CDB8130 Datasheet, PDF(3/10 Page) Cirrus Logic

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CDB8130 Datasheet, PDF (3/10 Pages) Cirrus Logic – Evaluation Board

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CDB8130

1 CS8130 INFRARED TRANSCEIVER

The CDB8130 provides an example application of

the CS8130 infrared transceiver. This application

is similar to an IR pod system that is designed to

plug into any standard RS-232 port, like the COM

port on the back of an IBMÂ®-compatible PC, to

provide an easy-to-use infrared interface.

Additionally, the board allows for easy interfacing

directly to the CS8130 through stake header J11 al-

lowing other applications to be easily realized.

Figure 1 shows the CS8130 and RS-232 level

translator connections.

A description of the CS8130 including register def-

initions, control pin assignments, and other useful

information can be found in the CS8130 data sheet.

1.1 Power Supply Circuitry and

Grounding

Figure 2 shows the power supply configuration of

the evaluation board. Power is supplied to the

board by two terminal blocks and a DC power jack,

J21, J22, and J23 (DCPWR). To operate the board

from a single power supply, stake jumper J20 must

be installed. In this configuration, power should be

supplied to the board through the VD+/DGND ter-

minal block (J21) or the DCPWR jack (J23).

A 3.3V regulator, U5, is supplied on the board. To

use this regulator, stake jumper J2 (USE REG)

should be installed. To bypass the regulator, J1

(NO REG) should be installed.

To isolate the power supply driving the CS8130

from the supply powering the rest of the circuitry,

remove J20, and feed the CS8130âs power supply

into the VA+/AGND terminal block (J22). The rest

of the circuit should be powered through either the

VD+/DGND terminal block (J21) or the DCPWR

jack (J23).

Using the on-board voltage regulator, the evalua-

tion board may be powered from any DC voltage

between +4V and +6.5V. If the voltage regulator is

bypassed, the acceptable operating voltage is be-

tween +2.7V and +5.5V (defined by the power sup-

ply requirements of the CS8130.)

The evaluation board is split into two ground

planes, an analog plane and a digital plane. The

CS8130 and IR components reside on the analog

plane, and the RS-232 level translator, reset circuit,

and status indicator circuitry lie over the digital

ground plane. The ground planes are connected in

exactly one place at jumper J31, located near the

power supply connections.

1.2 Reset Circuit

Figure 3 shows the power-up and user-activated re-

set circuit. As shipped from the factory, this circuit

is not used. The RESET signal is instead supplied

by the RS-232 interface signal RTS. This configu-

ration allows the CS8130 to be reset under software

control.

To derive the reset function from the power-

up/manual reset circuit instead, remove stake

jumper J9 (RTS) and install stake jumper J12 (RE-

SETSW). These jumpers are shown in Figure 1.

1.3 Optical Interface

The CDB8130 is shipped with TemicÂ® and

Hewlett-PackardÂ® IR components installed. The

receiver PIN diode is Temic model BPV 22 NF.

Transmit LED D5 is a Hewlett-Packard HSDL-

4220, and D6 is a Temic TSHA5502.

These components are not soldered in place. In-

stead, they are held by gold-plated pins. These pins

allow for any insertion and removal of other IR

components for performance and compatibility

evaluation.

The default configuration for the transmitter circuit

has one LED per output driver. One or both LEDs

can be active at the same time by programming the

appropriate register in the CS8130, allowing soft-

ware to control the transmitter output power.

Additionally, the transmit drivers on the CS8130

can be connected in parallel to share current. This

DS170DB5

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