UPS PIco HV3.0A Firmware Code 040 Print Date 18.08.2017
Designed and Manufactured by PiModules and ModMyPi
www.pimodules.com www.modmypi.com
current 100 mA
–
1000 mA,
triggered by voltage changes on
the 5V GPIO or External Power
Source
Charging Modes
LiPO
Automatic Selected :
Full Charging Cycle
Trickle Charging
Automatic Selected :
Full Charging Cycle
Trickle Charging
Automatic Selected :
Full Charging Cycle
Trickle Charging
LiFePO4
Automatic Selected :
Full Charging Cycle
Trickle Charging
Automatic Selected :
Full Charging Cycle
Trickle Charging
Automatic Selected :
Full Charging Cycle
Trickle Charging
Battery Protection
450 mAh
On board cut-off
protection system
when thermal, overcharge or
over discharge
On board cut-off protection
system
when thermal, overcharge or
over discharge
On board cut-off
protection system
when thermal, overcharge or
over discharge
High Capacity LiPO and LiFePO4
On board cut-off
protection system
when thermal, overcharge or
over discharge
On battery, additional PCM
protection
On board cut-off protection
system
when thermal, overcharge or
over discharge
On battery PCM additional
protection
On board cut-off
protection system
when thermal, overcharge or
over discharge
On battery PCM
additional protection
Battery Electrical Isolation System
Battery is Electrically
Isolated (however cable
connected) until system
start up for the first time
and receive 5V from GPIO
Battery is Electrically
Isolated (however cable
connected) until system
start up for the first time
and receive 5V from GPIO
or 7-28V from EXT
Battery is Electrically
Isolated (however cable
connected) until system
start up for the first time
and receive 5V from
GPIO
Battery Back-Up
System Battery Backup
Standard
–
5V 2.6A current
continuous supply to Raspberry
Pi via GPIO Pins
Standard
–
5V 2.6A current
continuous supply to Raspberry
Pi via GPIO Pins
Standard
–
5V 2.6A current
continuous supply to
Raspberry Pi via GPIO Pins
Auxiliary 5V and 3V3 Battery Backed
Supply on PIco I/O Pins
Standard
–
5V 750 mA current
and 3V3 continuous supplies on
PIco I/O Pin battery backed, with
possibility to continuous supply
auxiliary devices with Raspberry
Pi disconnected. Total system
current should not exceed 3A.
Standard
–
5V 750 mA current
and 3V3 continuous supplies on
PIco I/O Pin battery backed, with
possibility to continuous supply
auxiliary devices with Raspberry
Pi disconnected. Total system
current should not exceed 3A.
Standard
–
5V 750 mA current
and 3V3 continuous supplies
on PIco I/O Pin battery
backed, with possibility to
continuous supply auxiliary
devices with Raspberry Pi
disconnected. Total system
current should not exceed 3A.
Battery Back-up Type
UPS
UPS Standby Type, with switch
over
time
of 250 uS, during
switching time the protected
system (Raspberry Pi® with
added hardware) is powered by
auxiliary online power source for
maximum 10mS, therefore no
power gap on GPIO during
switching time
UPS Standby Type, with switch
over
time
of 250 uS, during
switching time the protected
system (Raspberry Pi® with
added hardware) is powered by
auxiliary online power source for
maximum 10mS, therefore no
power gap on GPIO during
switching time
UPS Standby Type, with switch
over
time
of 250 uS, during
switching time the protected
system (Raspberry Pi® with
added hardware) is powered
by auxiliary online power
source for maximum 10mS,
therefore no power gap on
GPIO during switching time
Powering Monitoring Point
Raspberry Pi® GPIO 5V
Raspberry Pi® GPIO 5V
Raspberry Pi® GPIO 5V
UPS Activation Powering Triggers
GPIO 5V pins <=4.65V
Proprietary Algorithm of
Falling Power Peak Analysis
GPIO 5V pins <=4.65V
Proprietary Algorithm of
Falling Power Peak Analysis
GPIO 5V pins <=4.65V
Proprietary Algorithm of
Falling Power Peak
Analysis
Cable Powering Reactivation
After 3s of continuously cable
powering (without spikes)
After 3s of continuously cable
powering (without spikes) on
any cable power source (GPIO or
External)
After 3s of continuously cable
powering (without spikes)
Cable Powering Sources
Cable Powering Sources
Raspberry Pi ® GPIO 5V Pins
2.6 A
2.6 A
2.6 A