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

ENERCHIP EH SEH EVAL KIT

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
No
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 Bonase Electronics (HK) Co., Limited
Part Number:
CBC-EVAL-08
Manufacturer:
Cymbet
Quantity:
135
Features
CBC-EVAL-08 is a demonstration kit combining a
solar panel energy transducer with the CBC5300
EnerChip EH module having two rechargeable
50µAh EnerChip solid state energy storage devices
connected in parallel. The EnerChips provide
storage and starting power for the energy harvesting
module. The purpose of this demonstration platform
is to enable designers to quickly develop Energy
Harvesting applications. A block diagram of CBC-
EVAL-08 is shown in Figure 1.
System Description
Photovoltaic cells on CBC-EVAL-08 convert ambient
light energy into electrical energy. Because the
output voltage of the photovoltaic cells is too low
to charge the EnerChips and power the rest of the
system directly, a boost converter is used to raise
the photovoltaic cell voltage to the voltage needed to
charge the EnerChips.
The charge control block continuously monitors
the output of the boost converter. If the output of
the boost converter falls below the voltage needed
to charge the EnerChips, the charge controller will
disconnect the boost converter from the EnerChips.
This prevents the EnerChips from back-powering the
boost converter in low ambient light conditions.
The power management block is used to protect
DS-72-08 Rev18
with the Functional Elements of the CBC5300 EnerChip EH
Figure 1: EnerChip CBC-EVAL-08 Demo Kit Block Diagram,
Photovoltaic
Converter
Control
Charge
Boost
Cell
Module Shown in the Shaded Region
EnerChip™ EH Solar Energy Harvester Evaluation Kit
©2009 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com
Control
Management
2 - EnerChip
Lines
Connector
CBC050
Power
V
OUT
the EnerChips from discharging too deeply in low
ambient light conditions or abnormally high current
load conditions. The power management block
also ensures that the load is powered up with a
smooth power-on transition. The power management
block has a control line (CHARGE) for indication to
the system controller that the energy harvester is
charging the EnerChips. A control line input (BATOFF)
is available for the controller to disconnect itself
from the EnerChips when it is necessary to extend
run time in prolonged low ambient light conditions.
CBC-EVAL-08 is shown in Figure 2 with the CBC5300
EnerChip EH module mounted on the solar board.
There are two connectors on CBC-EVAL-08 for
connection to target devices to be powered. Either
connector can be used for low power microcontroller-
based systems. In the case of a low power wireless
end device, the CBC-EVAL-08 has storage energy for
up to 1000 transmissions - depending on protocol
used - in no/low ambient light conditions.
Microcontroller-based systems that are powered by
the CBC-EVAL-08 should contain firmware that is
“Energy Harvesting Aware” and take advantage of
the power management status and control signals
available on CBC-EVAL-08.
Figure 2: CBC-EVAL-08 Demo Kit - 3.55 x 2 (inches)
CBC-EVAL-08
Page 1 of 11

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CBC-EVAL-08 Summary of contents

Page 1

... The power management block is used to protect ©2009 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-08 Rev18 Figure 2: CBC-EVAL-08 Demo Kit - 3. (inches) V OUT the EnerChips from discharging too deeply in low ambient light conditions or abnormally high current load conditions ...

Page 2

... This trace cut if an alternate solar panel connected to J8. J8 Jumper and Shunt - This connector ships with the shunt installed to protect the EH module. The shunt is removed before CBC-EVAL-08 is charged for the first time. This connector can also be used to connect an alternate solar panel to CBC-EVAL-08. PT1 Connector - An alternate piezoelectric (or other AC) energy harvesting transducer can be connected ...

Page 3

... BATOFF is low the EnerChips will always be charging when sufficient input power is available. • CHARGE is an output signal from the CBC-EVAL-08 that will be forced low under one of two conditions: » When transducer output power is very low, a low level on CHARGE indicates that the EnerChips have been charged. » ...

Page 4

... Recharge Time (to 80% of rated capacity) From 50% state-of-charge Capacity (1) Fluorescent (FL) Light Conditions Specifications subject to change without notice EVAL-08 Circuit Schematic Figure 4: EnerChip EVAL-08 Circuit Schematics ©2009 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-08 Rev18 EnerChip Solar Energy Harvesting Demo Kit Condition Min Minimum operating Lux ...

Page 5

... Vmax = final voltage to which the capacitor must be charged prior to delivering the next current pulse Vmin = initial voltage on the capacitor when charging begins Vchg = applied charging voltage on the capacitor ©2009 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-08 Rev18 EnerChip Solar Energy Harvesting Demo Kit ...

Page 6

... That amount of charge is transferred from the EnerChips into the output capacitor, which then delivers the charge to the load at the rate demanded by the radio. On the CBC-EVAL-08, there is a series diode between the output capacitor and the output pin (V In that scenario, 50% of the 100µ ...

Page 7

... If more than three pulses are in the waveform then the value of C1 should be reduced to obtain the nominal waveform. When using a power transducer other than the solar cell supplied with the CBC-EVAL-08 recommended that the solar cell be isolated from the input stage prior to connecting the other transducer. This is easily done by cutting trace connector J7 ...

Page 8

... The same algorithm used for internal pull-up/down resistors can then be used to save power. The CHARGE line on the CBC5300 has a 10MΩ pull-up resistor with a very slow rise time. Use an internal microcontroller pull-down resistor to force the CHARGE line low all of the time and then disable the pull-down resistor to check the state of the line ...

Page 9

... 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 ...

Page 10

... This depends on many factors, including power consumption, EnerChip state-of-charge, operating temperature, etc. The on-board EnerChips provide 100µAh of discharge capacity when fully charged. Q: How long will the CBC5300 module last if I use it every day and the light most of the time? A: The CBC5300 module should last at least 10 years. ...

Page 11

... Q: What happens if the CBC-EVAL-08 is exposed to light indefinitely? A: This is not harmful to it. Q: Can I use the CBC-EVAL-08 or CBC5300 module as a permanent, stand-alone power supply? A: Yes; take the output from VBAT or VOUT2 and ground see no voltage on VBAT or VOUT2. A: Make sure the jumper is not across J7, as this shorts out the solar panel. Place the unit in a well lit area, wait for about 30 minutes, and try again ...

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