Abstract: A portable communication unit (120) capable to communicating on a plurality of communication channels. The portable communication unit (120) includes a method for selecting one of an at least two fixed communication units (102) for communicating therewith.

Abstract: A selective call signaling system (10) capable of facsimile communication with a selective call receiver (40) having an active addressing display (100) comprising picture elements (pixels) (108) controlled by a plurality of first and second electrodes (106, 104). A data compressor (12) compresses the data. A transmitter (30) transmits the compressed data organized in frames to the selective call receiver (40). The selective call receiver (40) comprises a receiver (60) receiving the compressed data; the active addressing display (100) displaying the compressed data. The active addressing display (200) comprises a controller (500) controlling the plurality first electrodes (106) by a plurality of periodic first drive signals (400) represented as a sequency ordered Walsh Hadamard transform (WHT) matrix (300) and the plurality of second electrodes (104) by a plurality of second drive signals responsive to the compressed data.

Abstract: A selective call base station (100) for receiving a signal comprising a plurality of communication signals has an Analog-to-Digital (A/D) converter (220) for digitizing the signal. A memory (204) for storing the signal as a plurality of digitized bits (502-518), and a Digital Signal Processor (DSP) (218) for converting each of the plurality of digitized bits (502-518) into a frequency domain signal (FIG. 6) that has a plurality of frequency samples. The memory (204) stores the plurality of frequency samples corresponding to each of the plurality of digitized bits (502-518). A decoder (206, 218) decodes the plurality of communication signals from the plurality of frequency samples. The decoder (206, 218) further includes a generator (718) for generating a window (902) for measuring energy of at least one frequency sample of the plurality of digitized bits (502-518) in each of the plurality of communication signals.

Abstract: A selective call receiver (5) comprises receiver circuitry (14) for receiving a message, a display (22) for displaying a key pad arrangement (70) and for displaying the received message in a message display area (68). A microcomputer (20) and user controls (12) interact with the key pad arrangement (70) to modify the received message. A method of displaying the received message comprises the steps of displaying the key pad arrangement (70) and interacting with the key pad arrangement (70) so as to modify the message or add a new message.

Abstract: An electronic greeting card communication system (100) includes a first personal communicator (102), an electronic mail server (136), and a second personal communicator (102). The first personal communicator accepts off-line selection of an electronic greeting card from a user (502), and then transmits a request message corresponding to the off-line selection. The electronic mail server (136) receives the request message and then wireless transmits an electronic greeting card message to the second personal communicator (102) and updates billing information (620) for billing the user of the first personal communicator (102). The second personal communicator (102) selectively receives the wireless transmitted electronic greeting card message and presents it to a user.

Abstract: A selective call communication system (10) has a scanner (14) for retrieving information from a source document (26). The source document (26) includes a region of interest (42) formatted in at least two format regions (50, 52, 54). The at least two format regions (50, 52, 54) include a first format region (50, 52) designated for a first type information, and a second format region (54) designated for a second type information. The scanner (14) further includes an encoder (708) for encoding and compressing the information; and a modem (710), coupled to the encoder (708), for transferring the information to a selective call terminal (28). The selective call terminal (28) has a receiver (202) for receiving the information; and a processor (20), coupled to the receiver (202), for processing the information.

Abstract: An apparatus and a method therefor is capable of automated and/or robotic assembly. The apparatus includes a vacuum nozzle (201) for aspirating and securing a component (202, 204). A spring (312) mechanically coupled to the vacuum nozzle (201) provides a variable spring force thereto in a direction of a placing operation (214, 216). The variable spring force varies in response to the vacuum nozzle (201) moving linearly along an axis of the placing operation (214, 216). The variable spring force corresponds to a variable placement force applied by the vacuum nozzle (201) to the component (202, 204). A linear position sensor (110) coupled to the vacuum nozzle (201) senses a variable linear position of the vacuum nozzle (201). The apparatus adjusts the variable placement force applied by the vacuum nozzle (201) to the component (202, 204) by varying the variable linear position of the vacuum nozzle (201).

Abstract: A selective call communication system (100) includes a scanner (14) for retrieving information from a source document. (26) The source document (26) has the information being located relative to at least three markers (50-54). The scanner (14) further includes an encoder (34) for encoding and compressing the information; and a modem (36), coupled to the encoder (34), for transferring the information and the at least three markers (50-54) to a selective call terminal (28). The selective call terminal (28) includes a receiver (202) for receiving the information and the at least three markers (50-54); and a processor (20) for processing the information and the at least three markers (50-54). The processor (20) further includes a marker locator (204) for searching for the at least three markers (50-54); and a determinator (216), coupled to said marker locator (204), for determining a location of the information.

Abstract: A selective call communication system (100) includes an encoder (508) for encoding and compressing the data to form compressed data, and a controller (22) for transferring the compressed data to a selective call terminal (28). The selective call terminal (28) includes a receiver (302) for receiving the compressed data. A region detector (308) for recovering the compressed data within a predefined information region (42) and a processor (20) for processing the compressed data. The processor (20) includes an identifier (310) for identifying white spaces in the compressed data and an eliminator (312) for eliminating the white spaces being identified. A transmitter (30) for transmitting the compressed data being processed to at least one selective call receiver (40).

Abstract: A selective call receiver system (150, 200) includes a base site (150) which transmits paging information (100) having a plurality of batches (1-to-N). The base site (150) comprises timer (266) for calculating a time between a first of the at least two successive paging transmissions, and counter (266) for counting a number of batches to be transmitted in the at least two successive paging transmissions. A base site processor (254), coupled to the timer/counter (266), processes the paging information. The base site processor (254) comprises encoder (262) for encoding a portion of the first of the at least two successive paging transmissions with the calculated time and the number batches to be transmitted in the first paging transmission. A base site transmitter (252), coupled to the base site processor (254), transmits the at least two successive paging transmissions according to the calculated time to a plurality of selective call receivers (200).

Abstract: A selective call receiver (200) includes a receiver (204) receiving paging signals including a preamble, a synchronization codeword, and at least address information. A controller (206) controlling a supply of power to the receiver for receiving the paging signals. A synchronization obtaining circuitry (404, 406, 224), coupled to the receiver (204), obtains synchronization to the paging signal. The synchronization obtaining circuitry (404, 406, 224) includes a baud rate detector and synchronization codeword detector, coupled to the baud rate detector, detects the synchronization codeword. An address decoder, responsive to the synchronization codeword being detected, decodes the address information. A synchronization maintaining circuitry (404, 408, 224) maintains synchronization to the paging signals during address decoding. The synchronization maintaining circuitry (404, 408, 224) includes circuitry for enabling the power switch (210) which enables the receiver (204) for receiving the paging signals.

Abstract: A radio receiver (50) for establishing a message debiting system has a receiver (54) for receiving message information and a memory (104) for storing the received message information to be presented to a user of the radio receiver (50). The radio receiver (50) includes a debit meter (72) which indicates a number of available credit units for enabling the presentation of the stored message information. The stored message information is processed a decoder/controller (56) and a number of debit units is calculated from a parameter of the stored message information. The number of debit units of the stored message is debited from the indicated number of credit units of the debit meter to enable the presentation of the stored message information. The stored message is disabled from being presented to the user when the number of available credit units of the debit meter (72) is depleted.

Abstract: A selective call receiver receives a selective call signal (400) comprising a preamble signal (410). The selective call receiver comprises receiver circuitry (102) for receiving and demodulating the selective call signal (400). A preamble detector (105) is coupled to the receiver circuitry (102) for detecting the preamble signal (410), and a battery saver circuit (126) selectively activates and deactivates the receiver circuitry (102) in response to a signal from a processor (114). The processor (114) provides the signal to the battery saver circuit (126) to deactivate and activate the receiver circuitry (102) during reception of the preamble signal (410) in response to and subsequent to the preamble detector (105) detecting a portion of the preamble signal (410).

Abstract: A selective call receiver (200) includes a receiver (204) which receives paging signals, the paging signals have a preamble (102), a synchronization codeword (104), and at least an address information (108, 110). A synchronization obtaining circuit (206), coupled to the receiver (204), obtains synchronization to the paging signal. The synchronization obtaining circuit (206) has a preamble detector (404) which detects preamble (102), a synchronization codeword detector (406), responsive to the preamble being detected, detects the synchronization codeword (104), and address decoder (408), responsive to the synchronization codeword being detected, decodes the address information (108, 110). A synchronization maintaining circuit (224, 408) maintains synchronization to the paging signals during the address decoding, and a baud rate detector (224) detects valid and invalid baud rates during address decoding.