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3.4

CW Outputs

THS4021

+2.5V

Not

Installed

0

W

100

W

6.3k

W

220

m

H

0.1

m

F

0.01

m

F

50

W

VCA85XX CW Output

+2.5V

I in

Not

Installed

0.1

m

F

4

Microcontroller

5

Modes of Operation

5.1

Default-Power-Up Mode

Microcontroller

Figure 1

shows the CW output circuit. This circuit is duplicated for each CW output.

Figure 1. CW Output Circuit

The CW outputs are current outputs and require a current-to-voltage conversion in order to view the
outputs with an oscilloscope or spectrum analyzer. The THS4021 operational amplifier is used as the
current-to-voltage converter.

When using the VCA8500, the CW outputs need a compliance voltage of +2.5 V. The circuit in

Figure 1

shows how the compliance voltage is applied to the VCA8500 device through a 220-

µ

H inductor. The CW

output circuit allows the noise of the CW path to be measured. This configuration is the reason for the
large feedback resistor in the output amplifier circuit. Before summing more than two CW channels,
ensure that the output amplifier does not exceed its maximum output capability. To increase the output
capability of the THS4021 ensure that W2 and W3 are open and supply

±

15 V to P3.

The VCA8500BOARD contains a microcontroller to access internal functions. The microcontroller provides
the evaluation module the ability to be controlled by software running on a PC. The microcontroller is run
from its own internal oscillator set to 12 MHz. The only external clock signals are those used to
communicate to the VCA8500 via the serial data clock line, and the embedded clock signal in the RS-232
communications circuit. The RS-232 clock operates only when data is being sent from the personal
computer (PC) to the microcontroller. The serial communication from the PC to the microcontroller is set to
19200 kbps. This baud rate is set internally on the microcontroller and is configured automatically in the
PC software.

The three modes of operation for the VCA8500BOARD are Default Power Up, PC Control, and
Direct-Control.

If no external source or PC control is available, the VCA8500 powers up in a default mode, which sets the
VCA8500 to TGC mode with these settings, PGA Gain 20 dB, Clamp Level Disabled, and Filter Bandwidth
15 MHz.

SLOU216 – January 2008

VCA8500BOARD

3

Submit Documentation Feedback

Содержание VCA8500BOARD

Страница 1: ...ration 3 5 1 Default Power Up Mode 3 5 2 PC Control Mode 4 5 3 Direct Control Mode 4 6 VCA8500BOARD Full Access Software 4 6 1 Loading the Software 4 6 2 Initial Start up Screen 4 6 3 Other Program Fu...

Страница 2: ...W and VCA circuits P2 3 3 V Positive VCA Supply This positive 3 3 V supplies the LNA Digital circuit and VCA Outputs Ensure that all three pads of W1 solder jumper are shorted P2 5 V 5 V Supplies for...

Страница 3: ...ut capability To increase the output capability of the THS4021 ensure that W2 and W3 are open and supply 15 V to P3 The VCA8500BOARD contains a microcontroller to access internal functions The microco...

Страница 4: ...he entire device functionality is available for testing The software provides the ability to select any of the clamp ranges and PGA gains settings direct an input to any CW output or power down the co...

Страница 5: ...t program settings In order to activate these settings click Download When Reset is selected all options are set to these same default settings The Chip Power option only affects the VCA8500 and no ot...

Страница 6: ...channel Figure 4 shows this process Figure 4 CW Options Selection Once all the selections have been made click Download to send the data to the VCA8500 It is possible because of the flexible nature of...

Страница 7: ...xas Instruments Web site ti com by looking in the VCA8500 product folder in the Tools and Software section Selecting the Exit command button exits the program The Help pull down menu contains informat...

Страница 8: ...www ti com Printed Circuit Board Layout Bill of Materials and Schematic Figure 6 Ground Figure 7 Power Plane 1 8 VCA8500BOARD SLOU216 January 2008 Submit Documentation Feedback...

Страница 9: ...www ti com Printed Circuit Board Layout Bill of Materials and Schematic Figure 8 Power Plane 2 SLOU216 January 2008 VCA8500BOARD 9 Submit Documentation Feedback...

Страница 10: ...www ti com Printed Circuit Board Layout Bill of Materials and Schematic Figure 9 Ground 10 VCA8500BOARD SLOU216 January 2008 Submit Documentation Feedback...

Страница 11: ...22 C24 Capacitor SMT 0402 Capacitor SMT 0402 CER 0 1 F C27 C34 C39 C42 10V 10 X5R C45 C48 C51 C52 C55 C56 C59 C62 C65 C68 C73 C76 C79 C82 C87 C89 C94 C95 C99 C101 C108 C110 C112 C117 C120 C124 C128 C1...

Страница 12: ...4 DUT SMT QFN RGC 64 0 5mm LS 9x9x1mm THRM PAD 15 4 Samtex TSW 106 05 G S P2 P4 P6 Header THU 6P Header 1X6 1CTR 16 1 Maxim MAX3221CAE U21 IC SMT 16P RS 232 Transceivers 17 10 TI THS4021CD U1 U10 IC S...

Страница 13: ...1k 1 1 16W R145 R149 R156 R158 R163 R165 R171 R183 R192 R197 R204 R206 32 9 Panasonic ERJ 2RKF4020X R173 R181 RES SMT 0402 RES SMT 0402 402 1 1 16W 33 10 Panasonic ERJ 2RKF6341X R1 R2 R11 R12 R37 R38...

Страница 14: ......

Страница 15: ......

Страница 16: ...oduct 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 engine...

Страница 17: ...siness practice TI is not responsible or liable for any such statements TI products are not authorized for use in safety critical applications such as life support where a failure of the TI product wo...

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