CYMBET AN-1046

Preliminary
AN-1046
Application Note
EnerChip™ CC as Backup Power for a Microchip MCP79410 RTC
Introduction
Cymbet EnerChips are solid state rechargeable batteries having distinguishing characteristics compared to
conventional rechargeable batteries. EnerChips have a high charge/discharge cycle life; low self-discharge;
simple voltage controlled charging; flat discharge voltage profile; have no flammable solvents to leak or catch
fire; are solder reflow tolerant; and are offered in low profile surface mount packages.
The EnerChip CC is a surface mount package containing a rechargeable solid state battery - the EnerChip with integrated battery management that includes charge control, discharge cutoff circuitry, and a battery
switchover (i.e., supply supervisory) function. EnerChip storage (discharge) capacity varies by product.
EnerChips are used in applications requiring backup, bridging, or transition power to maintain real-time clock
(RTC) operation or SRAM data retention in the event of main power interruption; wireless sensing as the main
power source when energy can be harvested from the ambient power and used to constantly trickle charge the
EnerChip; and as a power source to perform housekeeping for microcontrollers (MCUs) and peripherals when
main power is interrupted, to ensure an orderly shutdown or transition to low power modes.
Many applications demand ultra low power consumption from the various system components, particularly
when system power is derived from primary or rechargeable batteries. In systems utilizing RTCs, it is essential
that the standby power of the RTC be very low in order to achieve maximum run time from the backup power
source when main power is interrupted. A full-featured RTC now available from Microchip is the MCP79410. The
device has a VBAT auxiliary power pin to which a backup power source can be connected. This Application Note
describes use of the surface mount EnerChip CC as the backup power source for the MCP79410 RTC.
A typical application circuit is shown in Figure 1. Main power is fed to both the CBC3150 and MCP79410. When
the supply voltage drops below a specific threshold as detected by the CBC3150 and MCP79410, the EnerChip
solid state battery embedded in the EnerChip CC delivers power to the RTC through the CBC3150 VOUT pin.
Figure 1. Typical Application Circuit Using the EnerChip CC and MCP79410 Real-Time Clock.
©2011 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com
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AN-1046: EnerChip™ CC as Backup Power for an MCP79410 RTC
Circuit Description and Operation
Under normal operation, the RTC derives its power from the main system supply, which might be a large coin
cell, prismatic cell, cylindrical batteries, or indirectly from wall power through a voltage regulator. Because the
EnerChip has very low self-discharge, it needs to be charged only after it has been used in the performance
of its duty as a backup power source or on a very infrequent basis to keep it fully charged when not being
used. To maintain a charge of 90% or greater on the EnerChip when it has not been used as a backup power
source for prolonged periods, the EnerChip needs no more than one hour of charging time per month. Such
a low charging duty cycle would present a negligible parasitic load to the main power source, as the EnerChip
charges quickly and its charging current decays to a small fraction of a microampere when fully charged. The
EnerChip CC controls the EnerChip charging function internally.
When main power is interrupted - as during line power outages or when the main battery is removed for
recharging or replacement, the backup power source provides enough energy to maintain operation of the realtime clock.
The EnerChip CC is a surface mount device that contains a rechargeable battery with integrated battery
management that performs the charge control, discharge control, threshold voltage detection, and supply
supervisory functions all in one low profile package. It operates over the range of 2.5V to 5.5V and the
switchover threshold voltage is adjustable. A block diagram of the EnerChip CC is shown in Figure 2.
Figure 2. Block Diagram of the EnerChip CC Thin Film Battery with Integrated Battery Management.
EnerChip CC includes the following functional elements:
•
•
•
•
•
Internal charge control circuit that converts a wide range of input voltages to a tightly regulated battery charging voltage;
Battery cutoff circuit that disconnects the load from the embedded EnerChip when the discharge voltage reaches a preset limit;
Output pin (RESET/) that can be used to drive an interrupt line on an MCU to indicate that the system is operating in battery-backed mode;
A voltage detection circuit allowing a user-selectable threshold trip voltage;
A control line (ENABLE) that enables and disables the internal charge pump. ENABLE can be tied directly to VCC or controlled by the system MCU to reduce power consumption when the internal EnerChip does not need to be charged.
©2011 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com
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AN-1046: EnerChip™ CC as Backup Power for an MCP79410 RTC
All of these features have been combined to create a backup power solution that eliminates the need for a
dedicated supply supervisory circuit, battery holder or socket, separate battery management circuitry, and a
conventional power source such as a coin cell or supercapacitor. The result is a compact, single-chip solution to
backup and bridging power. The power source - the EnerChip - is a component class, rechargeable solid state
battery that has no organic solvents or harmful chemicals that accompany coin cells and supercapacitors.
Given the low operating current of many RTCs, the EnerChip CC can provide several hours to several days of
backup time. Backup time is calculated based on the typical RTC current and the EnerChip CC battery cutoff
circuit current of 30nA (typical). The following table illustrates the amount of backup time afforded by the
EnerChip CBC31xx devices when connected to the MCP79410 RTC.
EnerChip CC
CBC3105
CBC3112
CBC3150
DFN/QFN Package Size (mm)
5 x 5 x 0.9
7 x 7 x 0.9
9 x 9 x 0.9
Backup Run Time (hours)
6
15
62
Given that the vast majority power interruptions - whether due to grid power outages in wall-powered systems
or in mobile devices during main battery recharging and replacement - are less than one day, either EnerChip
CC device can be used in most applications. Once the minimum backup run time specification is defined,
device selection can be made accordingly and in conjunction with other considerations such as package
footprint. The EnerChip CC is also configured to allow additional surface mount EnerChips to be connected to
increase backup run time.
In cases where an MCU must also be maintained in a low power state (as opposed to being completely
disconnected from the circuit) during battery-backed operation, the MCU sleep current must be factored
into the backup run time equation. To maintain favorable backup run time, the designer can choose from a
variety of MCUs, some having sleep currents as low as 20nA. When using MCUs with such exceptionally low
sleep currents, the RTC backup run time is not reduced significantly. During operation, the MCU can also be
programmed to drive the EnerChip CC ENABLE line low when EnerChip battery charging is not required. Doing
so will reduce the overhead current associated with operating the charge pump internal to the EnerChip CC.
Conclusion
Many systems utilizing RTCs require backup power supply backup in the event of main power interruption.
Conventional backup power sources are primary coin cells, rechargeable coin cells, and supercapacitors.
Traditional backup power sources have long charge times, high self-discharge, require relatively high steady
state parasitic charging current, and often require external components for charge control and discharge cutoff.
The EnerChip - with its low self-discharge, low parasitic current draw when charged, and fast recharge time - is
a superior solution to supercapacitors and coin cell batteries in backup power applications. When implemented
in systems using real-time clocks, the EnerChip CC delivers a robust backup power source with high cycle life
and integrated battery management in a low profile, compact surface mount package.
©2011 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com
Doc AN-72-1046 Rev A
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