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HT6P237A Datasheet, PDF (1/10 Pages) Holtek Semiconductor Inc – Learning RF Encoder | |||
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Features
⢠Operating voltage: 2.0V ~3.6V
⢠Average Operating Current:
â¦â¦ 20mA @ VDD=3.0V, 12dBm;
â¦â¦ 30mA @ VDD=3.0V, 16dBm
⢠Standby current: 1.0μA (Max.) @ VDD=3V
⢠HT6P237A codes are fully compatible with
HT6P20B
⢠Up to 4 data pins
⢠Providing 2 compound data trigger pins
⢠Up to 224 address codes
⢠8 bit time option via 2 pin selection
⢠Integrated complete UHF transmitter
⢠Frequency range 300MHz to 450MHz
⢠Supports ASK/OOK modulation
⢠3 output power levels 12dBm/14dBm/16dBm via
1 pin selection
⢠Minimal external components
⢠16-Pin NSOP package
Applications
⢠Burglar alarm systems
⢠Smoke and fire alarm systems
⢠Car alarm systems
⢠Garage door remote controllers
⢠Home Security systems
⢠Other remote control systems
HT6P237A/HT6P247A
Learning RF Encoder
General Description
The HT6P2x7A devices form a series of data encoders
which include fully integrated ASK transmitters for
remote control system applications. These highly
integrated devices are true âswitch-in, antenna-outâ
monolithic devices. They encode 22 or 28 bits of
information and then serially transmits the data out
on their PAOUT pin upon receipt of transmission
enable (Data pins: D0~D3 or B0~B1) signals. They
encode address and data information into a coded
waveform suitable for modulation and transmission
using their integrated RF circuits. The devices offer
high performance in two areas: power delivery
and operating temperature. In terms of power, the
devices are capable of delivering +16 dBm into a 50Ω
load. This power level enables a small form factor
transmitter such as a key fob transmitter to operate
with a maximum distance. In terms of temperature,
they can operate from -40ËC to 85ËC with very little
frequency drift. They additionally offer exceptional
ease of use and can easily pass FCC/ETSI regulations.
One only needs a few additional components for
harmonic filtering.The devices are used with ASK/
OOK (Amplitude Shift Keying/On-Off Keyed) UHF
receiver types from wide-band super-regenerative
radios to narrow-band, high performance super-
heterodyne receivers to form a complete remote
system.
Rev. 1.00
1
April 12, 2013
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