Texas Instruments 65MEVM, ADS8364 Power Supplies, Reference Voltages, EVM Operation, JP1 Pinout

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Power Supplies

 

 

Table 3. J1 Pinout and Functions

Pin Number

Signal

Description

J1.1

NAP

Controls power-down options on the ADS8365 (only) using the NAP input pin

J1.3

ADD

Controls read options, when HI, address information can be read from the chip

J1.5

HOLD_C#

Active-low signal HOLDC used to start a conversion on ADC channel pair C

J1.7

HOLD_B#

Active-low signal HOLDB used to start a conversion on ADC channel pair B

J1.9

HOLD_A#

Active-low signal HOLDA used to start a conversion on ADC channel pair A

J1.11

RESET#

Active-low signal RESET used to place the ADS7864’s FIFO in reset state

J1.13

NA

Unused on the ADS8364/65MEVM

J1.15

NA

Unused on the ADS8364/65MEVM

J1.17

DC_TOUTa

Used with W10 to allow host processor timer control of HOLDx

J1.19

NA

Unused on the ADS8364/65MEVM

5Power Supplies

The ADS8364/65MEVM board requires +5 VDC for the both the analog and digital section of the ADC. The supply (+Va and +Vd) can range from +4.75 VDC to +5.25 VDC. . The internal buffer can be powered through the BVdd input voltage and can range from 2.7 VDC to 5.5 VDC. Because the EVM is designed to work with the 5-6K and HPA-MCU Interface Boards, JP1 provides direct connection to the common power bus described in SLAU104.

Table 4 shows the pinout of JP1:

Table 4. JP1 Pinout

Signal

Pin Number

Signal

+VA (positive input buffer supply)

1

2

-VA (negative input buffer supply)

+5VA (+Va to the ADS8364)

3

4

-5VA (Unused)

DGND

5

6

AGND

+1.8VD (Unused)

7

8

+VD1 (Unused)

+3.3VD (used with W5 for support circuitry)

9

10

+5VD (+5V to pin 22 of the ADS8364 and pin 22 of the

 

 

 

ADS8365)

Alternate power sources can be applied via various test points located on the EVM. See the schematic at the end of this document for details. Note – while filters are provided for all power supply inputs, optimal performance of the EVM requires a clean, well-regulated power source.

5.1Reference Voltages

The ADS8364/65MEVM is configured to use its internal reference through jumper W3 (see schematic for details). If an external reference is desired, the shunt jumper on W3 should be moved to cover pins 1-2; the external reference source can be applied to the test point labeled TP10 referenced to TP12. The internal +2.5-V reference is still connected to the input buffer U1 in this case to ensure proper mid-point biasing to channel A1.

6EVM Operation

The analog input swing is 5 Vpp, centered on a +2.5-V internal or external reference. The installed device accepts bipolar input ranges when a level shift circuit is used in the analog front-end circuitry. For information on various circuit configurations, see section 3.2 of this document or section 12 of Op-Amps for Everyone (SLOD006) .

Once power is applied to the EVM, the analog input source can be connected directly to J3 or J4 (top or

bottom side) or through optional amplifier and signal-conditioning modules using the 5-6K and HPA-MCU Interface Boards. The analog input level should not exceed 5 Vp-p. The analog input range is from ±Vref (typically 2.5 VDC) centered at +2.5 V.

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ADS8364/65MEVM

SLAU189 –September 2006

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Contents Features EVM OverviewIntroduction Analog InterfaceAnalog Input Channel A0 Bipolar Input to Channel A0 Typical Analog Input Buffer Circuit ValuesR28 R25 R24 R29 Analog Input Channel A1 Analog Inputs -Channels B0/B1 and C0/C1Digital Interface Parallel Data Pin Number Signal DescriptionParallel Control GPIO/Control OptionsEVM Operation Power SuppliesReference Voltages J1 Pinout and FunctionsBill of Materials Default Jumper LocationsEVM Bill of Materials, Assembly Drawing, and Schematic ADS8364/65MEVM JumpersDesignators Description Manufacturer Assembly Drawing Circuit SchematicsU1B Bgnd Related Documentation From Texas Instruments Evaluation BOARD/KIT Important Notice FCC WarningProducts Applications DSPRfid