Part number:
HT9015
Manufacturer:
Holtek Semiconductor Inc
File Size:
206.24 KB
Description:
Rf single chip for cordless phone.
* RF Single Chip for Cordless Phone
* HT9015
* Operating voltage: 2.7V~6V Extremely low power consumption current - I CC= 0mA (typ.) in battery-saving mode - I CC= 8.5mA (typ.) in standby mode - I CC= 13.5mA (typ.) for communication Built-in IF decoder, compander an
HT9015
Holtek Semiconductor Inc
206.24 KB
Rf single chip for cordless phone.
📁 Related Datasheet
HT9011 - FM IF Detector
(Holtek Semiconductor Inc)
Preliminary
Features
· · · · · ·
HT9011 FM IF Detector
· · · ·
Operating voltage: 1.1V~3.5V Constant power supply voltage can be generated by extern.
HT9020 - Call Progress Tone Decoder & ABR Controller
(Holtek Semiconductor)
..
HT9020
Call Progress Tone Decoder & ABR Controller
Features
• • • • • Low cost 32768Hz crystal Low power consumption Operating vo.
HT9020B - Call Progress Tone Detector
(Holtek Semiconductor)
..
HT9020B
Call Progress Tone Detector
Features
· Operating voltage: 2.5V~5.5V · Low power consumption · Low cost 32768Hz crystal · .
HT9030 - Calling Line Identification Receiver
(Holtek Microelectronics)
..
DataShee
.
.
. DataSheet 4 U .
..
et4U.
DataShee
DataShee.
HT9032 - Calling Line Identification Receiver
(Holtek Semiconductor Inc)
Calling Line Identification Receiver
Features
· · · ·
HT9032
HT9032B/C/D operating voltage: 3.5V~5.5V HT9032F operating voltage: 3.0V~5.5V Bell 202 .
HT9032C - (HT9032C / HT9032D) Calling Line Identification Receiver
(Holtek)
HT9032C/HT9032D Calling Line Identification Receiver
Features
· Operating voltage: 3.5V~5.5V · Bell 202 FSK and V.23 demodulation · Ring detection in.
HT9032D - (HT9032C / HT9032D) Calling Line Identification Receiver
(Holtek)
HT9032C/HT9032D Calling Line Identification Receiver
Features
· Operating voltage: 3.5V~5.5V · Bell 202 FSK and V.23 demodulation · Ring detection in.
HT9142 - FM IF Detector
(Holtek Semiconductor)
HT9142 FM IF Detector
Features
· Operating voltage: 1.1V~3.5V · Constant power supply voltage can be generated by
externally adding a transistor: VRE.