AP4405AEN
EOL
Ultra Low Power Voltage Detector
Ultra Low Power Voltage Detector
EOL
Description
In Energy Harvesting power management circuits which convert small energy obtained from the surrounding environment into electric power, it’s necessary to minimize the current consumption. Likewise, quiescent current suppression is very important in cell monitoring circuits and electric storage devices, such as small lithium ion batteries or LIC/EDLC’s used in wearable devices that require long battery life. A highly accurate CMOS voltage detection IC, the AP4405 integrates a voltage detection circuit and P-FET to control an external device and one N-FET channels, while featuring the world class ultra-low power consumption of 10nA (TYP.)
Key Features
Energy harvesting A technology that extracts minute energy and converts it into electric power.
Suppressing current consumed by self The biggest feature is that it consumes the smallest current.
Applications
Power control for Energy Harvesting Devices, Monitoring charging capacitors such as Lithium-ion Capacitors (LIC) and Electric Double Layer Capacitors (EDLC) Protection for Lithium-ion Battery (LiB) for Wearable Devices
Specifications
Part Number |
AP4405AEN |
---|---|
Power Supply Voltage (MIN.) [V] |
1.2 |
Power Supply Voltage (TYP.) [V] | |
Power Supply Voltage (MAX.) [V] |
5.5 |
Current Consumption [nA] |
10 (TYP.) |
Detection Voltage Range (VDETH) (MIN.) [V] |
1.8 |
Detection Voltage Range (VDETH) (TYP.) [V] | |
Detection Voltage Range (VDETH) (MAX.) [V] |
4.4 |
Detection Voltage Range (VDETL) (MIN.) [V] |
1.7 |
Detection Voltage Range (VDETL) (TYP.) [V] | |
Detection Voltage Range (VDETL) (MAX.) [V] |
4.3 |
Detection Voltage Step [V] | |
Detection Accuracy [mV] | |
Other | |
Operating Temperature [℃] |
-40 to 85 |
Device Package |
HWQFN |
Number of Pins |
16 |
Product Information
Part Status |
EOL |
---|---|
Pb Free |
Yes |
Halogen Free |
Yes |
MSL |
MSL2 |
Packaging |
TAPE |
JEDEC Standard Packaging |
Compliant |
Minimum Order Quantity [pcs.] |
4000 |
Replacement P/N |
Block Diagram