CBC-EVAL-08 Cymbet Corporation, CBC-EVAL-08 Datasheet - Page 9

CBC-EVAL-08

Manufacturer Part Number

CBC-EVAL-08

Description

ENERCHIP EH SEH EVAL KIT

Manufacturer

Cymbet Corporation

Series

EnerChip™ EHr

Type

Energy Harvestingr

Datasheets

1.CBC-EVAL-08.pdf (11 pages)

2.CBC-EVAL-08.pdf (2 pages)

Specifications of CBC-EVAL-08

Main Purpose

Power Management, Renewable Energy

Embedded

Utilized Ic / Part

CBC5300

Primary Attributes

Thin Film Rechargeable Solid State Battery

Secondary Attributes

Solar Energy Harvester

Input Voltage

4.06 V

Output Voltage

3.55 V

Board Size

90.2 mm x 50.8 mm

Maximum Operating Temperature

+70 C

Minimum Operating Temperature

0 C

Product

Power Management Modules

Dimensions

90.2 mm x 50.8 mm

Lead Free Status / RoHS Status

Request inventory verification / Request inventory verification

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Request inventory verification / Request inventory verification

Other names

859-1002

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CBC-EVAL-08

Manufacturer:

Cymbet

Quantity:

135

Current page: 9 of 11
Download datasheet (633Kb)

Troubleshooting Test Procedure

DS-72-08 Rev18

1) Using a voltmeter, put the ground lead on J5 pin 4 and probe J7 (left pin). Voltage should be 1.0V. This test

verifies operation of the photovoltaic cell.

2) Probe right side of the tantalum capacitor (brown bar side) on the CBC5300 module. Voltage should be

between 4.5V and 9V depending on ambient light and EnerChip device state-of-charge. This test verifies

operation of the boost converter.

3) Probe the positive (bottom side) terminal of capacitor C2 on the CBC-EVAL-08. Voltage should be 4.06V,

or steadily increasing if there is no output voltage. When the capacitor voltage reaches 3.8V, the output

will turn on from zero volts to the voltage across capacitor C2. Note C2 will not be charging if the EnerChips

are depleted. When the CBC-EVAL-08 is first powered up, the CBC5300 will first charge the EnerChips, then

charge the output capacitor C2, then switch on the output when C2 is charged.

4) Probe J5 Pin 3 (VBAT). This pin should be at 4.06V.

5) Probe J5 Pin 5 (VOUT). This pin should be at 3.5V.

6) Probe J5 Pin 1 (CHARGE/). This pin should be at zero volts if the EnerChips are charged and enough

ambient energy is available to operate the CBC5300 module. Depending on the input impedance of the

voltmeter, a high level on this pin would read between 1.0V and 3.5V.

If none of the above works, check pin 1 on one of the EnerChips on the CBC5300 module (with it plugged

into the solar board), as indicated in the figure below. It should read approximately 3.9V. If the voltage is less

than 3.0V, the EnerChips have been damaged.

In applications where a radio is being used - as in wireless sensor networks - there can sometimes be

external electrical interference with the radio signal that causes the radio receiver to stay on longer than

normal. If this happens, the CBC-EVAL-08 output capacitor C2 will become discharged and the low voltage

cutoff circuit will engage, isolating the EnerChips from the load. If this happens it can take from several

minutes to an hour or more for the EnerChips and output capacitor to be recharged.

EnerChip Solar Energy Harvesting Demo Kit

EnerChip Pin 1

Page 9 of 11

CBC-EVAL-08 Cymbet Corporation, CBC-EVAL-08 Datasheet - Page 9

CBC-EVAL-08

Specifications of CBC-EVAL-08

Available stocks

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