JPH08511660A - Dual-mode receiver with battery saving capability - Google Patents

Abstract

(57) [Summary] A dual-mode communication receiver includes a first demodulator 108 for detecting information received in a first modulation format, and a second modulation format in response to information detected in the first modulation format. And a second demodulator 112 for detecting the information received at. The first and second demodulators 108, 112 share a common receiver front end 102 operating on a common channel. A power storage circuit 104 is provided to selectively power the first and second demodulators 108, 112 to enable detection of information received in the first and second modulation formats, respectively.

Description

Detailed Description of the Invention                 Dual-mode receiver with battery saving capability                                BACKGROUND OF THE INVENTION                                Field of the invention   The present invention Regarding the field of communication receivers, More specifically, it has battery saving ability The present invention relates to a selective call communication receiver for high-speed data and voice communication.                              Description of the prior art   Currently, Many communication systems are in operation, Addressing and And frequency (FM) modulation for data and voice transmission, There is today All paging systems are included. Current communications including paging receiver The receiver is Utilizing advanced receiver architecture, Current paging system Mu is Utilizes well-known and established signaling formats. Current receiver architect Kucha and signaling format are Higher receiver sensitivity and better battery saving Optimized to provide power and.   In many urban areas, The number of subscribers that can be accommodated Even if it concerns Regarding the message sending time that can be used, Many pages Is the maximum system capacity? Or is operating in a state close to it It was As a result of such paging system behavior, Extended hold time , That is, the "camp on" needed to access the paging system Time, The paging system's message-sending queue was similarly extended. Due to the long delay in message delivery, Customer satisfaction is being harmed It In order to improve the message processing capability in such conventional systems , Services such as voice paging have been abolished in many systems, Numbers and numbers Replaced with newer services such as text messages. These new Depending on the service By significantly reducing the send time requirements for sending messages , The number of subscribers that the paging system can handle has increased significantly. Shi Scarecrow Improved for handling and handling large alphanumeric data messages Law, etc. As the demand for improved paging services grows, Many paging systems are once again approaching maximum system capacity. This To continue to improve the grade of services offered by Una Paging System In order to New signaling formats such as the 1200 baud POCSAG signaling format Mat is realized, By further increasing the message processing capacity, the page Reduces the burden on the singing system I've been trying.   When used in a simultaneous broadcast transmission system, Standard FM modulation is Questions about transmitter equalization Therefore, it is not suitable for high bit rate data transmission. Fast message There is a limit to FM modulation for the transmission of Higher bit rate transmission To do Other types of modulation are needed, such as linear modulation techniques. Linear modulation The technology is It can be used for fast message sending, This strange The tuning technique is Cannot be used in existing receiver architectures, Current signal technology I can't be compatible with the art, Existing signals transmitted using standard FM modulation techniques More current drain than required by the circuit receiving and demodulating the encryption protocol. Required for operation. Existing FM modulated paging signaling protocol These existing paging signaling protocols by maintaining compatibility within It is necessary to provide a receiver architecture that takes advantage of the is there. further, Performs linear demodulation for voice and high speed data capabilities, Existing page These further extensions without compromising the battery-saving capabilities of Receiver architecture increases the processing power of messages required for continued service It is necessary to provide                                 Summary of the invention   A first receiver for receiving and detecting information transmitted in a first modulation format; In response to the information detected in the first modulation format, Send in second modulation format Dual mode consisting of a second receiver for receiving and detecting the transmitted information A communication receiver is described. The first and second receiving means are Common receiver front Share the end.   In an alternative embodiment of the invention, Information transmitted in the first modulation format A first receiver for receiving and detecting, Receives information transmitted in the second modulation format Described is a dual mode communication receiver configured with a receiving and detecting second receiver. To be done. Of the information transmitted in the first modulation format by powering the first receiver A power storage circuit is provided that enables reception and detection. The power storage circuit is Furthermore To In response to information received and detected in the first modulation format, Second receiver To receive and detect information transmitted in a second modulation format. Noh. The first and second receiving means are Share a common receiver front end , A battery saver program configured for information sent in the first modulation format. Responding to Tocol, Further addressed to dual mode communication receivers, Second modulation former In response to the information sent in This front end is powered by a power storage circuit. Power is supplied.                             Brief description of the drawings   The features of the present invention that are considered novel are: Details are set forth in the appended claims. The invention itself is With its further objectives and advantages, With the following description and attached drawings By Well understood. In some drawings, Same reference number Identify the same element.   Figure 1 shows FIG. 3 is an electrical block diagram of the dual mode communication receiver of the present invention.   2A and 2B are The preferred signaling format for the dual mode communication receiver of the present invention. It is a timing chart explaining a format.   Figure 2C shows Timing showing battery saving operation of dual mode receiver of the present invention It is a figure.   Figure 2D shows An alternative signaling format for the dual mode receiver of the present invention is described. FIG.   Figure 3 shows FIG. 3 is an enlarged electrical block diagram of the dual mode communication receiver of the present invention. .   Figure 4 shows A battery power saving detail of the dual mode communication receiver of the present invention. It is a qi block diagram.   5A and 5B show The operation of the dual mode communication receiver of the present invention will be described. It is a flowchart.                               Examples of the invention   Like above-mentioned, Traditional communication systems such as paging systems Solitary strange Sending addresses and messages with a predetermined signaling protocol that uses key format And went. Analog signals such as 2-tone and 5-tone signaling protocols Protocols and analog voice messages Phase or angle modulation format , Or direct frequency modulation of FM modulation carrier system which is popular in the industry now Modulated using either format. Digital signaling protocol Which other signaling protocol is Regarding the address, Regarding message sending Even frequency shift keying (FSK: frequency shift keying) It was common to use a mat. 512 and 1200 bit per second POC SAG signaling protocol or Golay sequential code of 600 bits per second (Golay Existing signaling protocols, such as Sequential Code) protocols, Simultaneous broadcast message Providing superior performance in wide area communication systems such as systems that transmit sage Developed to serve. But, Like above-mentioned, Use FM modulation format There is a limit to sending information at high data bit rates. This limit is , Many, Problems in equalizing a simultaneous broadcast transmission system for such transmission , Perform high-speed data communication using conventional frequency modulation format This is due to the necessary frequency spectrum.   Another modulation field to improve the throughput of message information. Formats are also available. These alternative modulation formats include: often A modulation format called a linear modulation format is included. These straight lines Depending on the key format, The carrier signal can be modulated, Thereby the Messe Page information, It is encoded in both the carrier amplitude and the instantaneous phase angle. Straight line Examples of modulation formats include: Quadrature amplitude modulation (QAM modulation: quadrature amplitude  modulation) and the assignee of the present invention, Ste included in this case for reference US Patent No. 4, by el et al. 737, No. 969 "Spectrally Efficient Digital M Spectral Effective Data Modulation (S EDM modulation: spectrally efficient data modulation) etc. Other shapes For linear modulation of state, Message information by modulating both the amplitude and phase of the transmitted signal Encode Furthermore, the transmitted spectrum is shaped to protect adjacent channels. There is a modulation format. One example of such a modulation format is QPSK signal conversion. There is a format. Such a linear modulation format is Conventional frequency modulation function Rather than by format Message information at very high data rates Can be used for sending These linear modulation formats are General To say Developed for both excellent receiver sensitivity and battery saving performance It can only be used with already established paging signaling protocols. I can't. The reason these are not compatible is that mainly, POCSAG or Golay Sequential Co Paging system that uses well-known signaling formats such as Runs much more power than is required by a selective call receiver operating on a system This is due to the requirements for providing the linear receiver required for production.   Figure 1 shows Overcoming the above problems, Uses existing paging signaling protocol Dual mode communication receiver of the present invention that can be used in existing paging systems It is an electric block diagram of. The dual mode communication receiver of the present invention is 8 kilobits per second Enables data transmission at very high data bit rates or higher It The dual mode communication receiver of the present invention is Provides excellent battery saving performance characteristics, Receiver of prior art communication receiver using conventional paging signaling protocol Compatible with existing paging signaling protocols to maintain sensitivity characteristics. The dual mode communication receiver of the present invention is Conventional FM modulated formats such as Providing first receiving means for receiving and detecting information transmitted in one modulation format , In response to the information detected by the first receiving means in the first modulation format, Me A second modulation, such as one of the linear modulation formats that allows high speed transmission of sage information Providing a second receiving means for receiving and detecting the information transmitted in the format The above operation can be performed by. This transmission format is No Figure 2A As illustrated in Figure 2C, It is explained in detail below. Sending of Figures 2A to 2C Depending on the communication protocol, Allows transmission of information modulated in conventional FM modulation format Noh, Modulated in a linear modulation format that enables faster data transmission It becomes possible to send the message information that is stored. In Figure 1, FM modulation format Information modulated by either the receiver or the linear modulation format by the receiver 102. Is received. Battery saving switch (battery saver switch) 104 Is Under the control of the decoder / controller 106, Power the receiver 102 , Allows the reception of transmitted information. The battery saving switch 104 is FM recovery Combined with the modulator 108, Demodulation of FM modulation information received by receiver 102 To enable. The demodulated information is Provided to decoder / controller 106 . Coupled to the decoder / controller 106, Assigned to dual mode communication receiver A code memory 110 is provided for storing the obtained address information. Communication receiver The address corresponding to the predetermined address information assigned to Once detected, One of two actions is performed, More on this below I will explain in detail. In the first case, The battery saving switch 104 Decoder / Con Under the control of the tracker 106, Message information received in FM modulation format The power supply to the FM demodulator 108 is maintained so that the demodulation can be further performed. Message information received Is Random access memory etc. usually in the decoder / controller 106 Temporarily stored in the located memory. The stored message information is To the user Called more, It is displayed on the display 111. Address information reception Work and decoding are It is well known to those skilled in the art.   But, Unlike prior art receivers, Power sent to FM demodulator 108 Is The battery saver switch 10 under the control of the decoder / controller 106. Interrupted by 4, Supplied to the linear demodulator 112, In the second modulation format Demodulate the received information. The information received in the second modulation format is the receiver 1 Received by 02, The receiver 102 combines the received information into a linear demodulator 112. It The demodulated message information is output from the linear demodulator 112, Data processing unit Connected to the input of unit 114. When the linear demodulator 112 becomes operational, Batte The re-saving switch 104 includes a data processing unit 114, Data presentation means 116 and Supply power to. The decoder / controller 106 is Data processing unit 11 Combined with 4, The data processing circuit 114 receives the signal received in the second modulation format. Allows processing of message information. The processed message information is , Temporarily stored in the memory 118, Called by the user, Presenting means 11 6 can be displayed.   2A and 2B are Dual mode communication receiver of the present invention It is a timing diagram explaining the signaling format of a receiver. Shown in Figure 2A like, When message transmission is started on the channel, In FM modulation format A modulated preamble 202 is transmitted on the channel, It is followed by multiple The sage batches 204-206 are sent. Message batch 204-2 In each of 06, There is a predetermined transmission time interval, Modulated by FM modulation format Was Alternatively, for high speed data, the address modulated by the linear modulation format And it becomes possible to send message information. Address of FM modulation format And modulation of message information is well known in the art. SEDM modulation four Data modulation of linear modulation format such as Matte Assigned to the assignee of the present invention , Included as a reference in this case, US Patent No. 4, by Steel et al. 737, 96 No. 9 "Spectrally Efficient Digital Modulation Method and Apparatus" Will be revealed. All information sent within a particular batch is in a common modulation format Is modulated. As explained in more detail below, Information for one or more batches , Modulated by FM modulation format, One modulated in linear modulation format The above batch information can be inserted. Depending on the channel load, During transmission Break 208 occurs, After this, the preamble 202 is transmitted again, Receiving The transmitter can be resynchronized with the batch transmission.   Figure 2B shows Linear modulation format for batches modulated in FM modulation format The case of sandwiching a batch modulated by a printer is shown in more detail. Preferred practice of the invention In the example, The preamble 202 is Modulated using the FM modulation format It is a sequence in which bit 1 and bit 0 appear alternately. Preamble 20 By 2, The receiver wakes up from the battery save time interval, Transmission started on the channel Recognize that The receiver can get bit synchronization with the transmitted signal . After transmitting the preamble 202, Each batch is A sync code word 214, in addition Following address 210 and message 212 information or high speed data 216 Is configured. The sync code word 214 is Type of data sent in batch Is modulated with a modulation format suitable for Allows synchronization with the information sent. In the example shown in FIG. 2B, The sync code word 214 is FM modulation format Modulated by After that, the address 21 is also modulated in the FM modulation format. 0 and message 212 follow. Each send batch is The encoded sync code word Is encoded using A predetermined number of addresses and / or messages, such as 16, Send the sage information code word. As shown, Address 2 of the first receiver 10 and associated message 212 are sent, Then the address of the second receiver It follows that 210 'and associated message 212' are sent. Second Receiver message 212 ' Is Not a normal message information code word, A predetermined “batch” index, As shown in the next send batch 218 ', High-speed message addressed to the receiver Directs the receiver to a send batch where the information is sent. As shown, Batch 2 18 ' Includes high speed message information 216 modulated in a linear modulation format. Get caught Batch 218 ' Begins with sync code word 214 ', This is a message It is used to signal the start of on. This will be explained below. Following the submission of batch 218 ', Send different fast message info in another batch Or Addresses and message information modulated by other conventional modulation methods are Or send Or as shown, Different address and message information Batch transmission can be terminated until the information is ready to be transmitted.   Figure 2C shows The battery saver operation of the dual mode communication receiver of the present invention will be described. It is a timing diagram. First of all, Supplied to the receiver section during time interval 220, Time Applied to the FM demodulator during the interval 222, Modulated by FM modulation format Enables reception of preamble and sync codeword information. For linear demodulator The power supply is Prohibited during time interval 224, Thereby powering the receiver save. When it detects the preamble and sync code word, During time interval 220 ' Is the power supply to the receiver, Power to FM demodulator during time interval 222 ' Supply of hand, Receive additional address and message information sent in the first send batch It In the next send batch, Since it contains high speed data intended for the receiver, time The power supply to the receiver unit is maintained during the interval 230. But, Time interval 22 During 8, the power supply to the FM demodulator is interrupted, Power during the time interval 232. Supplied to the linear demodulator. When high speed data information is received during the time interval 232. Time During the interval 234, the power supply to the receiver unit is interrupted, Straight during time interval 236 The power supply to the line demodulator is interrupted. To the receiver section during time interval 238 Power is reapplied, Power is supplied to the FM demodulator during time interval 240, Message information can be received again in the next sequence of message batch transmission Become Noh.   Summary, Power is periodically supplied to the receiver and FM demodulator, To receiver Addresses and messages using a signaling protocol that provides Allows you to receive sage information. Depending on the message information, High speed data transmission approaching When you are informed The power supply to the FM demodulator is interrupted, Electricity Is fed to a linear demodulator to enable the reception of high speed data. High-speed data transmission By only supplying power to the linear demodulator and the high speed data storage, Linear modulation Compared to receiving all the information in the format, Receiver battery life Can be significantly longer.   An alternative embodiment of the signaling format of the dual mode receiver of the present invention is shown in FIG. 2D. Show. In this example, The information is Low speed modulated with FM modulation format A first channel 250 used to transmit the message information of Linear modulation former Second channel 252 used to transmit high-speed message information modulated with Are transmitted on two channels. The batch of low speed data 204A-206A is It temporally overlaps with the batch of high speed data 204B to 206B. The dual mode of the present invention The receiver is Operates on first channel received message information, Two for this Includes traditional numeric or alphanumeric messages addressed to dual mode receivers. Get caught If you are trying to send a long alphanumeric or voice message , Message indicator information is sent on the first channel, Transmitted on the second channel Aim the dual mode receiver to a given message batch. After receiving the index information so, Dual-mode receiver is a fast message in a given batch identified by the indicator Select a second channel to receive the information. When you receive a fast message, Receiving machine Selects the first channel again. According to an alternative embodiment of the invention shown in FIG. 2D. , All slow message transmissions on the first channel and fast messages on the second channel. By keeping all of the sage transmissions Modulated by FM modulation format Conventional paging receivers that receive Combination with dual mode receiver of the present invention Efficient way of matching is possible Become Noh. by this, Batch conventional signaling format on first channel It can be used to send information from 204A to 206A, Conventional receiver and dual model It can be easily mixed with a receiver.   Figure 3 shows Used to illustrate receiver operation of the dual mode communication receiver of the present invention FIG. 3 is an enlarged electrical block diagram of the present invention. The transmitted information signal is FM modulation fo Modulated in linear or linear modulation format, Captured by antenna 302 To be done. The antenna 302 is This information signal is transmitted to the receiver part 102, For more information Coupling to the input of wave number (RF) amplifier 306. The message information is High bandwidth, UH It is transmitted on suitable RF channels such as the F band and the 900 MHz band. RF The amplifier 306 is Signals received at 930 MHz paging channel frequency etc. A received information signal such as a signal is amplified, The amplified information signal 306A is supplied to the first mixer 30. 8 inputs. In a preferred embodiment of the present invention, frequency synthesizer 31 The first oscillator signal 310A generated by 0 is also coupled to the first mixer 308. The first mixer 308 is The amplified information signal 306A and the first oscillator signal 310A Mix A first intermediate frequency or IF, such as a 45 MHz IF signal, Signal 30 8A is provided. It is coupled to the input of the first IF filter 312. Especially other If an aging channel frequency is used, Use other IF frequencies Please understand that you can also do this. The output of the IF filter 312 is The on-channel information signal 312A, this is It is coupled to the input of the second conversion unit 314. Regarding the conversion unit 314, In detail below explain. The second conversion unit 314 The on-channel information signal 312A, This is also thin Using the second oscillator signal 310B generated by the seizer 310, 455K Mix to a lower intermediate frequency such as Hz. The second conversion unit 314 As a result The amplified intermediate frequency signal, FM demodulator section 108 or linear output section 324 A second IF signal suitable for coupling to either is provided.   The receiver portion 304 is Works in the same way as a conventional FM receiver, Conventional F Unlike the M receiver, In the receiver unit 304 of the present invention, Also the automatic frequency control unit 316 included. The control unit 316 is coupled to the second conversion unit 314, Appropriate second IF signal Sampling, A frequency correction signal 316A is provided. This signal is Frequency thin Coupled to the seizer 310, Keeps the receiver tuned to the assigned channel. Carry. Keeping the receiver in tune is High transmitted in linear modulation format It is especially important for proper reception of high speed data information. First and second oscillator cycles By using a frequency synthesizer to generate the wavenumber, Code memory .Receiver operation for multiple operating frequencies selected by programming, etc. Allows you to make choices. By the frequency correction signal, Automatic frequency control unit 316 Can be adjusted from Other oscillator circuits, such as fixed frequency oscillator circuits that can Please understand that you can   The automatic gain controller 320 also Connected to the second converter 314 of the dual mode receiver of the present invention. Are combined. The automatic gain controller 320 Sampling the second IF signal, Gain fix Providing a positive signal 320A, This signal is coupled to the RF amplifier 306 to be coupled to the RF amplifier 3 Maintain a predetermined gain of 06. The gain correction signal is also Coupled to the second converter 314 hand, The predetermined gain of the second conversion unit 314 is maintained. RF amplifier 306 and second conversion unit Maintaining a gain of 314 is High speed data transmitted in linear modulation format Necessary for proper reception of information, The dual mode receiver of the present invention is different from the conventional FM receiver. Further distinguish.   When the message information is sent in FM modulation format, The second IF signal is FM Coupled to demodulator section 108. This will be described in detail below. FM demodulation The instrument part 108 is Demodulating the second IF signal by a method well known to those skilled in the art, FM modulation fo Binary information corresponding to the received address and message information sent by the format Of the recovered data signal 108A. Recovered data signal 1 08A is It is coupled to the input of microcomputer 106. Microcomputer Data 106 A single data input driver for input / output port or I / O port 328. It functions as a decoder and a controller through the IN. Microcomputer Data 106 Complete operational control of the communication receiver 300 Done, To enumerate some, decipher, Message storage and retrieval, Display control and notification Perform such functions. The microcomputer 106 Preferably manufactured by Motorola Is a single chip microcomputer such as MC68HC05, C for motion control It has a PU 340. The internal bus 330 is one of the operating elements of the microcomputer 106. Connect each. I / O port 328 (shown separately in FIG. 3) micro For computer 106, Battery saver switch 104, audio -Processor 114, Outside the display 111 and the digital storage unit 368 It provides multiple control and data lines that communicate from the subcircuits. Timer 3 A timing means such as 34 is used, Battery saver timing, warning Communication receiver behavior such as the timing of messages and the timing of storing and displaying messages. Generates timing signals required for production. The oscillator 332 is Of the operation of the CPU 340 Becomes a clock, It serves as a reference clock for the timer 334. RAM338 is Communication It is useful in executing various firmware routines that control the operation of the transmitter 300. Used to store the information used, Also, short messages such as numerical messages It can also be used to store pages. In ROM336, Recovered data signal Decoding No. 322A, Control of battery saver, The memory in the digital storage unit 368 Storage and retrieval of messages, general control of pager behavior and message presentation, etc. Including the routines needed for Firmware used to control the operation of the microcomputer 106 -A routine is included. The notification generation device 342 is Solution of FM modulated signaling information An alert signal 106G is provided in response to the reading. Code memory 110 (see FIG. 3 (Not shown) Coupling to the microcomputer 106 through the I / O port 328 To do. Code memory is Preferably, One or more of which the communication receiver 300 responds EEPROM that stores a predetermined address (electrically erasable and programmable Read-only memory).   When the FM modulated signaling information is received, Decoder in a manner well known to those skilled in the art It is decrypted by the microcomputer 106 that functions as. Recovered data Data signal 322A matches any of the predetermined addresses where the information is stored. Then, The information received after that is decrypted, Modulated by FM modulation format Is additional information directed to the receiver? Or in linear modulation format It is determined whether the modulated additional information is destined. Additional information is FM modulated If sent in format, When the recovered message information is received, Within the RAM 338 of the microcomputer or digital as described in detail below. Stored in the storage unit 368, The notification signal 106G is generated by the notification generation device 342. Be done. The notification signal 106G is Coupled to the audio processing circuit 344, This circuit Drive the transducer 346, Send an audible alert signal. Yu User as well, Other forms of tactile or vibrating alerts Perceptual alerts can also be provided.   If the additional information is sent in linear modulation format, Microcomputer 106 decodes the index information. The microcomputer 106 The current batch is Maintains monitoring and decoding of information transmitted in FM modulation format until the end To do. When the current batch ends, The power supply to the receiver is Then assigned Interrupted until it reaches the batch identified or the batch identified by the indicator, During this time High speed data is sent to. The microcomputer 106 I / O port 32 Through 8. A battery saving control signal 106D is generated. This signal is Combined with the saver switch 104, Stop power supply to FM demodulator 108 Then Linear output unit 324 A quadrature demodulator 350 and a digital storage 368 Power is supplied to the line demodulator 112. This will be described in detail below.   The second IF output signal carrying the high speed data information is It is coupled to the linear output section 324. The output of the linear output unit 324 is Right angle detector 350, For details, enter the third mixer 352. Combined with power. The third local oscillator is also coupled to the third mixer 352, This is preferred It is in the range of 35 to 150 KHz. However, other frequencies are used in the same way. It should be understood that it can be used. The signal from the linear output section 324 is Third Mixed with the local oscillator signal 354, Output of the third mixer 352 At, the third IF signal is generated. This signal is coupled to the third IF amplifier 356 It The third IF amplifier is It is a low gain amplifier that buffers an output signal from an input signal. The third output signal is Connects to I channel mixer 358 and Q channel mixer 360. Are combined. The I / Q oscillator 362 is Set the quadrature oscillator signal at the 3rd IF frequency Ke This signal is the third output of the I channel mixer 358 and Q channel mixer 360. Mixed with the force signal, At the output of the mixer, the baseband I channel signal and Q channel A channel signal is provided. The baseband I-channel signal is To the low pass filter 364. Combined, The baseband Q channel signal is coupled to low pass filter 366. , One pair representing a stream of a pair of information codes corresponding to encoded high speed data information The baseband audio signal of is provided.   The stream of information code pairs is A digital storage unit 368, For details, see analog-digital Coupled to the input of a Tal (A / D) converter 370. The A / D converter 370 is One pair The information code of 364, Less of the highest frequency component (unit Hz) of the output of 366 Both are sampled at twice the speed. I, 3km encoded on the Q channel Regarding Ruth's voice information, The sampling rate is preferably I, 6 for each Q channel Kilohertz or 12 KHz in total. The data sump shown here Ring speed is just an example, Depending on the speed at which the message information was originally encoded Is Other Sampling It should be appreciated that the guling speed can be used.   During batches where high speed data is being sent, The microcomputer 106 Issue a count enable (operational) signal 106A, This is Address Cow Interface 372. The A / D converter 370 also becomes operable, Information code Pair sampling is performed. The A / D converter 370 is High speed sample clock Generate signal 370A, This synchronizes (clocks) the address counter 372. Used to Further, the sampled information code pair is sent to the data line 37. To load dual port random access memory 374 through 0B Are sequentially generated. High speed dual port RAM 374 in real time The coded information code pair is After all high speed data is received, Is processed by the data 106, This makes the microcomputer 106 real Energy consumption is significantly reduced since there is no need to process information in time. My The black computer 106 Data line 106C and address line 1 Access the stored information code pair through 06B, Further preferred embodiments of the present invention In the example, Process the information code pairs, ASC when alphanumeric data is sent II encoded information, CVSD encoded if voice data was sent Generate data. BCD data format for numeric messages, sound LPC coded data format for voice messages Other data formats such as formatting can be used as well. AS CII coded data or CVSD coded data is By the user of the communication receiver Until information is requested Stored in dual port RAM. Stored A The SCII encoded data is Select and read stored messages Recovered by the user using a switch (not shown). Stored AS When reading a CII encoded message, The user selects the message to read Select Activate the reading switch, The microcomputer 106 sends the data Recovered, The recovered data 106E is displayed on the display 111 such as a liquid crystal display. To be able to present to. When reading a CVSD encoded message, You The selects the message to read, Activate the reading switch, Microcon Computer 106 recovers data from dual port RAM, Recovered data 106 Allow E to be presented to audio processor 114. Processor 114 Is Functions as a CVSD decoder, Converts digital voice information into analog voice signals In exchange, This signal is coupled to the speaker 116 to give a voice message to the user. To present. The microcomputer 106 The frequency selection signal 106H is also generated. But This signal is coupled to the frequency synthesizer 310, Different as mentioned above Allows selection of operating frequency.   Figure 4 shows Battery Section of Dual Mode Communication Receiver of the Present Invention It is an electric block diagram which shows the detail of a function. The microcomputer 106 Ba Battery saver control signal 106 coupled to battery saver switch 104. Control the battery saving operation of the communication receiver through D. Battery saver switch The switch 104 Electric power is supplied to the receiver unit 102 via the receiver supply line 104A, straight To the right angle detector 350 via the angle detector supply line 104B, Digital storage supply In the digital storage unit 368 via the line 104C, FM demodulator supply line 104 FM recovery including a data limiter 380 coupled to FM demodulator 322 via D. In the tuning unit 108, The linear output unit 324 is connected via the linear output supply line 104E. Power can be selectively supplied to the. Selective power supply to each receiver section The switching elements are well known, To list a few, Transistor switch Switch and switching current source reference. Microcomputer 1 06 is RF amplifier 306, The first mixer 308, Frequency synthesizer 310, I F filter 312, The second mixer 382, Second IF amplifier 384, Automatic gain controller Power to receiver section 102 including elements such as 320 and automatic frequency control section 316 Supply and Power to FM demodulator 108 during transmission of FM-modulated message information. Control power supply. The microcomputer 106 also Linearly modulated message The receiver unit that is transmitting sage information, Power to linear demodulator and digital storage It also controls supply. Microphone The computer 326 also During processing or storage of stored fast message information It also controls the supply of power to the digital storage during the reading of the stored message. Summary, The battery saver switch 104 is Microcomputer 10 Under control of 6, Only power circuits currently used to receive or process information. Pay This minimizes the energy consumption of the battery.   5A and 5B show The operation of the dual mode communication receiver of the present invention will be described. It is a flowchart. In Figure 5A, User powers on receiver in step 500 Then In step 502, the microcomputer is initialized, Battery saving The routine becomes operational. Power is supplied to the receiver in step 504, further In step 506, it is also supplied to the FM demodulator section, Preamble search and acquisition rules Routine is started. Information received by the decoder on the channel in step 508 To monitor A preamble signal, Or others that can get bit synchronization Search for signals. In step 508, Preamble signal or other signal If not detected within the given search window time interval, Micro in step 510 The computer interrupts the power supply to the receiver and FM demodulator, Step 5 At 12, the battery save routine is returned until the next time interval. At the next time interval, Power is It is supplied again to the receiver and the FM demodulator.   When the preamble is detected in step 508, This technology In the known way, bit synchronization can be obtained, Step 514: Microcomputer The synchronous code word acquisition routine is started with. Within a predetermined time interval in step 514 If no sync code word is found, The microcomputer starts in step 510 By interrupting the power supply to the receiver and FM demodulator, In step 512, Next time Return to the battery saving routine until the interval. In the next time interval, Power again with the receiver It is supplied to the FM demodulator.   In step 514, the sync code word corresponding to the batch to which the receiver is assigned is detected. When issued, The microcomputer receives the address and message information To monitor The address and message addressed to the receiver in step 516 Allow it to be detected. If the address is not found in the current batch, micro The computer, in step 514, Monitor the received signal for sync code words. You   When the address is detected in step 516, Microcomputer Step Evaluate the next received codeword at step 518, Message information being sent Is slow message information, Determine if it is high-speed message information. The information sent is For slow message information, The microcomputer in step 520, Co Information from the local memory, Whether the received address is a data address, Or, it identifies whether the address is a tone only. Address is data in step 520 ・ In case of address, The message following the address The message information is stored in step 522, Message received by user Warning is given. In step 520, the address is the tone-only address. Identified as The user is given a warning that the page was received. Be done. In step 522 or 524, After receiving and processing the message, If no other information is received in the current batch, then in step 510 the microcomputer Pewter Return to the battery saving routine, Stop the power supply to the receiver .   In step 518, By the information received in the first modulation format, Fast day Data message indicates that it should be received in the second modulation format, The microcomputer decodes the data index in step 526 of Figure 5B. Present When the end point of the current batch is detected, Power supply to the FM demodulator in step 528. Salary is interrupted. In step 530, Microcomputer on second channel Determine whether high speed message information is sent. Fast message on the second channel If a sage is sent, At step 532, the second channel is selected. Ste If the second channel is not selected at step 530, Or select in step 532. If done, The power is then During the batch indicated by the index in step 534, Supplied to a linear demodulator, In step 536, the data is supplied to the digital storage unit. Step In 538, Microcomputer has address counter and D / A Send an enable signal to the converter, This results in step 540 Received data It enables high speed sampling and storage of data. Message in step 540 When the end point (EOM) character is received, Or a certain number of message Received, A message was received for the user in step 544 Be informed. In step 546, the microcomputer Pair with linear demodulator Stop the power supply. While the high speed data received is being processed, Power is Maintained in digital storage. Once the fast message information processing is complete, Step In step 548, the power supply to the digital storage unit is interrupted. In step 550 , Microcomputer selects second channel for fast message information reception It is determined whether it has been done. If the second channel is selected in step 550, Ma The microcomputer reselects the first channel in step 552. Step When the first channel is selected at 550 or 552, Microcomputer is first Return to the normal battery saving routine at step 512 in FIG. 5A.   that's all, Receives addresses and messages sent in FM modulation format Can In addition, a linear modulation signal on the same or different radio frequency channels Dual mode capable of receiving high speed data messages sent on the mat The receiver was described. This dual mode receiver is FM demodulator, Linear demodulator and Digital storage Has a battery saving function that controls the power supply individually, FM modulation mode Minimize the supply of power consumed during normal receiver operation. High speed messe Message is being received, The digital memory is a high-speed message in real time. Sample and store the page information, The information stored after that is It is processed by a computer decoder and prepared for the display of information.   While a particular embodiment of the present invention has been shown and described, For those skilled in the art, further improvement and And improvements may be possible. Maintain the basic underlying principles disclosed and claimed herein. All the improvements we have are Within the scope and spirit of the invention

─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Schwendman, Robert Jay             Pompano Bee, Florida, United States             Chi, S & E Tenth Avenue             590

Claims (1)

[Claims]   1. Receives information transmitted in the first and second modulation formats on the common channel Means to believe;   First means for detecting information transmitted in a first modulation format on a common channel ;and   In response to the information detected in the first modulation format, in the second modulation format Second means for detecting transmitted information;   A dual-mode communication receiver characterized by being configured by.   2. The first modulation format is frequency shift key FM modulation. Dual mode selective call receiver.   3. The duplex of claim 1, wherein the second modulation format is a linear modulation format. Mode communication receiver.   4. Information transmitted in the first modulation format is transmitted in the first signaling format A dual mode communication receiver as claimed in claim 1.   5. Information transmitted in the second modulation format is transmitted in the second signaling format A dual mode communication receiver as claimed in claim 1.   6. Receives information transmitted in FM and linear modulation formats Means to believe;   First to detect information transmitted in FM modulation format Means; and   In response to the information detected in FM modulation format, in linear modulation format Second means for detecting transmitted information;   A dual-mode communication receiver characterized by being configured by.   7. Information transmitted in FM modulation format is transmitted in the first signaling format 7. A dual mode communication receiver as claimed in claim 6.   8. Information transmitted in linear modulation format is transmitted in the second signaling format 7. A dual mode communication receiver as claimed in claim 6.   9. Receives information transmitted in the first and second modulation formats on the common channel Means to believe;   First means for detecting information transmitted in a first modulation format on a common channel ;   In response to the information detected in the first modulation format, in the second modulation format A second means for detecting the transmitted information; and   Powering said receiving means to transmit in first and second modulation formats Third means for enabling reception of the received information, further supplying power to said first means To enable the detection of information transmitted in the first modulation format. Responsive to the information detected on the mat, powering the second means to Send in 2 modulation formats Said third means enabling detection of the stored information;   A dual-mode communication receiver characterized by being configured by.   10. Information transmitted in FM and linear modulation formats Means of receiving;   First means for detecting information transmitted in FM modulation format;   In response to the information detected in FM modulation format, in linear modulation format A second means for detecting the transmitted information; and   Powering the receiving means and transmitting in FM and linear modulation formats Third means for enabling reception of the received information, further supplying power to said first means To enable detection of information transmitted in FM modulation format, Responsive to the information detected on the mat, power is applied to the second means to directly Said third means enabling detection of information transmitted in a linear modulation format;   A dual-mode communication receiver characterized by being configured by.