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Power Supplies

4

Power Supplies

J3 is the power-supply input connector.

Table 3

lists the configuration details for J3. Analog inputs to the

ADC can be applied directly to the device (see

Analog Input

). An additional bipolar supply is needed to

power the bipolar amplifiers. For optimum noise performance, the external supplies (+VA and

VA) should

be used.

Table 3. J3 Configuration: Power-Supply Input

Pin No.

Pin Name

Function

Required

J3.1

+VA

+10V to +15V

Yes

J3.2

VA

10V to

15V

Yes

J3.3

+5VA

+5V analog supply

No

J3.4

5VA

5V analog supply

No

J3.5

DGND

Digital ground input

Yes

J3.6

AGND

Analog ground input

Yes

J3.7

+1.8VD

1.8V digital supply

No

J3.8

VD1

Unused

No

J3.9

+3.3VD

3.3V digital supply

Yes/Optional

J3.10

+5VD

+5V

Yes/Optional

The ADS833xEVM board requires several power supplies in order to power all of the installed
components. The onboard

OPA211

drives the ADC input. In order to have the full common-mode input

range of 0V to 4.096V, the OPA211 requires

±

10V power supplies. The +10V power supply is also used to

power the

REF5040

and

TL750L05

+5V regulator. The +5V derived from the low-dropout regulator (LDO)

powers the +VA analog voltage source for the ADS833x and the OPA350, which drives the reference
input.

The benefit of using a regulator to 5V ensures that the ADC and OPA350 are powered at the
same time as the input drive circuitry. Otherwise, applying power to the OPA211 and attempting to drive
the ADC inputs before powering on the ADS833x could cause potential damage or cause the ADC to
power up in an unknown state.

The digital voltage supply for the ADS833x is controlled by jumper JP7. By default, the jumper is in the 1-2
position, set to use the +5VD to power the ADC VBD supply. The +3.3VD supply is also an option.

5

Voltage Reference

The ADS833xEVM comes with an onboard Texas Instruments' REF5040. The reference voltage signal
can either be connected directly to the ADS8331/32 or filtered through a OPA350 unity gain buffer before
connection to the ADC. Jumpers JP5 and JP12 control whether the reference voltage signal is routed
through the OPA350 buffer or connected directly to the ADC.

It is recommended that the power supply be turned off while setting the jumper settings to control whether
or not the reference buffer is enabled. Doing so will verify that the EVM is not damaged as the OPA350 is
switched in or out. If you are unable to turn off the power, care must be taken with regard to the order that
JP5 and JP12 are changed when changing from the OPA350 buffer. When bypassing the OPA350, make
sure that the JP12 jumper is removed first, before the JP5 jumper is moved to the 2-3 position. This
procedure ensures that the reference signal is not driven from two different places.

The ADS833xEVM board is designed to either use the onboard 4.096V reference from the REF5040 or an
external source that can be connected to header J1. Jumper J6 is used to select the ADC reference
source.

6

Clock Source

The clock for the ADS8331/32 can come from one of two sources: the ADC internal oscillator or externally
using the SCLK (SCLK/2). Pin J2.3 is used for the SCLK input.

5

SBAU176A

August 2010

Revised May 2011

ADS833xEVM User

'

s Guide

Submit Documentation Feedback

Copyright

©

2010

2011, Texas Instruments Incorporated

Summary of Contents for ADS833 EVM Series

Page 1: ...ADS8331 and ADS8332 Complete circuit descriptions schematic diagrams and bills of material are included in this document The following related documents are available for download through the Texas In...

Page 2: ...of Materials 8 1 EVM Overview 1 1 Features ADS833xEVM Contains all support circuitry needed for the ADS8331 or ADS8332 Voltage reference options external or onboard Master clock options Internal osci...

Page 3: ...samtec com or call 1 800 SAMTEC 9 for a variety of mating connector options The input pins on the ADS833xEVM are directly connected to the part with no filtering or protection It is important that app...

Page 4: ...PIO1 Unused J2 7 FSX CS FS In None CS FS signal see jumper JP4 J2 8 GPIO2 Unused J2 9 FSR CS FS In None CS FS signal see jumper JP4 J2 10 DGND DGND In Out None Digital ground J2 11 DX DIN In None ADS8...

Page 5: ...in an unknown state The digital voltage supply for the ADS833x is controlled by jumper JP7 By default the jumper is in the 1 2 position set to use the 5VD to power the ADC VBD supply The 3 3VD supply...

Page 6: ...l eight of the analog input channels using a single op amp In the EVM design the OPA211 is used in a unity gain configuration in combination with a 34 8 and 750pf first order RC filter This configurat...

Page 7: ...erence buffer By default JP5 is in the 1 2 position and JP12 is installed routing the reference voltage through the OPA350 and connecting it to the ADC reference If JP12 is removed and JP5 is in the 2...

Page 8: ...om Side 5 pin Dual row SM header 10 Pos Samtec SSW 105 22 F D VS K 13 5 5 JP3 JP4 JP5 Header strip 3 pin 1x3 Samtec TSW 103 07 L S JP6 JP7 14 0 0 JP8 Not installed 15 2 2 JP9 JP12 Header strip 2 pin 1...

Page 9: ...PS 8 Ch 24VQFN Texas ADS8332IBRGET Instruments 29 1 1 U4 IC EEPROM 256Kbit 400kHz 8SOIC Microchip 24AA256 I SN 30 1 1 U5 IC Precision V ref 4 096V LN 8 SOIC Texas REF5040AID Instruments 31 1 1 U7 IC O...

Page 10: ...www ti com Figure 3 ADS833xEVM Top Layer Figure 4 ADS833xEVM Bottom Layer 10 ADS833xEVM User s Guide SBAU176A August 2010 Revised May 2011 Submit Documentation Feedback Copyright 2010 2011 Texas Inst...

Page 11: ...2010 to A Revision Page Updated Table 3 5 NOTE Page numbers for previous revisions may differ from page numbers in the current version 11 SBAU176A August 2010 Revised May 2011 Revision History Submit...

Page 12: ...2 NC 1 NC 7 NC 8 U5 REF5040 VA VCC_D 5VA C16 10uF R20 4 99k R19 4 99k VCC_D JP4 C22 10uF C17 1uF VA C13 0 1uF R14 33 R13 0 5 TOUT R17 10K Ch0_FLT R2 0 C2 DNI Ch1_FLT REF RESET S1 PUSHBUTTON TP2 R4 0...

Page 13: ...roduct This notice contains important safety information about temperatures and voltages For additional information on TI s environmental and or safety programs please contact the TI application engin...

Page 14: ...orized for use in safety critical applications such as life support where a failure of the TI product would reasonably be expected to cause severe personal injury or death unless officers of the parti...

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