CBC3150-D9C-TR1 Cymbet Corporation, CBC3150-D9C-TR1 Datasheet

IC BATT SOLID ST ENERCHIP 20DFN

CBC3150-D9C-TR1

Manufacturer Part Number
CBC3150-D9C-TR1
Description
IC BATT SOLID ST ENERCHIP 20DFN
Manufacturer
Cymbet Corporation
Series
EnerChip™ CCr
Datasheets

Specifications of CBC3150-D9C-TR1

Voltage - Output
3.3V
Capacity
50µAh
Operating Temperature
-20°C ~ 70°C
Package / Case
20-DFN
Battery Cell Size
9 mm x 9 mm
Output Voltage
3.3 V
Termination Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
859-1003 - INDUCTIVE CHARGING EVAL KIT859-1001 - ENERCHIP CC EVAL KIT
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
859-1008-2
CBC3150-D9C-TR1

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
CBC3150-D9C-TR1
Manufacturer:
XILINX
Quantity:
335
Overview
CBC-EVAL-11 is a demonstration kit combining an
inductive transmitter board with a receiver board
containing an EnerChip CC CBC3150 solid state
storage device with integrated power management.
The transmitter board operates at 13.56 MHz and
derives its power from a USB port. In addition to
the EnerChip CC, the receiver board has a planar
antenna for receiving power from the transmitter
board, an output capacitor for delivering pulse
current for radio transmissions, and a header
connector for mating to a target board containing,
for example, a microcontroller and/or radio board. A
block diagram of CBC-EVAL-11 is shown in Figure 1.
DS-72-14 Rev A
Figure 1: Block Diagram of CBC-EVAL-11 Evaluation Kit -
transmitter board (top) and receiver board (bottom).
EnerChip™ CC Inductive Charging Evaluation Kit
©2010 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com
Features
Applications
Inductively-Coupled Charging Circuit
Power Manager with Charge Control
Microcontroller/Radio Interface Signals
Integrated 50µAh Solid State Energy Storage
Built-in Protection of Energy Storage Device
Temperature Compensated Charge Control
Adjustable Switchover Voltage
Low Self-Discharge
SMT - Lead-Free Reflow Tolerant
Thousands of Recharge Cycles
Eco-Friendly, RoHS Compliant
Rechargeable power source
replacing conventional batteries.
Wireless sensors, data loggers, and RFID tags
and other powered, low duty cycle applications.
Contactless recharging.
Localized power source
and other devices alert in standby mode.
Medical devices
external
monitoring. No direct connection needed to/
from power supply; can be hermetically sealed.
Industrial systems
chain time and temperature monitoring.
Inductive Coupling
recharging integrated EnerChip for thousands of
uses in RFID, sensor, and wireless transmitter
applications.
Figure 2: CBC-EVAL-11 Evaluation Kit.
biological
CBC-EVAL-11
such as ‘smart’ bandages,
such as data logging in cold-
allows convenient means of
sensors,
to keep microcontrollers
eliminates cost of
and
Page 1 of 8
patient

Related parts for CBC3150-D9C-TR1

CBC3150-D9C-TR1 Summary of contents

Page 1

... EnerChip™ CC Inductive Charging Evaluation Kit Overview CBC-EVAL- demonstration kit combining an inductive transmitter board with a receiver board containing an EnerChip CC CBC3150 solid state storage device with integrated power management. The transmitter board operates at 13.56 MHz and derives its power from a USB port. In addition to ...

Page 2

... EnerChip rechargeable cell. When the CBC-EVAL-11 receiver antenna is placed near a magnetic field at a frequency of 13.56MHz, and if the voltage at the CBC3150 VDD pin is greater than 3.0V, the CBC3150 will route the harvested power directly to the energy harvesting connectors. In this mode of operation the CBC3150’ ...

Page 3

... EnerChip™ CC Inductive Charging Evaluation Kit Receiver Board Texas Intruments Radio/MCU Board (not included Figure 4: Schematic of CBC-EVAL-11 transmitter board. ©2010 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-14 Rev A Figure 3: CBC-EVAL-11 Evaluation Kit. USB Power Cable and Connector Transmitter Board Page ...

Page 4

... See the section titled Circuit Board Alterations for proper techniques to separate the planar antenna from the receiver board. Figure 6: Schematic of CBC-EVAL-11 receiver board. ©2010 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-14 Rev A Page ...

Page 5

... Recharge Time (to 80% of rated capacity) Capacity (1) First month recoverable self discharge is 5% average. (2) Storage temperature is for uncharged EnerChip CC device. Note: All specifications contained within this document are subject to change without notice Typical Discharge Capacity Characteristics ©2010 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-14 Rev A Condition Min 25°C GND - 0.3 25°C GND - 0.3 25° ...

Page 6

... Once the capacitance has been determined, the capacitor charging time can be calculated using the following formula: Charge formula (Vmax - Vchg) / (Vmin - Vchg) ] where capacitor charging time, from Vmin to Vmax R = EnerChip storage device resistance C = output capacitance, in parallel with the EnerChip storage device ©2010 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-14 Rev A Page ...

Page 7

... CBC3150 EnerChip in the surface mount DFN package. To minimize stress on the solder joints recommended that the board be cut cleanly through rather than scoring and breaking the board apart ...

Page 8

... EnerChip™ CC Inductive Charging Evaluation Kit Ordering Information EnerChip CC Part Number CBC-EVAL-11 CBC3150-D9C CBC3150-D9C-TR1 CBC3150-D9C-TR5 CBC3150-D9C-WP Disclaimer of Warranties The information provided in this data sheet is provided “As Is” and Cymbet Corporation disclaims all representations or warranties of any kind, express or implied, relating to this data sheet and the Cymbet product described herein, including without limitation, the implied warranties of merchantability, fitness for a particular purpose, non-infringement, title, or any warranties arising out of course of dealing, course of performance, or usage of trade ...

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