CN101425032A - Method for testing and pairing wireless peripheral unit - Google Patents
Method for testing and pairing wireless peripheral unit Download PDFInfo
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- CN101425032A CN101425032A CNA2007101818008A CN200710181800A CN101425032A CN 101425032 A CN101425032 A CN 101425032A CN A2007101818008 A CNA2007101818008 A CN A2007101818008A CN 200710181800 A CN200710181800 A CN 200710181800A CN 101425032 A CN101425032 A CN 101425032A
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Abstract
The invention provides a testing and pairing method of a wireless peripheral device, comprising the following steps: the wireless input device sends the first test code to a first testing unit by a working band; the first testing unit receives the first test code and then sends a first response signal to the wireless input device; the wireless input device is judged that the functions thereof are normal after receiving the first response signal; a second testing unit sends the second test code to the wireless transceiver device by a pairing channel; the wireless transceiver device receives the second test code and then sends a response signal to the second test unit and after the second test unit receives the second response signal, the wireless transceiver device is judged that the functions thereof are normal; and the wireless input device and the wireless transceiver device complete a pairing program. The testing and pairing method uses different communication channels and different identification codes to carry out testing and pairing to the wireless peripheral device, thus being capable of avoiding the condition that the wireless peripheral device occurs error pairing.
Description
Technical field
The present invention relates to a kind of test and matching method of wireless peripheral unit, particularly a kind of test and matching method of avoiding the wireless peripheral unit of wrong pairing.
Background technology
The progress of development in science and technology makes the application of personal computer become the indispensable ring of the modern life.And along with the weeding out the old and bring forth the new of technology, the connected mode between computer peripheral device and the personal computer also begins by the wired connection progress to the wireless connections mode.One wireless peripheral unit generally includes a wireless transmitter and a radio input device, for example wireless mouse, Wireless Keyboard or wireless rocking bar or the like.Each radio input device all disposes the wireless transmitter of a correspondence.Wireless transmitter is connected to the connectivity port of computing machine, and as USB port, the signal of radio input device then is transferred into corresponding with it wireless transmitter by specific wireless communication channel.For radio input device and wireless transmitter can be discerned mutually so that the radio communication of setting up between the two is connected, in the wireless peripheral unit production routine, must carry out a matcher (pairing).
Fig. 1 shows a known wireless peripheral unit production line synoptic diagram of simplifying.To with the wireless mouse example in this example.Fig. 1 has represented first testing station 11 in the production line, second testing station 12 and pairing station 13.Whether first testing station 11 is normal in order to the function of test wireless mouse 111.In first testing station 11, comprise first test cell 112, and first test cell 112 comprises a test patterns 14 and a pairing button 114.Whether second testing station 12 is normal in order to the function of test wireless transmitter 121.In second testing station 12, comprise second test cell 122, and second test cell 122 also comprises a test patterns 14 and a pairing button 124.
In known wireless peripheral unit, wireless transmitter 121 has test patterns 14, and wireless mouse 111 then has test patterns 14 and device identification code 15.In first testing station 11, after the operator pushes the pairing button 113 of this wireless mouse 111, push the pairing button 114 of this first test cell 112 again.So wireless mouse 111 sends test patterns 14 and device identification code 15 to first test cell 112 by the communication channel (channel) in the working band (band).First test cell 112 sends first response signal 115 to this wireless mouse 111 in acceptance test sign indicating number 14 backs, and wireless mouse 111 then is judged as function after receiving this first response signal 115 normal.
In second testing station 12, after the operator pushes the pairing button 124 of this second test cell 122, push the pairing button 123 of this wireless transmit/receive units 121 again.So second test cell 122 will send test patterns 14 to wireless transmit/receive units 121 by the communication channel in the working band.Wireless transmit/receive units 121 sends second response signals 125 to second test cell 122 in acceptance test sign indicating number 14 back, and second test cell 122 is judged to be this wireless transmitter 121 function after receiving this second response signal 125 normal.
When wireless mouse 111 and wireless transmitter 121 all be confirmed to be function normal after, both will be admitted in the pairing station 13 and carry out matcher.In pairing station 13, after the operator pushes the pairing button 113 of this wireless mouse 111, push the pairing button 123 of wireless transmitter 121 again.Wireless mouse 111 can send test patterns 14 and device identification code 15 to wireless transmitter 121 by the communication channel in the working band then.Wireless transmitter 121 sends the 3rd response signal 131 to this wireless mouse 111 in acceptance test sign indicating number 14 and device identification code 15 backs, and with these device identification code 15 alternative test patterns 14 that originally were stored in wherein, and setting communicates by communication channel in the working band and wireless mouse 111.111 of wireless mouses are also set by this communication channel and wireless transmitter 121 and are communicated after receiving the 3rd response signal 131.
Yet, known wireless peripheral unit test and matching method, because in first testing station 11, second testing station 12, and pairing station 13 employed working bands are all identical with test patterns 14, the situation of matching of therefore often making a mistake and cause producing the waste in man-hour.For example at production line, operator when pairing station 13 has pressed the pairing button 113 of wireless mouse 111 and the pairing button 123 of wireless transmitter 121, if by chance the operator of second testing station 12 has also pushed the pairing button 124 of second test cell 122 and the pairing button of another wireless transmit/receive units of just testing simultaneously, then wireless mouse 111 may be matched by the received mistake that produces of another wireless transmit/receive units in second testing station 12 with device identification code 15 by the test patterns 14 that the communication channel (channel) in the working band (band) is sent in the pairing station 13.Perhaps, second test cell 122 may be matched by the wireless transmitter 121 received mistakes that produce by the test patterns 14 that the communication channel (channel) in the working band (band) is sent.In like manner, if the operation that the operator of 13 and first testing station 11, pairing station also by chance matches respectively and tests at one time, then also may cause first test cell, the 112 wrong pairings in wireless mouse 111 and first testing station 11 in pairing station 13, or the wireless transmitter 121 in the pairing station 13 and another wireless mouse mistake in first testing station 11 are matched.
In view of this, propose a kind of wireless peripheral unit test and matching method of avoiding wrong pairing, its necessity and practicality are arranged promoting production efficiency.
Summary of the invention
Fundamental purpose of the present invention is to propose a kind of test and matching method of wireless peripheral unit, and the situation of the pairing of can avoiding making a mistake is to promote the production efficiency of wireless peripheral unit.
The test of the wireless peripheral unit that in one embodiment of the present invention, is proposed and matching method, be applied to the production procedure of a radio input device and a wireless transmitter, wherein radio input device has first test patterns, a pairing identification code and a device identification code, and wireless transmitter has second test patterns and pairing identification code, and the method includes the steps of:
(A). use the function of first test cell test radio input device whether normal and use the function of second test cell test wireless transmitter whether normal, wherein first test cell has first test patterns, and second test cell has second test patterns, and this step (A) comprises following steps:
(A1). radio input device sends first test patterns to the first test cell by a working band;
(A2). first test cell sends first response signal to radio input device after receiving first test patterns, and radio input device is judged as function after receiving first response signal normal;
(A3). second test cell sends second test patterns to wireless transmitter by a pairing channel;
(A4). wireless transmitter sends second response signal to second test cell after receiving second test patterns, second test cell receives after second response signal then wireless transmitter, and to be judged as function normal; And
(B). make radio input device and wireless transmitter finish matcher, comprise following steps:
(B1). radio input device is by matching channel transmission pairing identification code and device identification code to wireless transmitter;
(B2). wireless transmitter sends the 3rd response signal and substitutes the pairing identification code to radio input device and with device identification code after reception pairing identification code and device identification code, and setting communicates by working band and radio input device; And
(B3). radio input device is after receiving the 3rd response signal, and setting communicates by working band and wireless transmitter; Wherein, the pairing channel is not contained in the working band.The test of aforesaid wireless peripheral unit and matching method, wherein this radio input device is a wireless mouse, a Wireless Keyboard, or a wireless rocking bar.
The test of aforesaid wireless peripheral unit and matching method, wherein this working band is 2400MHz to 2483.5MHz.
The test of aforesaid wireless peripheral unit and matching method, wherein have a plurality of communication channels in this working band, described a plurality of communication channels are respectively: 2402MHz, 2426MHz, 2450MHz, 2474MHz, 2408MHz, 2432MHz, 2456MHz, 2414MHz, 2438MHz, 2462MHz, 2420MHz, 2444MHz, 2468MHz.
The test of aforesaid wireless peripheral unit and matching method, wherein this radio input device sends this first test patterns to this first test cell by the channel in described a plurality of communication channels in this step (A1).
The test of aforesaid wireless peripheral unit and matching method, wherein this radio input device communicates by the channel in described a plurality of communication channels and this wireless transmitter in this step (B3).
The test of aforesaid wireless peripheral unit and matching method, wherein this pairing channel is 2500MHz.
Therefore, situation and the production waste in man-hour that the test of the wireless peripheral unit that the present invention proposes and matching method have been avoided making a mistake and matched help to promote production efficiency.
Description of drawings
Fig. 1 is known wireless peripheral unit production line synoptic diagram.
Fig. 2 is for using the wireless peripheral unit production line synoptic diagram of test of the present invention and matching method.
Fig. 3 is the test and the matching method process flow diagram of wireless peripheral unit of the present invention.
And each description of reference numerals in the above-mentioned accompanying drawing is as follows:
11,12,22 second testing stations, 21 first testing stations
13,23 pairing stations, 14 test patterns
15 device identification code, 111,211 wireless mouses
112,212 first test cells
113,114,123,124,216,224 pairing buttons
115,217 first response signals
121,221 wireless transmitters
122,222 second test cells
125,225 second response signals
131,231 the 3rd response signals
213 first test patterns, 214 pairing identification codes
215 device identification code, 223 second test patterns
302,304,306,308,312,314,316 steps
Embodiment
In embodiment proposed by the invention, wireless peripheral unit comprises a wireless transmitter and a radio input device usually, and common radio input device comprises: wireless mouse, Wireless Keyboard or wireless rocking bar or the like.Present embodiment will be example with the wireless mouse.
See also Fig. 2, its display application test proposed by the invention and the wireless peripheral unit production line synoptic diagram of matching method.Fig. 2 has represented first testing station 21, second testing station 22, and pairing station 23.Whether first testing station 21 is normal in order to the function of test wireless mouse 211, and comprises first test cell 212 in first testing station 21, and has first test patterns 213 and a pairing button 216 in first test cell 212.Second testing station 22 in order to the test wireless transmitter 221 function whether normal, and comprise in second testing station 22 second test cell, 222, the second test cells 222 then have second test patterns 223 and one the pairing button 224.In the present embodiment, 211 of wireless mouses have first test patterns 213, a pairing identification code 214 and a device identification code 215, and wireless transmitter 221 has second test patterns 223 and pairing identification code 214.
In first testing station 21, the operator makes this wireless mouse 211 send this first test patterns 213, pushes the pairing button 216 of first test cell 212 again.So wireless mouse 211 sends first test patterns 213 to first test cell 212 by the communication channel in the working band.Wherein, the working band that present embodiment adopted is 2400MHz to 2483.5MHz, and have a plurality of communication channels in this working band, it is respectively: 2402MHz, 2426MHz, 2450MHz, 2474MHz, 2408MHz, 2432MHz, 2456MHz, 2414MHz, 2438MHz, 2462MHz, 2420MHz, 2444MHz, 2468MHz.
In second testing station 22, the operator pushes the pairing button 224 of this second test cell 222, this wireless transmit/receive units 221 is waited for received second test patterns 223.After being pressed, the pairing button 224 of this second test cell 222 promptly sends second test patterns 223 to wireless transmit/receive units 221 by a pairing channel.Different with known technology is, pairing channel used in the present invention can adopt not in the frequency range of working band, and 2500MHz for example is as this pairing channel.Wireless transmit/receive units 221 judges then that wireless transmitter 221 functions are normal in receiving after second test patterns, 223 back transmissions, second response signal 225 is receiving this second response signal 225 to second test cell, 222, the second test cells 222.
When radio input device 211 and wireless transmitter 221 all be confirmed to be function normal after, both are admitted in the pairing station 23 and carry out matcher.In pairing station 23, the operator makes wireless mouse 211 send pairing identification code 214 and device identification code 215 to wireless transmitter 221 by the pairing channel, and wireless transmitter 221 is waited for receive pairing identification code 214 and device identification code 215.Then, wireless transmitter 221 sends the 3rd response signal 231 to this wireless mouse 211, and substitutes pairing identification code 214 with this device identification code 215, and setting communicates by communication channel in the working band and wireless mouse 211.After radio input device 211 is receiving the 3rd response signal 231, also set by this communication channel and wireless transmitter 221 and communicate.So far, then wireless transmitter 221 has been finished the program that radio communication is matched with wireless mouse 211.
Test and matching method than known technology, the present invention does not belong to arbitrary channel in the working band in order to the pairing channel that matches, in addition, the present invention also uses first test patterns 213, second test patterns 223 and pairing identification code 214 to carry out test procedure and matcher respectively, therefore can avoid matching wireless transmitter 221 and wireless mouse 211 in the station 23, with the pairing that makes a mistake of other wireless transmitter in first testing station 21 or second testing station 22 or wireless mouse, thereby reach the purpose that promotes wireless peripheral unit production efficiency.
For example, operator in pairing station 23 is just carrying out matcher, and when the operator in second testing station 22 is just carrying out test procedure, because the wireless transmitter 221 in the pairing station 23 is waited for and is received pairing identification code 214 and device identification code 215, and second test cell 222 in second testing station 22 sends second test patterns 223, and therefore wireless transmitter 221 and second test cell 222 in second testing station 22 in the pairing station 23 can wrong not match.In addition, wireless mouse 211 in the pairing station 23 sends pairing identification code 214 and device identification code 215, and another wireless transmitter in second testing station 22 is waited for reception second test patterns 223, and therefore wireless mouse 211 and another wireless transmitter in second testing station 22 in the pairing station 23 can wrong not match yet.Moreover, owing to match the transmission of using data with the pairing channel when match at pairing station 23, and test the transmission of using data with the communication channel in the working band when testing in first testing station 21, the therefore also pairing that can not make a mistake of wireless peripheral unit in pairing station 23 and first testing station 21 owing to the different of communication frequency.
Fig. 3 is the test of demonstration wireless peripheral unit of the present invention and a preferred embodiment process flow diagram of matching method.Wherein, whether whether the purpose of step 302, step 304, step 306, step 308 be to use the function of these wireless mouses 211 of first test cell 212 test normal and use the function of second test cell, 222 these wireless transmitters 221 of test normal.And the purpose of step 312, step 314 and step 316 is to make this wireless mouse 211 and this wireless transmitter 221 finish matcher.
In step 302, wireless mouse 211 sends first test patterns, 213 to first test cells 212 by working band.In step 304, first test cell 212 sends first response signals 217 to wireless mouse 211 in receiving first test patterns, 213 backs, and wireless mouse 211 then is judged to be function after receiving first response signal 217 normal.In step 306, second test cell 222 sends second test patterns 223 to wireless transmitter 221 by a pairing channel.In step 308, wireless transmitter 221 sends second response signals 225 to second test cell 222 in receiving second test patterns, 223 backs, and receiving second response signal, 225 back wireless transmitters 221 in second test cell 222, then to be judged to be function normal.
In step 312, wireless mouse 211 is by matching channel transmission pairing identification code 214 and device identification code 215 to wireless transmitter 221.In step 314, wireless transmitter 221 is in receiving pairing identification code 214 and device identification code 215 back transmission the 3rd response signals 231 to wireless mouse 211, and with device identification code 215 alternative pairing identification codes 214, and setting communicates by working band and wireless mouse 211.In step 316, wireless mouse 211 is after receiving the 3rd response signal 231, and setting communicates by this working band and wireless transmitter 221.So far, then wireless transmitter 221 has been finished the program that radio communication is matched with wireless mouse 211.
The above is the preferred embodiments of the present invention only, is not in order to limiting claim of the present invention, and therefore all other do not breaking away from equivalent modifications or the modification of being finished under the spirit disclosed in this invention, all should be contained in the claim scope of the present invention.
Claims (8)
1. the test of a wireless peripheral unit and matching method, be applied to the production procedure of a radio input device and a wireless transmitter, wherein this radio input device has first test patterns, a pairing identification code and a device identification code, and this wireless transmitter has second test patterns and this pairing identification code, and the method includes the steps of:
(A). whether use first test cell to test the function of this radio input device normal and whether use second test cell to test the function of this wireless transmitter normal, wherein this first test cell has this first test patterns, and this second test cell has this second test patterns, and this step (A) comprises following steps:
(A1). this radio input device sends this first test patterns to this first test cell by a working band;
(A2). this first test cell sends first response signal to this radio input device after receiving this first test patterns, and this radio input device is judged as function after receiving this first response signal normal;
(A3). this second test cell sends this second test patterns to this wireless transmitter by a pairing channel;
(A4). this wireless transmitter sends second response signal to this second test cell after receiving this second test patterns, and after this second test cell receives this second response signal this wireless transmitter to be judged as function normal; And
(B). make this radio input device and this wireless transmitter finish matcher, comprise following steps:
(B1). this radio input device sends this pairing identification code and this device identification code to this wireless transmitter by this pairing channel;
(B2). this wireless transmitter sends the 3rd response signal and substitutes this pairing identification code to this radio input device and with this device identification code after this pairing identification code of reception and this device identification code, and setting communicates by this working band and this radio input device; And
(B3). this radio input device is after receiving the 3rd response signal, and setting communicates by this working band and this wireless transmitter; Wherein, this pairing channel is not contained in this working band.
2. the test of wireless peripheral unit as claimed in claim 1 and matching method, wherein this radio input device is a wireless mouse, a Wireless Keyboard, or a wireless rocking bar.
3. the test of wireless peripheral unit as claimed in claim 1 and matching method, wherein this working band is 2400MHz to 2483.5MHz.
4. the test of wireless peripheral unit as claimed in claim 1 and matching method, wherein have a plurality of communication channels in this working band, described a plurality of communication channels are respectively: 2402MHz, 2426MHz, 2450MHz, 2474MHz, 2408MHz, 2432MHz, 2456MHz, 2414MHz, 2438MHz, 2462MHz, 2420MHz, 2444MHz, 2468MHz.
5. the test of wireless peripheral unit as claimed in claim 4 and matching method, wherein in this step (A1), this radio input device sends this first test patterns to this first test cell by the channel in described a plurality of communication channels.
6. the test of wireless peripheral unit as claimed in claim 4 and matching method, wherein this radio input device communicates by the channel in described a plurality of communication channels and this wireless transmitter in this step (B3).
7. the test of wireless peripheral unit as claimed in claim 1 and matching method, wherein this pairing channel is 2500MHz.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2007101818008A CN101425032B (en) | 2007-10-29 | 2007-10-29 | Method for testing and pairing wireless peripheral unit |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2007101818008A CN101425032B (en) | 2007-10-29 | 2007-10-29 | Method for testing and pairing wireless peripheral unit |
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| Publication Number | Publication Date |
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| CN101425032A true CN101425032A (en) | 2009-05-06 |
| CN101425032B CN101425032B (en) | 2011-05-04 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN2007101818008A Expired - Fee Related CN101425032B (en) | 2007-10-29 | 2007-10-29 | Method for testing and pairing wireless peripheral unit |
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Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102457305A (en) * | 2010-10-26 | 2012-05-16 | 致伸科技股份有限公司 | Test and pairing system and method applied to production flow of wireless peripheral device |
| CN102457362A (en) * | 2010-10-26 | 2012-05-16 | 钰宝科技股份有限公司 | Transmitting device and receiving device as well as wireless communication system and matching method thereof |
| CN102609372A (en) * | 2011-01-20 | 2012-07-25 | 致伸科技股份有限公司 | Pairing method for computer and wireless electronic device |
| CN102904617A (en) * | 2011-07-26 | 2013-01-30 | 致伸科技股份有限公司 | Wireless transmission method |
| CN103312381A (en) * | 2012-03-07 | 2013-09-18 | 宝德科技股份有限公司 | Wireless device pairing method |
| CN103812529A (en) * | 2012-11-07 | 2014-05-21 | 昆盈企业股份有限公司 | Wireless system and matching method thereof |
| CN103812532A (en) * | 2012-11-07 | 2014-05-21 | 昆盈企业股份有限公司 | Matching system and matching method |
| CN105812029A (en) * | 2014-12-31 | 2016-07-27 | 鸿富锦精密工业(深圳)有限公司 | Electronic device group matching method |
Family Cites Families (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| PL354839A1 (en) * | 1999-05-21 | 2004-02-23 | Ibm | Method and apparatus for initializing secure communications among, and for exclusively pairing wireless devices |
-
2007
- 2007-10-29 CN CN2007101818008A patent/CN101425032B/en not_active Expired - Fee Related
Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102457305A (en) * | 2010-10-26 | 2012-05-16 | 致伸科技股份有限公司 | Test and pairing system and method applied to production flow of wireless peripheral device |
| CN102457362A (en) * | 2010-10-26 | 2012-05-16 | 钰宝科技股份有限公司 | Transmitting device and receiving device as well as wireless communication system and matching method thereof |
| CN102609372A (en) * | 2011-01-20 | 2012-07-25 | 致伸科技股份有限公司 | Pairing method for computer and wireless electronic device |
| CN102904617A (en) * | 2011-07-26 | 2013-01-30 | 致伸科技股份有限公司 | Wireless transmission method |
| CN103312381A (en) * | 2012-03-07 | 2013-09-18 | 宝德科技股份有限公司 | Wireless device pairing method |
| CN103312381B (en) * | 2012-03-07 | 2016-01-20 | 宝德科技股份有限公司 | The method of wireless device pairing |
| CN103812529A (en) * | 2012-11-07 | 2014-05-21 | 昆盈企业股份有限公司 | Wireless system and matching method thereof |
| CN103812532A (en) * | 2012-11-07 | 2014-05-21 | 昆盈企业股份有限公司 | Matching system and matching method |
| CN105812029A (en) * | 2014-12-31 | 2016-07-27 | 鸿富锦精密工业(深圳)有限公司 | Electronic device group matching method |
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|---|---|
| CN101425032B (en) | 2011-05-04 |
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