EVAL-AD7951CBZ Analog Devices Inc, EVAL-AD7951CBZ Datasheet

EVAL-AD7951CBZ

Manufacturer Part Number

EVAL-AD7951CBZ

Description

BOARD EVALUATION FOR AD7951

Manufacturer

Analog Devices Inc

Series

PulSAR®r

Datasheets

1.AD7951BSTZ.pdf (32 pages)

2.EVAL-AD7980CBZ.pdf (18 pages)

3.EVAL-AD7951CBZ.pdf (30 pages)

Specifications of EVAL-AD7951CBZ

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

Data Interface

Serial, Parallel

Inputs Per Adc

1 Differential

Input Range

±10 V

Power (typ) @ Conditions

235mW @ 1MSPS

Voltage Supply Source

Analog and Digital, Dual ±

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD7951

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 1 of 32
Download datasheet (4Mb)

FEATURES

Multiple pins/software programmable input ranges:

Pins or serial SPI® compatible input ranges/mode selection

Throughput

14-bit resolution with no missing codes

INL: ±0.3 LSB typ, ±1 LSB max (±61 ppm of FSR)

SNR: 85 dB @ 2 kHz

iCMOS® process technology

5 V internal reference: typical drift 3 ppm/°C; TEMP output

No pipeline delay (SAR architecture)

Parallel (14- or 8-bit bus) and serial 5 V/3.3 V interface

SPI-/QSPI™-/MICROWIRE™-/DSP-compatible

Power dissipation:

48-lead LQFP and LFCSP (7 mm × 7 mm) packages

APPLICATIONS

Process control

Medical instruments

High speed data acquisition

Digital signal processing

Instrumentation

Spectrum analysis

ATE

GENERAL DESCRIPTION

The AD7951 is a 14-bit, charge redistribution, successive

approximation register (SAR) architecture analog-to-digital

converter (ADC) fabricated on Analog Devices, Inc. ’ s iCMOS

high voltage process. The device is configured through hardware or

via a dedicated write only serial configuration port for input

range and operating mode. The AD7951 contains a high speed

14-bit sampling ADC, an internal conversion clock, an internal

reference (and buffer), error correction circuits, and both serial

and parallel system interface ports. A falling edge on CNVST

samples the analog input on IN+ with respect to a ground

sense, IN−. The AD7951 features four different analog input

ranges and three different sampling modes: warp mode for the

fastest throughput, normal mode for the fastest asynchronous

throughput, and impulse mode where power is scaled with

throughput. Operation is specified from −40°C to +85°C.

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.

5 V, 10 V, ±5 V, ±10 V

1 MSPS (warp mode)

800 kSPS (normal mode)

670 kSPS (impulse mode)

10 mW @ 100 kSPS

235 mW @ 1 MSPS

Programmable Input PulSAR

14-Bit, 1 MSPS, Unipolar/Bipolar

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.

Tel: 781.329.4700

Fax: 781.461.3113

PDBUF

Table 1. 48-Lead 14-/16-/18-Bit PulSAR Selection

Type

Pseudo

Differential

True Bipolar

True

Differential

18-Bit, True

Differential

Multichannel/

Simultaneous

PDREF

CNVST

RESET

AGND

AVDD

IN+

IN–

TEMP

WARP IMPULSE BIPOLAR TEN

REF

CALIBRATION CIRCUITRY

REFBUFIN

CONTROL LOGIC AND

FUNCTIONAL BLOCK DIAGRAM

100 kSPS to

250 kSPS

AD7651

AD7660

AD7661

AD7610

AD7663

AD7675

AD7678

REF

AMP

SWITCHED

CAP DAC

REF REFGND

CLOCK

Figure 1.

500 kSPS to

570 kSPS

AD7650

AD7652

AD7664

AD7666

AD7665

AD7676

AD7679

AD7654

AD7655

VCC VEE

CONFIGURATION

SERIAL DATA

INTERFACE

PARALLEL

AD7951

SERIAL

PORT

DVDD

570 kSPS to

1000 kSPS

AD7653

AD7667

AD7951

AD7612

AD7671

AD7677

AD7674

AD7951

www.analog.com

DGND

OVDD

OGND

D[13:0]

SER/PAR

BYTESWAP

OB/2C

BUSY

ADC

>1000

kSPS

AD7621

AD7622

AD7623

AD7641

AD7643

Related parts for EVAL-AD7951CBZ

EVAL-AD7951CBZ Summary of contents

Page 1

FEATURES Multiple pins/software programmable input ranges ±5 V, ±10 V Pins or serial SPI® compatible input ranges/mode selection Throughput 1 MSPS (warp mode) 800 kSPS (normal mode) 670 kSPS (impulse mode) 14-bit resolution with no missing ...

Page 2

... Driver Amplifier Choice ........................................................... 21 Voltage Reference Input/Output .............................................. 21 Power Supplies............................................................................ 22 Conversion Control ................................................................... 23 Interfaces.......................................................................................... 24 Digital Interface.......................................................................... 24 Parallel Interface......................................................................... 24 Serial Interface ............................................................................ 25 Master Serial Interface............................................................... 25 Slave Serial Interface .................................................................. 27 Hardware Configuration ........................................................... 29 Software Configuration ............................................................. 29 Microprocessor Interfacing....................................................... 30 Application Information................................................................ 31 Layout Guidelines....................................................................... 31 Evaluating Performance ............................................................ 31 Outline Dimensions ....................................................................... 32 Ordering Guide .......................................................................... 32 Rev Page ...

Page 3

SPECIFICATIONS AVDD = DVDD = 5 V; OVDD = 2 5.5 V; VCC = 15 V; VEE = − Table 2. Parameter RESOLUTION ANALOG INPUT Voltage Range Analog Input CMRR Input Current Input Impedance ...

Page 4

AD7951 Parameter REFERENCE BUFFER REFBUFIN Input Voltage Range EXTERNAL REFERENCE Voltage Range Current Drain TEMPERATURE PIN Voltage Output Temperature Sensitivity Output Resistance DIGITAL INPUTS Logic Levels DIGITAL OUTPUTS Data Format 5 Pipeline ...

Page 5

TIMING SPECIFICATIONS AVDD = DVDD = 5 V; OVDD = 2 5.5 V; VCC = 15 V; VEE = − Table 3. Parameter CONVERSION AND RESET (See Figure 33 and Figure 34) Convert Pulse Width Time ...

Page 6

AD7951 Parameter SLAVE SERIAL/SERIAL CONFIGURATION INTERFACE MODES (See Figure 42, Figure 43, and Figure 45) External SDCLK, SCCLK Setup Time External SDCLK Active Edge to SDOUT Delay SDIN/SCIN Setup Time SDIN/SCIN Hold Time External SDCLK/SCCLK Period External SDCLK/SCCLK High External ...

Page 7

ABSOLUTE MAXIMUM RATINGS Table 5. Parameter Rating Analog Inputs/Outputs 1 1 IN+ , IN− to AGND VEE − 0 VCC + 0.3 V REF, REFBUFIN, TEMP, AVDD + 0 AGND − 0.3 V REFGND to AGND ...

Page 8

AD7951 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS BYTESWAP D0/DIVSCLK[0] D1/DIVSCLK[ CONNECT Table 6. Pin Function Descriptions Pin No. Mnemonic Type 1 Description AGND P Analog Power Ground Pins. Ground reference point for all analog I/O. ...

Page 9

Pin No. Mnemonic Type Description DI/O In parallel mode, this output is used as Bit 2 of the parallel port data output bus. EXT/INT Serial Data Clock Source Select. In serial mode, this input is used ...

Page 10

AD7951 1 Pin No. Mnemonic Type Description parallel mode, this output is used as Bit 9 of the parallel port data output bus. RDERROR Serial Data Read Error. In serial slave mode (SER/PAR = high, ...

Page 11

Pin No. Mnemonic Type Description 45 TEMP AO Temperature Sensor Analog Output. Enabled when the internal reference is turned on (PDREF = PDBUF = low). See the Temperature Sensor section. 46 REFBUFIN AI Reference Buffer Input. When using an ...

Page 12

AD7951 TYPICAL PERFORMANCE CHARACTERISTICS AVDD = DVDD = 5 V; OVDD = 5 V; VCC = 15 V; VEE = − 1.0 0.5 0 –0.5 –1.0 0 4096 8192 CODE Figure 5. Integral Nonlinearity vs. Code 250 200 ...

Page 13

SNR = 85.4dB THD = –107dB SFDR = 116dB –40 SINAD = 85.4dB –60 –80 –100 –120 –140 –160 0 100 200 300 FREQUENCY (kHz) Figure 11. FFT 20 kHz ENOB 82 80 ...

Page 14

AD7951 – 10V ±5V ±10V –100 –104 –108 –112 –116 –120 –55 –35 – TEMPERATURE (°C) Figure 17. THD vs. Temperature 1.5 ZERO ERROR POSITIVE FS ERROR 1.0 NEGATIVE FS ERROR 0.5 ...

Page 15

PD = PDBUF = PDREF = HIGH VEE = –15V 600 VCC = +15V DVDD OVDD AVDD 500 400 300 200 100 0 –55 –35 – TEMPERATURE (°C) Figure 23. Power-Down Operating Currents vs. Temperature ...

Page 16

AD7951 TERMINOLOGY Least Significant Bit (LSB) The least significant bit, or LSB, is the smallest increment that can be represented by a converter. For an analog-to-digital converter with N bits of resolution, the LSB expressed in volts is V (max) ...

Page 17

THEORY OF OPERATION IN+ REF REFGND 8,192C IN– OVERVIEW The AD7951 is a very fast, low power, precise, 14-bit analog-to- digital converter (ADC) using successive approximation capacitive digital-to-analog (CDAC) converter architecture. The AD7951 can be configured at any time for ...

Page 18

AD7951 MODES OF OPERATION The AD7951 features three modes of operation: warp, normal, and impulse. Each of these modes is more suitable to specific applications. The mode is configured with the input pins, WARP and IMPULSE, or via the configuration ...

Page 19

TYPICAL CONNECTION DIAGRAM Figure 27 shows a typical connection diagram for the AD7951 using the internal reference, serial data and serial configuration interfaces. Different circuitry from that shown in Figure 27 is optional and is discussed in the following sections. ...

Page 20

AD7951 ANALOG INPUTS Input Range Selection In parallel mode and serial hardware mode, the input range is selected by using the BIPOLAR (bipolar) and TEN (10 Volt range) inputs. See Table 6 for pin details and the Hardware Configuration section ...

Page 21

DRIVER AMPLIFIER CHOICE Although the AD7951 is easy to drive, the driver amplifier must meet the following requirements: • For multichannel, multiplexed applications, the driver amplifier and the AD7951 analog input circuit must be able to settle for a full-scale ...

Page 22

AD7951 Internal Reference (REF = 5 V) (PDREF = Low, PDBUF = Low) To use the internal reference, the PDREF and PDBUF inputs must be low. This enables the on-chip band gap reference, buffer, and TEMP sensor resulting in a ...

Page 23

Power Sequencing The AD7951 is independent of power supply sequencing and is very insensitive to power supply variations on AVDD over a wide frequency range as shown in Figure 31. 80 EXT REF 75 INT REF ...

Page 24

AD7951 INTERFACES DIGITAL INTERFACE The AD7951 has a versatile digital interface that can be set up as either a serial or a parallel interface with the host system. The serial interface is multiplexed on the parallel data bus. The AD7951 ...

Page 25

Interface (Master or Slave) The BYTESWAP pin allows a glueless interface to an 8-bit bus. As shown in Figure 38, when BYTESWAP is low, the LSB byte is output on D[7:0] and the MSB is output on D[13:8]. When ...

Page 26

AD7951 CS CNVST BUSY t 29 SYNC t 14 SDCLK t 15 SDOUT t 16 CS, RD CNVST BUSY t 17 SYNC SDCLK t 18 SDOUT Figure 40. ...

Page 27

SLAVE SERIAL INTERFACE The pins multiplexed on D[19:2] used for slave serial interface are: EXT/ INT , INVSCLK, SDIN, SDOUT, SDCLK and RDERROR. External Clock (SER/ PAR = High, EXT/ INT = High) Setting the EXT/ INT = high allows ...

Page 28

AD7951 External Clock Data Read After/During Conversion It is also possible to begin to read data after conversion and continue to read the last bits after a new conversion has been initiated. This method allows the full throughput and the ...

Page 29

HARDWARE CONFIGURATION The AD7951 can be configured at any time with the dedicated hardware pins WARP, IMPULSE, BIPOLAR, TEN, OB and PD for parallel mode (SER/ PAR = low) or serial hardware mode (SER/ PAR = high, HW/ ...

Page 30

AD7951 WARP = BIP = IMPULSE = TEN = CNVST BUSY t 31 SCCS t 31 SCCLK 1 2 SCIN X BIPOLAR START MICROPROCESSOR ...

Page 31

... ADC and connect it with short, thick traces. EVALUATING PERFORMANCE A recommended layout for the AD7951 is outlined in the EVAL-AD7951CB evaluation board documentation. The evaluation board package includes a fully assembled and tested evaluation board, documentation, and software for controlling the board from a PC via the EVAL-CONTROL BRD3. Rev Page AD7951 ...

Page 32

... This board can be used as a standalone evaluation board or in conjunction with the EVAL-CONTROL BRD3 for evaluation/demonstration purposes. 3 This board allows control and communicate with all Analog Devices evaluation boards ending with the CB designators. ©2006 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners ...

Related keywords

eval-ad7799ebz
EVAL-AD7951CBZ datasheet
EVAL-AD7951CBZ data sheet
EVAL-AD7951CBZ pdf datasheet
EVAL-AD7951CBZ component
EVAL-AD7951CBZ part
EVAL-AD7951CBZ distributor
EVAL-AD7951CBZ RoHS
EVAL-AD7951CBZ datasheet download