noted. Typical values are based on design, simulation

J

COMP_VTTx

= 1.5 V, V

= 5.0 V, V

REF

= 0.0 V. All default test conditions are as

REF_GND

Test
Level Conditions/Comments

< +6.0 V; PMU and PE disabled via SPI;

DUTx

VCH = 7.0 V, VCL = −2.5 V

< +6.0 V; PMU and PE disabled via SPI;

DUTx

VCH = 7.0 V, VCL = −2.5 V

< +6.0 V; PMU disabled and PE enabled via

DUTx

SPI; RCVx pins active, VCH = 7.0 V, VCL = −2.5V

40.0 46 70.0 mA P

6 °C CT Temperature voltage available on Pin A1 at all times and

on Pin K1 when selected (see Table 24 and Table 36)

4.95 5 5.05 V D Referenced to V

; not referenced to V

REF_GND

DUTGND

Rev. 0 | Page 4 of 52

ADATE302-02

www.BDTIC.com/ADI

DRIVER

VH − VL ≥ 200 mV (to meet dc/ac specifications).

Table 2.

Parameter Min Typ Max Unit

DC SPECIFICATIONS

High-Speed Differential Logic Input

Characteristics (DATAx, RCVx)
Input Termination Resistance 92 100 108 Ω P Push 6 mA into xP pins, force 1.3 V on xN pins; measure

Input Voltage Differential 0.2 1.0 V PF
Common-Mode Voltage 0.85 2.35 V PF
Input Bias Current −20.0 +4.0 +20.0 A P Each pin tested at 2.85 V and 0.35 V, while other high speed

Pin Output Characteristics

Output High Range, VH −1.9 +6.0 V D
Output Low Range, VL −2.0 +5.9 V D
Output Term Range, VT −2.0 +6.0 V D
Functional Amplitude (VH − VL) 0.0 8.0 V D Amplitude can be programmed to VH = VL, accuracy

DC Output Current Limit Source 75 100 120 mA P Driver high, VH = 6.0 V, short DUTx pin to −2.0 V, measure

DC Output Current Limit Sink −120 −100 −75 mA P Driver low, VL = −2.0 V, short DUTx pin to 6.0 V, measure current
Output Resistance, ±50 mA 45.0 48.5 51.0 Ω P Source: driver high, VH = 3.0 V, I

ABSOLUTE ACCURACY VH tests done with VL = −2.5 V and VT = −2.5 V;

VH, VL, VT Uncalibrated Accuracy −300 ±75 +300 mV P Error measured at calibration points of 0 V and 5 V
VH, VL, VT Offset Tempco ±450 V/°C CT Measured at calibration points
VH, VL, VT DNL ±1 mV CT After two-point gain/offset calibration
VH, VL, VT INL −10 ±2.5 +10 mV P After two-point gain/offset calibration; measured over driver

VH, VL, VT Resolution 0.6 1 mV PF After two-point gain/offset calibration; range/number of DAC

DUTGND Voltage Accuracy −7 ±1.3 +7 mV P Over ±0.1 V range; measured at end points of VH, VL, and VT

VH, VL, VT Crosstalk ±2 mV CT

Overall Voltage Accuracy ±10 mV CT Sum of INL, crosstalk, DUTGND, and tempco over ±5°C,

VH, VL, VT DC PSRR ±15 mV/V CT Measured at calibration points

AC SPECIFICATIONS

Rise/Fall Times Toggle DATAx pins

0.2 V Programmed Swing 683 ps CB VH = 0.2 V, VL = 0.0 V, terminated; 20% to 80%

1.0 V Programmed Swing 521 ps CB VH = 1.0 V, VL = 0.0 V, terminated; 20% to 80%

1.8 V Programmed Swing 430 524 630 ps P/CB VH = 1.8 V, VL = 0.0 V, terminated; 20% to 80%

2.0 V Programmed Swing 531 ps CB VH = 2.0 V, VL = 0.0 V, terminated; 20% to 80%

3.0 V Programmed Swing 589 ps CB VH = 3.0 V, VL = 0.0 V, terminated; 20% to 80%

3.0 V Programmed Swing 811 ps CB VH = 3.0 V, VL = 0.0 V, unterminated; 10% to 90%

5.0 V Programmed Swing 1105 ps CB VH = 5.0 V, VL = 0.0 V, unterminated; 10% to 90%
Rise to Fall Matching 6 ps CB VH = 1.0 V, VL = 0.0 V, terminated; rise to fall within one channel

Test
Level

Conditions/Comments

voltage from xP to xN, calculate resistance (V/I)

pin left open

specifications apply when VH − VL ≥ 200 mV

current

= 1 mA and 50 mA;

DUTx

sink: driver low, VL = 0.0 V, I

VL tests done with VH = 7.5 V and VT = 7.5 V;
VT tests done with VL = −2.5 V and VH = 7.5 V;
unless otherwise specified

output ranges

bits as measured at calibration points of 0 V and 5 V

functional range
VL = −2.0 V: VH = −1.9 V → 6.0 V, VT = −2.0 V → 6.0 V;

VH = 6.0 V: VL = −2.0 V → 5.9 V, VT = −2.0 V → 6.0 V;
VT = 1.5 V: VL = −2.0 V → 5.9 V, VH = −1.9 V → 6.0 V;
dc crosstalk on VL, VH, VT output level when other driver
DACs are varied

after gain/offset calibration

= −1 mA and −50 mA; ∆V

DUTx

DUTx

/∆I

DUTx

Rev. 0 | Page 5 of 52

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

Minimum Pulse Width Toggle DATAx pins

2.0 V Programmed Swing 1.2 ns CB VH = 2.0 V, VL = 0.0 V, terminated; timing error ±27 ps

1.2 ns CB VH = 2.0 V, VL = 0.0 V, terminated; less than 10% amplitude

1.0 ns CB VH = 2.0 V, VL = 0.0 V, terminated; less than 20% amplitude

Maximum Toggle Rate 500 MHz CB VH = 2.0 V, VH = 0.0 V, terminated, 18% amplitude degradation

Dynamic Performance, Drive

(VH to VL and VL to VH)
Propagation Delay Time 2.1 ns CB VH = 2.0 V, VL = 0.0 V, terminated
Propagation Delay Tempco 4.5 ps/°C CT VH = 2.0 V, VL = 0.0 V, terminated
Delay Matching VH = 2.0 V, VL = 0.0 V, terminated

Edge to Edge 41 ps CB Rising vs. falling

Channel to Channel ±15 ps CB Rising vs. rising, falling vs. falling
Delay Change vs. Duty Cycle ±30 ps CB VH = 3.0 V, VL = 0.0 V, terminated; 5% to 95% duty cycle; 1 MHz
Overshoot and Undershoot 48 mV CB VH = 3.0 V, VL = 0.0 V, terminated
Settling Time (VH to VL) Toggle DATAx pins

To Within 3% of Final Value 1.2 ns CB VH = 3.0 V, VL = 0.0 V, terminated

To Within 1% of Final Value 14 ns CB VH = 3.0 V, VL = 0.0 V, terminated

Dynamic Performance, VTERM

(VH or VL to VT and VT to
VH or VL)

Propagation Delay Time 2.7 ns CB VH = 3.0 V, VT = 1.5 V, VL = 0.0 V, terminated
Delay Matching, Edge to Edge 59 ps CB VH = 3.0 V, VT = 1.5 V, VL = 0.0 V, terminated; rising vs. falling
Propagation Delay Tempco 5.5 ps/°C CT VH = 3.0 V, VT = 1.5 V, VL = 0.0 V, terminated
Transition Time, Active to VT,

VT to Active

Dynamic Performance,

Inhibit (VH or VL to/from Inhibit)
Propagation Delay Time VH = +1.0 V, VL = −1.0 V, terminated

Active to Inhibit 2.7 ns CB

Inhibit to Active 3.7 ns CB
Transition Time VH = +1.0 V, VL = −1.0 V, terminated; 20% to 80%

Active to Inhibit 1.3 ns CB

Inhibit to Active 0.4 ns CB
I/O Spike 157 mV CB VH = 0.0 V, VL = 0.0 V, terminated

Toggle DATAx pins

Toggle RCVx pins

0.614 ns CB VH = 3.0 V, VT = 1.5 V, VL = 0.0 V, terminated; 20% to 80%

Toggle RCVx pins

Test
Level Conditions/Comments

degradation

degradation

REFLECTION CLAMP

Clamp accuracy specifications apply when VCH > VCL.

Table 3.

Parameter Min Typ Max Unit

VCH

Range −1.0 +6.0 V D
Uncalibrated Accuracy −200 ±45 +200 mV P Driver high-Z, sinking 1 mA; VCH error measured at

Resolution 0.6 0.75 mV PF Driver high-Z, sinking 1 mA; after two-point gain/offset

DNL ±1 mV CT Driver high-Z, sinking 1 mA; after two-point gain/offset

INL −40 ±2 +40 mV P Driver high-Z, sinking 1 mA; after two-point gain/offset

Tempco −0.5 mV/°C CT Measured at calibration points

Rev. 0 | Page 6 of 52

Test
Level

Conditions/Comments

calibration points of 0 V and 5 V

calibration; range/number of DAC bits as measured at
calibration points of 0 V and 5 V

calibration

calibration; measured over VCH range of −1 V to +6 V

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

VCL

Range −2 +5.0 V D

Uncalibrated Accuracy −200 ±70 +200 mV P Driver high-Z, sourcing 1 mA; VCL error measured at

Resolution 0.6 0.75 mV PF Driver high-Z, sourcing 1 mA; after two-point gain/offset

DNL ±1 mV CT Driver high-Z, sourcing 1 mA; after two-point gain/offset

INL −40 ±2 +40 mV P Driver high-Z, sourcing 1 mA; after two-point gain/offset

Tempco 0.6 mV/°C CT Measured at calibration points

DC CLAMP CURRENT LIMIT

VCH −120 −83 −60 mA P Driver high-Z, VCH = 0 V, VCL = −2.0 V, V

VCL 60 86 120 mA P Driver high-Z, VCH = 6.0 V, VCL = 5.0 V, V

DUTGND VOLTAGE ACCURACY −7 ±1 +7 mV P Over ±0.1 V range; measured at the end points of VCH

NORMAL WINDOW COMPARATOR

VOH tests done with VOL = −2.0 V, VOL tests done with VOH = 6.0 V, unless other wise specified.

Test
Level Conditions/Comments

calibration points of 0 V and 5 V

calibration; range/number of DAC bits as measured at
calibration points of 0 V and 5 V

calibration

calibration; measured over VCL range of −2 V to +5 V

and VCL functional range

DUTx

DUTx

= 5 V

= 0.0 V

Table 4.

Parameter Min Typ Max Unit

DC SPECIFICATIONS

Input Voltage Range −2.0 +6.0 V D

Differential Voltage Range ±0.1 ±8.0 V D

Comparator Input Offset Voltage

Accuracy, Uncalibrated

Comparator Threshold Resolution 0.61 1 mV PF After two-point gain/offset calibration; range/

Comparator Threshold DNL ±1 mV CT After two-point gain/offset calibration

Comparator Threshold INL −7 ±1.2 +7 mV P After two-point gain/offset calibration; measured

Comparator Input Offset Voltage

Tempco

DUTGND Voltage Accuracy −7 ±0.5 +7 mV P Over ±0.1 V range; measured at end points of VOH

Comparator Uncertainty Range 5.3 mV CB V

DC Hysteresis 0.5 mV CB V

DC PSRR ±5 mV/V CT Measured at calibration points

Digital Output Characteristics

Internal Pull-Up Resistance to

Comparator, COMP_VTTx Pin

V
Common-Mode Voltage V

V

Differential Voltage 250 mV CT Measured with 100 Ω differential termination
450 500 550 mV P Measured with no external termination
Rise/Fall Time, 20% to 80% 222 ps CB Measured with each comparator leg terminated

Range 1 1.5 3.3 V D

COMP_VTTx

−150 ±30 +150 mV P Offset measured at calibration points of 0 V and 5 V

±200 µV/°C CT Measured at calibration points

46 50 54 Ω P Pull 1 mA and 10 mA from Logic 1 leg and measure

V CT Measured with 100 Ω differential termination

V P Measured with no external termination

COMP_VTTx

COMP_VTTx

− 0.5

COMP_VTTx

− 0.3
V

Test
Level

Conditions/Comments

number of DAC bits as measured at calibration
points of 0 V and 5 V

over VOH, VOL range of −2.0 V to +6.0 V

and VOL functional range

= 0 V, sweep comparator threshold to

DUTx

determine uncertainty region

= 0 V

DUTx

∆V to calculate resistance; measured ∆V/9 mA; done
for both comparator logic states

50 Ω to GND

Rev. 0 | Page 7 of 52

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

AC SPECIFICATIONS Input transition time = 600 ps, 10% to 90%;

Propagation Delay, Input to Output 1.4 ns CB V

Propagation Delay Tempco 4 ps/°C CT V

Propagation Delay Matching V

High Transition to Low Transition 39 ps CB
High to Low Comparator ±30 ps CB

Propagation Delay Change with

Respect to
Slew Rate, 600 ps and 1 ns

(10% to 90%)

Overdrive, 250 mV and 1.0 V 65 ps CB For 250 mV: V

Pulse Width, 1 ns, 5 ns, 10 ns, and

15 ns

Duty Cycle, 5% to 95% 11.8 ps CB V

Minimum Pulse Width 1 ns CB V

Input Equivalent Bandwidth,

Terminated

ERT High-Z Mode, 3 V, 20% to 80% 0.9 ns CB V

19 ps CB V

27 ps CB V

1000 MHz CB V

Test
Level Conditions/Comments

measured with each comparator leg terminated
50 Ω to GND; unless otherwise specified

= 0 V to 1.0 V swing, driver VTERM mode,

DUTx

VT = 0.0 V; high-side measurement: VOH = 0.5 V,
VOL = −2.0 V; low-side measurement: VOH = 6.0 V,
VOL = 0.5 V

= 0 V to 1.0 V swing, driver VTERM mode,

DUTx

VT = 0.0 V; high-side measurement: VOH = 0.5 V,
VOL = −2.0 V; low-side measurement: VOH = 6.0 V,
VOL = 0.5 V

= 0 V to 1.0 V swing, driver VTERM mode,

DUTx

VT = 0.0 V; high-side measurement: VOH = 0.5 V,
VOL = −2.0 V; low-side measurement: VOH = 6.0 V,
VOL = 0.5 V

= 0 V to 0.5 V swing, driver VTERM mode,

DUTx

VT = 0.0 V; high-side measurement: VOH = 0.25 V,
VOL = −2.0 V; low-side measurement: VOH = 6.0 V,
VOL = 0.25 V

= 0 V to 0.5 V swing; for 1.0 V: V
0 V to 1.25 V swing; driver VTERM mode, VT = 0.0 V;
high-side measurement: VOH = 0.25 V, VOL = −2.0 V;
low-side measurement: VOH = 6.0 V, VOL = 0.25 V;
input transition time = 400 ps (10%/90%)

= 0 V to 1.0 V swing @ 32.0 MHz, driver VTERM

DUTx

mode, VT = 0.0 V; high-side measurement: VOH = 0.5 V,
VOL = −2.0 V; low-side measurement: VOH = 6.0 V,
VOL = 0.5 V; input transition time = 400 ps (10%/90%)

= 0 V to 1.0 V swing @ 1.0 MHz, driver VTERM

DUTx

mode, VT = 0.0 V; high-side measurement: VOH = 0.5 V,
VOL = −2.0 V; low-side measurement: VOH = 6.0 V,
VOL = 0.5 V; input transition time = 400 ps (10%/90%)

= 0 V to 1.0 V swing, driver VTERM mode,

DUTx

VT = 0.0 V; less than 10% amplitude degradation
measured by shmoo; input transition time = 400 ps
(10%/90%)

= 0 V to 1.0 V swing, driver VTERM mode,

DUTx

VT = 0.0 V; as measured by shmoo; input transition
time = 400 ps (10%/90%)

= 0 V to 3.0 V swing, driver high-Z; as measured

DUTx

by shmoo

DUTx

DUTx

=

DIFFERENTIAL COMPARATOR

VOH tests done with VOL = −1.1 V, VOL tests done with VOH = 1.1 V, unless other wise specified.

Table 5.

Parameter Min Typ Max Unit

DC SPECIFICATIONS

Input Voltage Range −1.5 +4.5 V D
Operational Differential Voltage

Range
Maximum Differential Voltage Range ±8 V D
Comparator Input Offset Voltage

Accuracy, Uncalibrated

±0.05 ±1.1 V D

−150 ±25 +150 mV P Offset measured at differential calibration points of

Rev. 0 | Page 8 of 52

Test
Level

Conditions/Comments

+1 V and −1 V, with common mode = 0 V

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

VOH, VOL Resolution 0.61 1 mV PF After two-point gain/offset calibration; range/number of

VOH, VOL DNL ±1 mV CT After two-point gain/offset calibration; common mode =

VOH, VOL INL −7 ±1.0 +7 mV P After two-point gain/offset calibration; measured over

VOH, VOL Offset Voltage Tempco ±200 µV/°C CT Measured at calibration points
Comparator Uncertainty Range 18 mV CB V

DC Hysteresis 0.5 mV CB V
CMRR 1 mV/V P Offset measured at common-mode voltage points of

DC PSRR ±15 mV/V CT Measured at calibration points

AC SPECIFICATIONS Input transition time = 600 ps, 10% to 90%, measured

Propagation Delay, Input to Output 1.4 ns CB V

Propagation Delay Tempco 4 ps/°C CT V

Propagation Delay Matching V

High Transition to Low Transition 27 ps CB
High to Low Comparator ±32 ps CB

Propagation Delay Change with

V

Respect to

Slew Rate, 400 ps and 1 ns

25 ps CB V

(10% to 90%)

Overdrive, 250 mV and 750 mV 79 ps CB V

Pulse Width, 1 ns, 5 ns, 10 ns, and

56 ps CB V

15 ns

Duty Cycle, 5% to 95% 16 ps CB V

Minimum Pulse Width 1 ns CB V

Input Equivalent Bandwidth,

500 MHz CB V

Terminated

Test
Level Conditions/Comments

DAC bits as measured at differential calibration points of
+1 V and −1 V, with common mode = 0 V

0 V

VOH, VOL range of −1.1 V to +1.1 V, common mode = 0 V

= 0 V, sweep comparator threshold to determine

DUTx

uncertainty region

= 0 V

DUTx

−1.5 V and +4.5 V, with differential voltage = 0 V

with each comparator leg terminated 50 Ω to GND

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing, driver VTERM

DUT1

mode, VT = 0.0 V; high-side measurement: VOH = 0.0 V,
VOL = −1.1 V; low-side measurement: VOH = 1.1 V,
VOL = 0.0 V; repeat for other DUT channel

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing, driver VTERM

DUT1

mode, VT = 0.0 V; high-side measurement: VOH = 0.0 V,
VOL = −1.1 V; low-side measurement: VOH = 1.1 V,
VOL = 0.0 V; repeat for other DUT channel

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing, driver VTERM

DUT1

mode, VT = 0.0 V; high-side measurement: VOH = 0.0 V,
VOL = −1.1 V; low-side measurement: VOH = 1.1 V,
VOL = 0.0 V; repeat for other DUT channel

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing, driver VTERM

DUT1

mode, VT = 0.0 V; high-side measurement: VOH = 0.0 V,
VOL = −1.1 V; low-side measurement: VOH = 1.1 V,
VOL = 0.0 V; repeat for other DUT channel

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing, driver VTERM

DUT1

mode, VT = 0.0 V; high-side measurement: VOH = 0.0 V,
VOL = −1.1 V; low-side measurement: VOH = 1.1 V,
VOL = 0.0 V; repeat for other DUT channel

= 0 V, for 250 mV: V

DUT0

for 750 mV: V

= 0 V to 1.0 V swing, driver VTERM mode,

DUT1

DUT1

VT = 0.0 V; VOH = −0.25 V; repeat for other DUT channel
with comparator threshold = 0.25 V

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing @ 32 MHz,

DUT1

driver VTERM mode, VT = 0.0 V; high-side measurement:
VOH = 0.0 V, VOL = −1.1 V; low-side measurement:
VOH = 1.1 V, VOL = 0.0 V; repeat for other DUT channel

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing @ 32 MHz, driver

DUT1

VTERM mode, VT = 0.0 V; high-side measurement:
VOH = 0.0 V, VOL = −1.1 V; low-side measurement:
VOH = 1.1 V, VOL = 0.0 V; repeat for other DUT channel

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing, driver VTERM

DUT1

mode, VT = 0.0 V; high-side measurement: VOH = 0.0 V,
VOL = −1.1 V; low-side measurement: VOH = 1.1 V,
VOL = 0.0 V; less than 10% amplitude degradation
measured by shmoo; repeat for other DUT channel

DUT0

= 0 V, V

= −0.5 V to +0.5 V swing, driver VTERM

DUT1

mode, VT = 0.0 V; high-side measurement: VOH = 0.0 V,
VOL = −1.1 V; low-side measurement: VOH = 1.1 V,
VOL = 0.0 V; less than 22% amplitude degradation
measured by shmoo; repeat for other DUT channel

= 0 V to 0.5 V swing;

Rev. 0 | Page 9 of 52

ADATE302-02

www.BDTIC.com/ADI

ACTIVE LOAD

See Tab le 2 9 for load control information.

Table 6.

Parameter Min Typ Max Unit

DC SPECIFICATIONS Load active on, RCVx pins active, unless otherwise noted

Input Characteristics

VCOM Voltage Range −1.75 +5.75 V D

V

Range −2.0 +6.0 V D

DUTx

VCOM Accuracy, Uncalibrated −200 ±25 +200 mV P IOH = IOL = 6 mA, VCOM error measured at calibration

VCOM Resolution 0.61 1 mV PF IOH = IOL = 6 mA, after two-point gain/offset

VCOM DNL ±1 mV CT IOH = IOL = 6 mA, after two-point gain/offset calibration

VCOM INL −7 ±2 +7 mV P IOH = IOL = 6 mA, after two-point gain/offset

DUTGND Voltage Accuracy −7 ±1 +7 mV P Over ±0.1 V range; measured at end points of VCOM

Output Characteristics

IOL

Maximum Source Current 12 mA D
Uncalibrated Offset −600.0 ±100 +600.0 µA P IOH = 0 mA, VCOM = 1.5 V, V

Uncalibrated Gain −12 ±1 +12 % P IOH = 0 mA, VCOM = 1.5 V, V

Resolution 1.5 2 µA PF IOH = 0 mA, VCOM = 1.5 V, V

DNL ±3.0 µA CT IOH = 0 mA, VCOM = 1.5 V, V

INL −70 ±20 +70 µA P IOH = 0 mA, VCOM = 1.5 V, V

90% Commutation Voltage 0.25 V P IOH = IOL = 12 mA, VCOM = 2.0 V, measure IOL

IOH

Maximum Sink Current 12 mA D
Uncalibrated Offset −600.0 ±100 +600.0 µA P IOL = 0 mA, VCOM = 1.5 V, V

Uncalibrated Gain −12 ±1 +12 % P IOL = 0 mA, VCOM = 1.5 V, V

Resolution 1.5 2 µA PF IOL = 0 mA, VCOM = 1.5 V, V

DNL ±3.0 µA CT IOL = 0 mA, VCOM = 1.5V, V

INL −70 ±20 +70 µA P IOL = 0 mA, VCOM = 1.5V, V

90% Commutation Voltage 0.25 V P IOH = IOL = 12 mA, VCOM = 2.0 V, measure IOH

Output Current Tempco ±1.5 µA/°C CT Measured at calibration points

Test
Level

Conditions/Comments

points of 0 V and 5 V

calibration; range/number of DAC bits as measured at
calibration points of 0 V and 5 V

calibration; measured over VCOM range of −1.75 V to
+5.75 V

functional range

= 0.0 V, IOL offset

DUTx

calculated from calibration points of 1 mA and 11 mA

= 0.0 V, IOL gain

DUTx

calculated from calibration points of 1 mA and 11 mA

= 0.0 V, after two-point

DUTx

gain/offset calibration; range/number of DAC bits as
measured at calibration points of 1 mA and 11 mA

= 0.0 V, after two-

DUTx

point gain/offset calibration

= 0.0 V, after two-

DUTx

point gain/offset calibration; measured over IOL range
of 0 mA to 12 mA

reference at V

= 1.75 V, ensure >90% of reference current

V

DUTx

= −1.0 V, measure IOL current at

DUTx

= 3.0 V, IOH offset

DUTx

calculated from calibration points of 1 mA and 11 mA

= 3.0 V, IOH gain

DUTx

calculated from calibration points of 1 mA and 11 mA

= 3.0 V, after two-point

DUTx

gain/offset calibration; range/number of DAC bits as
measured at calibration points of 1 mA and 11 mA

= 3.0 V, after two-point

DUTx

gain/offset calibration

= 3.0 V, after two-point

DUTx

gain/offset calibration; measured over IOH range of
0 mA to 12 mA

reference at V

= 2.25 V, ensure >90% of reference current

V

DUTx

= 5.0 V, measure IOH current at

DUTx

Rev. 0 | Page 10 of 52

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

AC SPECIFICATIONS Load active on, unless otherwise noted

Dynamic Performance
Propagation Delay, Load Active On

to Load Active Off; 50%, 90%

Propagation Delay, Load Active Off

to Load Active On; 50%, 90%

Propagation Delay Matching 6.9 ns CB Toggle RCVx pins, DUTx terminated 50 Ω to GND,

Load Spike 156 mV CB Toggle RCVx pins, DUTx terminated 50 Ω to GND,

Settling Time to 90% 1.6 ns CB Toggle RCVx pins, DUTx terminated 50 Ω to GND,

4.1 ns CB Toggle RCVx pins, DUTx terminated 50 Ω to GND,

11 ns CB Toggle RCVx pins, DUTx terminated 50 Ω to GND,

Test
Level Conditions/Comments

IOH = IOL = 12 mA, VH = VL = 0 V, VCOM = +1.25 V for
IOL and VCOM = −1.25 V for IOH; measured from 50%
point of RCVxP − RCVxN to 90% point of final output,
repeat for drive low and high

IOH = IOL = 12 mA, VH = VL = 0 V, VCOM = +1.25 V for
IOL and VCOM = −1.25 V for IOH; measured from 50%
point of RCVxP − RCVxN to 90% point of final output,
repeat for drive low and high

IOH = IOL = 12 mA, VH = VL = 0 V, VCOM = +1.25 V for
IOL and VCOM = −1.25 V for IOH; active on vs. active
off, repeat for drive low and high

IOH = IOL = 0 mA, VH = VL = 0 V, VCOM = +1.25 V for
IOL and VCOM = −1.25 V for IOH; repeat for drive low
and high

IOH = IOL = 12 mA, VH = VL = 0 V, VCOM = +1.25 V for
IOL and VCOM= −1.25 V for IOH; measured at 90% of
final value

PMU

FV = force voltage, MV = measure voltage, FI = force current, MI = measure current, FN = force nothing.

Table 7.

Parameter Min Typ Max Unit

FORCE VOLTAGE (FV)

Current Range A ±25 mA D
Current Range B ±2 mA D
Current Range C ±200 µA D
Current Range D ±20 µA D
Current Range E ±2 µA D
Force Input Voltage Range at

Output For All Ranges

Force Voltage Uncalibrated

Accuracy for Range C

Force Voltage Uncalibrated

Accuracy for All Ranges

Force Voltage Offset Tempco

for All Ranges

Force Voltage Gain Tempco

for All Ranges

Forced Voltage INL −7 ±2 +7 mV P PMU enabled, FV, Range C, PE disabled, after two-point gain/

Force Voltage Compliance vs.

Current Load

Range A ±4 mV CT
Range B to Range E ±1 mV CT

−2.0 +6.0 V D

−100 ±25 +100 mV P PMU enabled, FV, PE disabled, error measured at calibration

±25 mV CT PMU enabled, FV, PE disabled, error measured at calibration

±25 µV/°C CT Measured at calibration points for each PMU current range

±75 ppm/°C CT Measured at calibration points for each PMU current range

PMU enabled, FV, PE disabled, force −2.0 V, measure voltage

Test
Level

Conditions/Comments

points of 0 V and 5 V

points of 0 V and 5 V; repeat for each PMU current range

offset calibration; measured over output range of −2.0 V to
+6.0 V

while PMU sinking zero- and full-scale current; measure V;
force 6.0 V, measure voltage while PMU sourcing zero- and full­scale current; measure V; repeat for each PMU current range

Rev. 0 | Page 11 of 52

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

Current Limit, Source and Sink

Range A 108 135 180 % FS P PMU enabled, FV, PE disabled; sink: force 2.5 V, short DUTx

Range B to Range E 120 140 180 % FS P PMU enabled, FV, PE disabled; sink: force 2.5 V, short DUTx to

DUTGND Voltage Accuracy −7 ±1 +7 mV P Over ±0.1 V range; measured at end points of FV functional

MEASURE CURRENT (MI) V

Measure Current, Pin DUTx

−2.0 +6.0 V D

Voltage Range for All Ranges
Measure Current Uncalibrated

Accuracy

Range A ±650 µA CT PMU enabled, FIMI, PE disabled, error at calibration points of

Range B −400 ±20 +400 µA P PMU enabled, FIMI, PE disabled, error at calibration points of

Range C ± 2.00 µA CT PMU enabled, FIMI, PE disabled, error at calibration points of

Range D ±0.20 µA CT PMU enabled, FIMI, PE disabled, error at calibration points of

Range E ±0.02 µA CT PMU enabled, FIMI, PE disabled, error at calibration points of

Measure Current Offset Tempco

Range A ±2.5 µA/°C CT Measured at calibration points

Range B ±125 nA/°C CT Measured at calibration points

Range C ±20 nA/°C CT Measured at calibration points

Range D and Range E ±4 nA/°C CT Measured at calibration points
Measure Current Gain Error,

Nominal Gain = 1

Range A −3.5 % CT PMU enabled, FIMI, PE disabled, gain error from calibration

Range B −20 ±2 +20 % P PMU enabled, FIMI, PE disabled, gain error from calibration

Range C to Range E ±2 % CT PMU enabled, FIMI, PE disabled, gain error from calibration

Measure Current Gain Tempco Measured at calibration points

Range A ±300 ppm/°C CT

Range B to Range E ±50 ppm/°C CT
Measure Current INL

Range A ±0.05 % FSR CT PMU enabled, FIMI, PE disabled, after two-point gain/offset

Range B −0.02 ±0.005 0.02 % FSR P PMU enabled, FIMI, PE disabled, after two-point gain/

Range B to Range E ±0.005 % FSR CT PMU enabled, FIMI, PE disabled, after two-point gain/offset

FVMI DUT Pin Voltage Rejection −0.01 0.01 % FSR/V P PMU enabled, FVMI, PE disabled, force −1 V and +5 V into load

DUTGND Voltage Accuracy ±2.5 mV CT Over ±0.1 V range; measured at end points of MI functional

Test
Level Conditions/Comments

to 6.0 V; source: force 2.5 V, short DUTx to −1.0 V;
Range A FS = 25 mA, 108% FS = 27 mA, 180% FS = 45 mA

6.0 V; source: force 2.5 V, short DUTx to −1.0 V; repeat for each
PMU current range; example: Range B FS = 2 mA,
120% FS = 2.4 mA, 180% FS = 3.6 mA

range

externally forced to 0.0 V, unless otherwise specified;

DUTx

ideal MEASOUT transfer functions:
V

MEASOUT01

I(V

MEASOUT01

[V] = (I

) [A] = (V

× 5/FSR) + 2.5 + V

MEASOUT01

MEASOUT01

−20 mA and 20 mA, error = (I(V

−1.6 mA and 1.6 mA, error = (I(V

±80% FS, error = (I(V

±80% FS, error = (I(V

±80% FS, error = (I(V

MEASOUT01

MEASOUT01

MEASOUT01

points of ±80% FS

points of ±1.6 mA

points of ±80% FS

calibration, measured over FSR output of −25 mA to +25 mA

offset calibration measured over FSR output of −2 mA to +2 mA

calibration; measured over FSR output

of 1 mA; measure I reported at MEASOUT01

range

− V

DUTGND

) − I

) − I

) − I

MEASOUT01

MEASOUT01

DUTx

DUTx

DUTx

DUTGND

− 2.5) × FSR/5

) − I

)

DUTx

) − I

)

DUTx

)

)

)

Rev. 0 | Page 12 of 52

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

FORCE CURRENT (FI) V

Force Current, DUTx Pin Voltage

Range for All Ranges

Force Current Uncalibrated

Accuracy
Range A −5.0 ±0.5 +5.0 mA P PMU enabled, FIMI, PE disabled, error at calibration points of

Range B −400 ±40 +400 µA P PMU enabled, FIMI, PE disabled, error at calibration points of

Range C −40 ±4 +40 µA P PMU enabled, FIMI, PE disabled, error at calibration points of

Range D −4 ±0.4 +4 µA P PMU enabled, FIMI, PE disabled, error at calibration points of

Range E −400 ±75 +400 nA P PMU enabled, FIMI, PE disabled, error at calibration points of

Force Current Offset Tempco

Range A ±1 µA/°C CT Measured at calibration points
Range B ±80 nA/°C CT Measured at calibration points
Range C to Range E ±4 nA/°C CT Measured at calibration points

Forced Current Gain Error,

Nominal Gain = 1

Forced Current Gain Tempco Measured at calibration points

Range A −500 ppm/°C CT
Range B to Range E ±75 ppm/°C CT

Force Current INL

Range A −0.3 ±0.05 +0.3 % FSR P PMU enabled, FIMI, PE disabled, after two-point gain/offset

Range B to Range E -0.2 ±0.015 0.2 % FSR P PMU enabled, FIMI, PE disabled, after two-point gain/offset

Force Current Compliance vs.

Voltage Load

Range A to Range D −0.6 ±0.06 +0.6 % FSR P
Range E −1.0 +±0.1 +1.0 % FSR P

MEASURE VOLTAGE

Measure Voltage Range −2.0 +6.0 V D
Measure Voltage Uncalibrated

Accuracy
Measure Voltage Offset Tempco ±10 µV/°C CT Measured at calibration points
Measure Voltage Gain Error −2 ±0.01 +2 % P PMU enabled, FVMV, Range B, PE disabled, gain error from

Measure Voltage Gain Tempco 25 ppm/°C CT Measured at calibration points
Measure Voltage INL −7 ±1 +7 mV P PMU enabled, FVMV, Range B, PE disabled, after two-point

Rejection of Measure V vs. I

−2.0 +6.0 V D

−20 ±4 +20 % P PMU enabled, FIMI, PE disabled, gain error from calibration

PMU enabled, FIMV, PE disabled; force positive full-scale

−25 ±2.0 +25 mV P PMU enabled, FVMV, Range B, PE disabled, error at calibration

−1.5 ±0.1 +1.5 mV P PMU enabled, FVMV, Range D, PE disabled, force 0 V into load

DUTx

Test
Level Conditions/Comments

externally forced to 0.0 V, unless otherwise specified

DUTx

Ideal force current transfer function:
I

= (PMUDAC − 2.5) × (FSR/5)

FORCE

−20 mA and +20 mA

−1.6 mA and +1.6 mA

±80% FS

±80% FS

±80% FS

points of ±80% FS

calibration; measured over FSR output of

−25 mA to +25 mA

calibration; measured over FSR output

current driving −2.0 V and +6.0 V, measure I @ DUTx pin;
force negative full-scale current driving −2.0 V and +6.0 V,
measure I @ DUTx pin

points of 0 V and 5 V, error = (V

calibration points of 0 V and 5 V

gain/offset calibration; measured over output range of −2.0 V
to +6.0 V

of −10 µA and +10 µA; measure V reported at MEASOUT01

MEASOUT01

− V

DUTx

)

Rev. 0 | Page 13 of 52

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

MEASOUT01 DC CHARACTERISTICS

MEASOUT01 Voltage Range −2.0 +6.0 V D
DC Output Current 4 mA D
MEASOUT01 Pin Output

Impedance

Output Leakage Current When

Tristated

Output Short-Circuit Current −25 +25 mA P PMU enabled, FVMV, PE disabled; source: PMU force 6.0 V,

VOLTAGE CLAMPS

Low Clamp Range (VCL) −2.0 +4.0 V D
High Clamp Range (VCH) 0.0 6.0 V D
Positive Clamp Voltage Droop −300 +50 +300 mV P PMU enabled, FIMI, Range A, PE disabled, PMU clamps

Negative Clamp Voltage Droop −300 −50 +300 mV P PMU enabled, FIMI, Range A, PE disabled, PMU clamps

Uncalibrated Accuracy −250 ±100 +250 mV P PMU enabled, FIMI, Range B, PE disabled, PMU damps enabled,

INL −70 ±5 +70 mV P PMU enabled, FIMI, Range B, PE disabled, PMU damps enabled,

DUTGND Voltage Accuracy ±1 mV CT Over ±0.1 V range; measured at end points of PMU clamp

SETTLING/SWITCHING TIMES SCAP = 330 pF, FFCAP = 220 pF

Voltage Force Settling Time to

0.1% of Final Value

Range A, 200 pF and

2000 pF Load

Range B, 200 pF and

2000 pF Load

Range C, 200 pF and

2000 pF Load

Range D, 200 pF and

2000 pF Load

Range E, 200 pF and

2000 pF Load

Voltage Force Settling Time to

1.0% of Final Value
Range A, 200 pF and

2000 pF Load

Range B, 200 pF and

2000 pF Load

Range C, 200 pF and

2000 pF Load

Range D, 200 pF Load 8.1 µs CB
Range D, 2000 pF Load 585 µs CB
Range E, 200 pF Load 8.1 µs CB
Range E, 2000 pF Load 590 µs CB

25 200 Ω P PMU enabled, FVMV, PE disabled; source resistance: PMU force

−1 +1 µA P Tested at −2.0 V and +6.0 V

PMU enabled, FV, PE disabled, program PMUDAC steps of

15 µs S

20 µs S

124 µs S

1015 µs S

3455 µs S

PMU enabled, FV, PE disabled, start with PMUDAC

8.0 µs CB

8.0 µs CB

8.0 µs CB

Test
Level Conditions/Comments

6.0 V and load with 0 mA and 4 mA; sink resistance: PMU force

−2.0 V and load with 0 mA and −4 mA; resistance = V/I at
MEASOUT01 pin

short MEASOUT01 to −2.0 V; sink: PMU force −2.0 V, short
MEASOUT01 to 6.0 V

enabled, VCH = 5 V, VCL = −1 V, PMU force 1 mA and 25 mA
into open; V seen at DUTx pin

enabled, VCH = 5 V, VCL = −1 V, PMU force −1 mA and −25 mA
into open; V seen at DUTx pin

PMU force ±1 mA into open; VCH errors at calibration points of
0 V and 5 V; VCL errors at the calibration points of 0 V and 4 V

PMU force ±1 mA into open; after two-point gain/offset
calibration; measured over PMU clamp range

functional range

500 mV and 5.0 V; simulation of worst case, 2000 pF load,
PMUDAC step of 5.0 V

programmed to 0.0 V, program PMUDAC to 500 mV

Rev. 0 | Page 14 of 52

ADATE302-02

www.BDTIC.com/ADI

Parameter Min Typ Max Unit

Voltage Force Settling Time to

1.0% of Final Value

Range A, 200 pF and

2000 pF Load
Range B, 200 pF Load 4.4 µs CB
Range B, 2000 pF Load 7.6 µs CB
Range C, 200 pF Load 6.3 µs CB
Range C, 2000 pF Load 8.1 µs CB
Range D, 200 pF Load 130 µs CB
Range D, 2000 pF Load 280 µs CB
Range E, 200 pF Load 390 µs CB
Range E, 2000 pF Load 605 µs CB

Current Force Settling Time to

0.1% of Final Value
Range A, 200 pF in Parallel

with 120 Ω
Range B, 200 pF in Parallel

with 1.5 kΩ
Range C, 200 pF in Parallel

with 15.0 kΩ
Range D, 200 pF in Parallel

with 150 kΩ
Range E, 200 pF in Parallel

with 1.5 MΩ

Current Force Settling Time to

1.0% of Final Value
Range A, 200 pF in Parallel

with 120 Ω
Range B, 200 pF in Parallel

with 1.5 kΩ
Range C, 200 pF in Parallel

with 15.0 kΩ
Range D, 200 pF in Parallel

with 150 kΩ
Range E, 200 pF in Parallel

with 1.5 MΩ

INTERACTION AND CROSSTALK

Measure Voltage Channel-to-

Channel Crosstalk

Measure Current Channel-to-

Channel Crosstalk

PMU enabled, FV, PE disabled, start with PMUDAC

4.2 µs CB

PMU enabled, FI, PE disabled, start with PMUDAC

8.2 µs S

9.4 µs S

30 µs S

281 µs S

2668 µs S

PMU enabled, FI, PE disabled, start with PMUDAC

3.3 µs CB

4.4 µs CB

8 µs CB

205 µs CB

505 µs CB

±0.125 % FSR CT PMU enabled, FIMV, PE disabled, Range B, forcing 0 mA into

±0.01 % FSR CT PMU enabled, FVMI, PE disabled, Range E, forcing 0 V into

Test
Level Conditions/Comments

programmed to 0.0 V, program PMUDAC to 5.0 V

programmed to 0 current, program PMUDAC to FS current

programmed to 0 current, program PMUDAC to FS current

0 V load; other channel: Range A, forcing a step of 0 mA to 25 mA
into 0 V load; report V of MEASOUT01 pin under test;

0.125% × 8.0 V = 10 mV

0 mA current load; other channel: Range E, forcing a step of 0 V
to 5 V into 0 mA current load; report V of MEASOUT01 pin
under test; 0.01% × 5.0 V = 0.5 mV

EXTERNAL SENSE (PMUS_CHx)

Table 8.

Parameter Min Typ Max Unit

Voltage Range −2.0 +6.0 V D
Input Leakage Current −20 +20 nA P Tested at −2.0 V and +6.0 V

Rev. 0 | Page 15 of 52

Test
Level

Conditions/Comments

ADATE302-02

www.BDTIC.com/ADI

DUTGND INPUT

Table 9.

Parameter Min Typ Max Unit

Input Voltage Range, Referenced to GND −0.1 +0.1 V D
Input Bias Current 1 100 A P Tested at −100 mV and +100 mV

SERIAL PERIPHERAL INTERFACE

Table 10.

Parameter Min Typ Max Unit

Serial Input Logic High 1.8 VCC V PF
Serial Input Logic Low 0 0.7 V PF
Input Bias Current −10 +1 +10 A P Tested at 0.0 V and 3.3 V
SCLK Clock Rate 50 MHz PF
SCLK Pulse Width 9 ns CT
SCLK Crosstalk on DUTx Pin 8 mV CB PE disabled, PMU FV enabled and forcing 0 V
Serial Output Logic High VCC − 0.4 VCC V PF Sourcing 2 mA
Serial Output Logic Low 0 0.8 V PF Sinking 2 mA
Update Time 10 s D Maximum delay time required for the part to enter

Test
Level

Test
Level

Conditions/Comments

a stable state after a serial bus command is loaded

Conditions/Comments

HVOUT DRIVER

Table 11.

Parameter Min Typ Max Unit

VHH BUFFER VHH = (VT + 1 V) × 2 + DUTGND

Voltage Range 5.9 V

Output High 13.5 V P VHH mode enabled, RCVx pins active, VHH level = full

Output Low 5.9 V P VHH mode enabled, RCVx pins active, VHH level = zero

Accuracy Uncalibrated −500 ±100 +500 mV P VHH mode enabled, RCVx pins active, V

Offset Tempco 1 mV/°C CT Measured at calibration points
Resolution 1.21 1.5 mV PF VHH mode enabled, RCVx pins active, after two-point

INL −30 ±15 +30 mV P VHH mode enabled, RCVx pins active, after two-point gain/

DUTGND Voltage Accuracy ±1 mV CT Over ±0.1 V range; measured at end points of VHH

Output Resistance 1 10 Ω P VHH mode enabled, RCVx pins active, source: VHH = 10.0 V,

DC Output Current Limit Source 60 100 mA P VHH mode enabled, RCVx pins active, VHH = 10.0 V, short

DC Output Current Limit Sink −100 −60 mA P VHH mode enabled, RCVx pins active, VHH = 6.5 V, short

Rise Time (From VL or VH to

VHH)

Fall Time (From VHH to VL or VH) 23 ns CB VHH mode enabled, toggle RCVx pins, VHH = 13.5 V, VL =

Preshoot, Overshoot, and

Undershoot

175 ns CB VHH mode enabled, toggle RCVx pins, VHH = 13.5 V, VL =

±100 mV CB VHH mode enabled, toggle RCVx pins, VHH = 13.5 V, VL =

− 3.25 V D V

PLUS

Rev. 0 | Page 16 of 52

Test
Level

Conditions/Comments

= 16.75 V nominal; in this condition,

PLUS

maximum = 13.5 V

V

HVOUT

scale, sourcing 15 mA

scale, sinking 15 mA

error

measured at calibration points of 7 V and 12 V

gain/offset calibration; range/number of DAC bits as
measured at calibration points of 7 V and 12 V

offset calibration; measured over VHH range of 5.9 V to 13.5 V

functional range

= 0 mA and 15 mA; sink: VHH = 6.5 V, I

I

HVOUT

and −15 mA; V/I

HVOUT pin to 5.9 V, measure current

HVOUT pin to 14.1 V, measure current

VH = 3.0 V; 20% to 80%, for DATAx high and DATAx low

VH = 3.0 V; 20% to 80%, for DATAx high and DATAx low

VH = 3.0 V; for DATAx high and DATAx low

HVOUT

HVOUT

= 0 mA