CBC-EVAL-10 Cymbet Corporation, CBC-EVAL-10 Datasheet - Page 8

CBC-EVAL-10

Manufacturer Part Number

CBC-EVAL-10

Description

ENERCHIP CC SEH EVAL KIT

Manufacturer

Cymbet Corporation

Series

EnerChip™ CCr

Type

Energy Harvestingr

Datasheet

1.CBC-EVAL-10.pdf (15 pages)

Specifications of CBC-EVAL-10

Main Purpose

Power Management, Renewable Energy

Embedded

Utilized Ic / Part

CBC3150, CBC51100

Primary Attributes

Thin Film Rechargeable Solid State Battery

Secondary Attributes

Solar Energy Harvester

Maximum Operating Temperature

+ 70 C

Product

Power Management Development Tools

For Use With/related Products

EnerChip CBC51100

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

859-1012

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CBC-EVAL-10

Manufacturer:

Cymbet Corporation

Quantity:

135

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Operating Characteristics

(1) See DS-72-03 EnerChip CC CBC3150 Data Sheet and DS-72-01 EnerChip CBC050 Data Sheet for complete specifica-

tions of the Cymbet components on the CBC51100 module included with CBC-EVAL-10.

(2) Fluorescent (FL) light conditions. EnerChip state-of-charge >90%.

(3) Dependent on battery state-of-charge and load conditions. State-of-charge will affect average VIN. At 0% battery state-

of-charge, 2.6V < VIN < 3.1V, depending on load. At 100% battery state-of-charge, VIN will approach 5.2V at 700Lux.

(4) Continuous current for up to 1 minute with CBC51100 EnerChip module.

(5) For guidelines on adjusting the pulse current capability, see AN-1025: Using the EnerChip in Pulse Current Applications.

Specifications subject to change without notice.

CBC-EVAL-10 Circuit Schematics

As a result of designing the CBC-EVAL-10 to be versatile and useful for designing to any number of operating

environments and system requirements, there are many circuit elements that will not be necessary for any

given CCEH implementation. The full schematic of Figure 4 depicts the CBC-EVAL-10 in its entirety. A simpler

and more often used embodiment is shown in Figure 5. In Figure 5, the provision for external batteries has

been removed, as has the circuitry required for external system control of the CBC3150 charge pump. The

schematic of Figure 5 is reduced to the essential elements necessary for implementing an energy harvesting-

based design using the CBC3150 circuitry and EnerChip batteries.

DS-72-20 Rev A

Input Luminous Intensity (using PV cells

provided with kit)

Photovoltaic Input Voltage (VIN)

External Battery Voltage

Continuous Output Power

(measured at

VOUT

EnerChip and External Rechargeable Bat-

tery Discharge Cutoff Voltage

Pulse Discharge Current

EnerChip Self-Discharge (non-recover-

able)

Operating Temperature

EnerChip Recharge

Cycles

(to 80% of rated

capacity; 4.1 V charge

voltage)

EnerChip Recharge Time (to 80% of rated

capacity)

EnerChip Storage Capacity

VOUT

Parameter

pin; 25°C)

25°C

40°C

CBC-EVAL-10 EnerChip CC EH Evaluation Kit

(1)

10% depth-of-discharge

50% depth-of discharge

10% depth-of-discharge

50% depth-of-discharge

From 50% state-of-charge

From deep discharge

200 µA discharge; 25°C

not charging; continuous

200 Lux (FL), battery not

Minimum operating Lux

No ambient light, Ener-

1000 Lux (FL); battery

25°C ; 20 msec pulse

Battery charged; 2µA

Non-rechargeable

Full charge rate

5-year average

Chips charged

Rechargeable

4.7kΩ load

Condition

charging

output

25°C

load

250

800

5000

2500

1000

2.48

Min

500

100

2.7

4.0

3.0

(2)

Typical

2000

3.2

300

3.0

4.1

2.5

3.3

2.5

(5)

(3)

(4)

Max

2.52

5.5

3.6

4.2

3.6

Page 8 of 15

% per year

Volts DC

minutes

Units

µAh

Lux

°C

µA

CBC-EVAL-10 Cymbet Corporation, CBC-EVAL-10 Datasheet - Page 8

CBC-EVAL-10

Specifications of CBC-EVAL-10

Available stocks

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