CN103149864A - 1527 code and 2262 code wireless signal 315Mhz and 433Mhz relay inter-conversion module - Google Patents

1527 code and 2262 code wireless signal 315Mhz and 433Mhz relay inter-conversion module Download PDF

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Publication number
CN103149864A
CN103149864A CN2013100709884A CN201310070988A CN103149864A CN 103149864 A CN103149864 A CN 103149864A CN 2013100709884 A CN2013100709884 A CN 2013100709884A CN 201310070988 A CN201310070988 A CN 201310070988A CN 103149864 A CN103149864 A CN 103149864A
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433mhz
315mhz
pilot lamp
led state
wireless signal
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CN2013100709884A
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刘洋宏
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Abstract

The invention relates to equipment for an intelligent home system, in particular to a 1527 code and 2262 code wireless signal 315Mhz and 433Mhz relay inter-conversion module. 315Mhz and 433Mhz are international free-application frequencies, so many kinds of equipment run on the two frequency bands. In order that the equipment of the intelligent home system better supports 315Mhz and 433Mhz as the international free-application frequencies, and meanwhile, the operation complexity degree is not increased, the module is decided to be developed. The 1527 code and 2262 code wireless signal 315Mhz and 433Mhz relay inter-conversion module consists of a singlechip microcomputer, a 315Mhz receiving module, a 433Mhz receiving module, a 315Mhz emitting module, a 433Mhz emitting module, an input LED (light emitting diode) state indicating lamp, an input LED state indicting lamp 2, an output LED state indicating lamp 1, an output LED state indicating lamp 2, an input mode switching press button and an output mode switching press button.

Description

1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion modules
Technical field
The present invention relates to a kind of equipment for intelligent domestic system, be specifically related to a kind of 1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion modules.
Background technology
315Mhz, 433Mhz are that demand frequency is exempted from the world, so very many equipment all runs on these two frequency ranges.Better support 15Mhz for these equipment of intelligent domestic system, 433Mhz is that demand frequency is exempted from the world, does not increase again the complicated operation degree simultaneously, and we determine to develop this module.
Summary of the invention
For these equipment of intelligent domestic system have better support 15Mhz, 433Mhz is that demand frequency is exempted from the world, do not increase again simultaneously everybody problems such as complicated operation degree, the invention provides a kind of 1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion modules.these 1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion module are by single-chip microcomputer, the 315Mhz receiver module, the 433Mhz receiver module, the 315Mhz transmitter module, the 433Mhz transmitter module, input LED state pilot lamp 1, input LED state pilot lamp 2, output LED state pilot lamp 1, output LED state pilot lamp 2, input pattern switching push button and output mode switching push button consist of, single-chip microcomputer and 315Mhz receiver module, the 433Mhz receiver module, the 315Mhz transmitter module, the 433Mhz transmitter module, input LED state pilot lamp 1, input LED state pilot lamp 2, output LED state pilot lamp 1, output LED state pilot lamp 2, input pattern switching push button and output mode switching push button connect.By pressing the input pattern switching push button, switch load module and select, by 1 load module switching push button, input LED state pilot lamp 1 lights; By 2 load module switching push buttons, input LED state pilot lamp 2 lights; By 3 load module switching push buttons, input LED state pilot lamp 1 and input LED state pilot lamp 2 light simultaneously.By the output mode switching push button, switch output module and select, by 1 output mode switching push button, output LED state pilot lamp 1 lights; By 2 output mode switching push buttons, output LED state pilot lamp 2 lights; By 3 output mode switching push buttons, output LED state pilot lamp 1 and output state pilot lamp 2 light simultaneously.
The one, receiving the 315Mhz wireless signal is that 1527 coding 2262 code conversion are i.e. 1527 coding 2262 codings of 433Mhz wireless signal.The 2nd, receiving the 315Mhz wireless signal is that 1527 coding 2262 code conversion are i.e. 1527 coding 2262 codings of 315Mhz wireless signal.The 3rd, receiving the 315Mhz wireless signal is that 1527 coding 2262 codings are converted to 315Mhz simultaneously and the 433Mhz wireless signal is that 1527 codings 2262 are encoded.The 4th, receiving the 433Mhz wireless signal is that 1527 coding 2262 code conversion are i.e. 1527 coding 2262 codings of 315Mhz wireless signal.The 5th, receiving the 433Mhz wireless signal is that 1527 coding 2262 code conversion are i.e. 1527 coding 2262 codings of 433Mhz wireless signal.The 6th, receiving the 433Mhz wireless signal is that 1527 coding 2262 codings are converted to 315Mhz simultaneously and the 433Mhz wireless signal is that 1527 codings 2262 are encoded.The 7th, receiving simultaneously 315Mhz and 433Mhz wireless signal is that 1527 coding 2262 code conversion are i.e. 1527 coding 2262 codings of 315Mhz wireless signal.The 8th, receiving simultaneously 315Mhz and 433Mhz wireless signal is that 1527 coding 2262 code conversion are i.e. 1527 coding 2262 codings of 433Mhz wireless signal.The 9th, receiving simultaneously 315Mhz and 433Mhz wireless signal is that 1527 coding 2262 codings are converted to 315Mhz simultaneously and the 433Mhz wireless signal is that 1527 codings 2262 are encoded.As shown in the figure.The invention has the beneficial effects as follows: can make these equipment of intelligent domestic system better support 15Mhz, 433Mhz is that demand frequency is exempted from the world, does not increase again the complicated operation degree simultaneously, and is simple in structure easy to operate, effective.
Description of drawings
Fig. 1 is the structural representation of 1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion module:
Wherein 1 is single-chip microcomputer (1), the 2nd, 315Mhz receiver module (2), the 3rd, 433Mhz receiver module (3), the 4th, 315Mhz transmitter module (4), the 5th, 433Mhz transmitter module (5), the 6th, input LED state pilot lamp 1 (6), the 7th, input LED state pilot lamp 2 (7), the 8th, output LED state pilot lamp 1 (8), the 9th, output LED state pilot lamp 2 (9), the 10th, input pattern switching push button (10), the 11st, output mode switching push button (11).
Embodiment
in Fig. 1, 1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion module are by single-chip microcomputer (1), 315Mhz receiver module (2), 433Mhz receiver module (3), 315Mhz transmitter module (4), 433Mhz transmitter module (5), input LED state pilot lamp 1 (6), input LED state pilot lamp 2 (7), output LED state pilot lamp 1 (8), output LED state pilot lamp 2 (9), input pattern switching push button (10) and output mode switching push button (11) consist of, single-chip microcomputer (1) and 315Mhz receiver module (2), 433Mhz receiver module (3), 315Mhz transmitter module (4), 433Mhz transmitter module (5), input LED state pilot lamp 1 (6), input LED state pilot lamp 2 (7), output LED state pilot lamp 1 (8), output LED state pilot lamp 2 (9), input pattern switching push button (10) and output mode switching push button (11) connect.By pressing input pattern switching push button (10), switch load module and select, by 1 load module switching push button, input LED state pilot lamp 1 (6) lights; By 2 load module switching push buttons, input LED state pilot lamp 2 (7) lights; By 3 load module switching push buttons, input LED state pilot lamp 1 (6) and input LED state pilot lamp 2 (7) light simultaneously.By output mode switching push button (11), switch output module and select, by 1 output mode switching push button (11), output LED state pilot lamp 1 (8) lights; By 2 output mode switching push buttons (11), output LED state pilot lamp 2 (9) lights; By 3 output mode switching push buttons (11), output LED state pilot lamp 1 (8) and output LED state pilot lamp 2(9) light simultaneously.
Input LED state pilot lamp 1 (6), in the situation that output LED state pilot lamp 1 (8) lights, 315Mhz receiver module (2) and 315Mhz transmitter module (4) are with in running order.When receiving the wireless signal that frequency is 315Mhz, single-chip microcomputer (1) receives this wireless signal by 315Mhz receiver module (2), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 315Mhz transmitter module (4), the wireless signal of decoding is sent.
Input LED state pilot lamp 1 (6), in the situation that output LED state pilot lamp 2 (9) lights, 315Mhz receiver module (2) and 433Mhz transmitter module (5) are with in running order.When receiving the wireless signal that frequency is 315Mhz, single-chip microcomputer (1) receives this wireless signal by 315Mhz receiver module (2), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 433Mhz transmitter module (5), the wireless signal of decoding is sent.
Input LED state pilot lamp 1 (6), in the situation that output LED state pilot lamp 1 (8) and output LED state pilot lamp 2 (9) light, 315Mhz receiver module (2) and 315Mhz transmitter module (4) and 433Mhz transmitter module (5) are with in running order.When receiving the wireless signal that frequency is 315Mhz, single-chip microcomputer (1) receives this wireless signal by 315Mhz receiver module (2), single-chip microcomputer (1) this wireless signal of decoding simultaneously, more simultaneously the wireless signal of decoding is sent by 315Mhz transmitter module (4) and 433Mhz transmitter module (5).
Input LED state pilot lamp 2 (7), in the situation that output LED state pilot lamp 1 (8) lights, 433Mhz receiver module (3) and 315Mhz transmitter module (4) are with in running order.When receiving the wireless signal that frequency is 433Mhz, single-chip microcomputer (1) receives this wireless signal by 433Mhz receiver module (3), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 315Mhz transmitter module (4), the wireless signal of decoding is sent.
Input LED state pilot lamp 2 (7), in the situation that output LED state pilot lamp 2 (9) lights, 433Mhz receiver module (3) and 433Mhz transmitter module (5) are with in running order.When receiving the wireless signal that frequency is 433Mhz, single-chip microcomputer (1) receives this wireless signal by 433Mhz receiver module (3), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 433Mhz transmitter module (5), the wireless signal of decoding is sent.
Input LED state pilot lamp 2 (7), in the situation that output LED state pilot lamp 1 (8) and output LED state pilot lamp 2 (9) light, 433Mhz receiver module (3) and 315Mhz transmitter module (4), 433Mhz transmitter module (5) will be simultaneously in running order.When receiving the wireless signal that frequency is 433Mhz, single-chip microcomputer (1) receives this wireless signal by 433Mhz receiver module (3), single-chip microcomputer (1) this wireless signal of decoding simultaneously, more simultaneously the wireless signal of decoding is sent by 315Mhz transmitter module (4) and 433Mhz transmitter module (5).
Input LED state pilot lamp 1 (6) and input LED state pilot lamp 2 (7), in the situation that output LED state pilot lamp 1 (8) lights, 315Mhz receiver module (2), 433Mhz receiver module (3) and 315Mhz transmitter module (4) are with in running order.When receiving the wireless signal that frequency is 315Mhz, single-chip microcomputer (1) receives this wireless signal by 315Mhz receiver module (2), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 315Mhz transmitter module (4), the wireless signal of decoding is sent.When receiving the wireless signal that frequency is 433Mhz, single-chip microcomputer (1) receives this wireless signal by 433Mhz receiver module (3), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 315Mhz transmitter module (4), the wireless signal of decoding is sent.
Input LED state pilot lamp 1 (6) and input LED state pilot lamp 2 (7), in the situation that output LED state pilot lamp 2 (9) lights, 315Mhz receiver module (2), 433Mhz receiver module (3) and 433Mhz transmitter module (5) are with in running order.When receiving the wireless signal that frequency is 315Mhz, single-chip microcomputer (1) receives this wireless signal by 315Mhz receiver module (2), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 433Mhz transmitter module (5), the wireless signal of decoding is sent.When receiving the wireless signal that frequency is 433Mhz, single-chip microcomputer (1) receives this wireless signal by 433Mhz receiver module (3), single-chip microcomputer (1) this wireless signal of decoding simultaneously, then by 433Mhz transmitter module (5), the wireless signal of decoding is sent.
Input LED state pilot lamp 1 (6) and input LED state pilot lamp 2 (7), output LED state pilot lamp 1 (8) and output LED state pilot lamp 2(9) in situation about lighting, 315Mhz receiver module (2), 433Mhz receiver module (3) with 315Mhz transmitter module (4), 433Mhz transmitter module (5) with in running order.When receiving the wireless signal that frequency is 315Mhz, single-chip microcomputer (1) receives this wireless signal by 315Mhz receiver module (2), single-chip microcomputer (1) this wireless signal of decoding simultaneously, more simultaneously the wireless signal of decoding is sent by 315Mhz transmitter module (4) and 433Mhz transmitter module (5).When receiving the wireless signal that frequency is 433Mhz, single-chip microcomputer (1) receives this wireless signal by 433Mhz receiver module (3), single-chip microcomputer (1) this wireless signal of decoding simultaneously, more simultaneously the wireless signal of decoding is sent by 315Mhz transmitter module (4) and 433Mhz transmitter module (5).

Claims (3)

  1. 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion module 1.1527 encode, it is characterized in that: by single-chip microcomputer, the 315Mhz receiver module, the 433Mhz receiver module, the 315Mhz transmitter module, the 433Mhz transmitter module, input LED state pilot lamp 1, input LED state pilot lamp 2, output LED state pilot lamp 1, output LED state pilot lamp 2, input pattern switching push button and output mode switching push button consist of, single-chip microcomputer (1) and 315Mhz receiver module, the 433Mhz receiver module, the 315Mhz transmitter module, 433Mhz transmitter module (5), input LED state pilot lamp 1, input LED state pilot lamp 2, output LED state pilot lamp 1, output LED state pilot lamp 2, input pattern switching push button and output mode switching push button connect.
  2. 2. 1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion modules according to claim 1, by pressing the input pattern switching push button, switch load module and select, by 1 load module switching push button, input LED state pilot lamp 1 lights; By 2 load module switching push buttons, input LED state pilot lamp 2 lights; By 3 load module switching push buttons, input LED state pilot lamp 1 and input LED state pilot lamp 2 light simultaneously.
  3. 3. 1527 coding 2262 encoded wireless signal 315Mhz and 433Mhz relaying conversion modules according to claim 1, by the output mode switching push button, switch output module and select, and by 1 output mode switching push button, output LED state pilot lamp 1 lights; By 2 output mode switching push buttons, output LED state pilot lamp 2 lights; By 3 output mode switching push buttons, output LED state pilot lamp 1 and output state pilot lamp 2 light simultaneously.
CN2013100709884A 2013-03-06 2013-03-06 1527 code and 2262 code wireless signal 315Mhz and 433Mhz relay inter-conversion module Pending CN103149864A (en)

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CN2013100709884A CN103149864A (en) 2013-03-06 2013-03-06 1527 code and 2262 code wireless signal 315Mhz and 433Mhz relay inter-conversion module

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101127150A (en) * 2006-08-16 2008-02-20 上海今泉科技发展有限公司 Bi-directional remote control automobile initiating means
US20100228813A1 (en) * 2009-03-05 2010-09-09 Oki Networks Co., Ltd. Information conversion apparatus, information conversion method, information conversion program and relay device
CN101958742A (en) * 2010-09-30 2011-01-26 赵东晶 Relay forwarding control system and wireless control device for high current assembly
CN102545920A (en) * 2010-12-31 2012-07-04 郝明学 2262, 1527 coding wireless signal serial port acquiring and transmitting device
CN102542776A (en) * 2010-12-13 2012-07-04 盛乐信息技术(上海)有限公司 Remote control system, remote control transmitting equipment and remote control method
CN202632077U (en) * 2012-05-24 2012-12-26 李强 Intelligent household master control host

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101127150A (en) * 2006-08-16 2008-02-20 上海今泉科技发展有限公司 Bi-directional remote control automobile initiating means
US20100228813A1 (en) * 2009-03-05 2010-09-09 Oki Networks Co., Ltd. Information conversion apparatus, information conversion method, information conversion program and relay device
CN101958742A (en) * 2010-09-30 2011-01-26 赵东晶 Relay forwarding control system and wireless control device for high current assembly
CN102542776A (en) * 2010-12-13 2012-07-04 盛乐信息技术(上海)有限公司 Remote control system, remote control transmitting equipment and remote control method
CN102545920A (en) * 2010-12-31 2012-07-04 郝明学 2262, 1527 coding wireless signal serial port acquiring and transmitting device
CN202632077U (en) * 2012-05-24 2012-12-26 李强 Intelligent household master control host

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Application publication date: 20130612