Patent application number | Description | Published |
20080240768 | Image Forming Apparatus and Image Forming Method - An image forming apparatus, includes: an image forming section that forms a toner image and transfers the toner image to a recording material at a predetermined transfer position; a fixing unit that heats the toner image on the recording material at a predetermined fixing position and fixes the toner image to the recording material; a transporter that transports the recording material along a transportation path including a path extending from the transfer position to the fixing position; a heat absorber that is located on the transportation path at a place downstream of the fixing position and absorbs a heat from the recording material; a pre-heater that is located on the transportation path at a pre-heating position upstream of the transfer position and pre-heats the recording material passing through the pre-heating position; and a heat transfer unit that transfers a heat energy obtained by the heat absorber absorbing the heat to the pre-heater. | 10-02-2008 |
20130050335 | LIQUID EJECTING APPARATUS - An ink jet printer includes a movable carriage supporting a recording head, a cam member adjusting the height position of the carriage to adjust the distance between the paper and the recording head, a cap member that can abut the recording head, and an engagement member that can engage with the carriage in a case where the carriage moves from a printing area to a head opposing position. The cam member adjusts the height position of the carriage when the distance between the paper and the recording head is between a first distance in which the carriage does not engage with the engagement member and a second distance in which the carriage engages with the engagement member. The carriage is decelerated while moving, and the deceleration timing is earlier for the second distance than for the first distance. | 02-28-2013 |
20130070023 | RECORDING APPARATUS - A recording apparatus includes a recording head and a carriage. The carriage includes a slide member that is provided so that the position of the slide member relative to a carriage body is changeable in a direction where a gap between the recording head and a medium changes, and moves together with carriage body in the scanning direction, a gap adjusting cam that is interposed between the slide member and the carriage body, and, upon reception of the dead weight of the carriage, changes in the scanning direction relative to the slide member and the carriage body to change the gap, and a restriction section that restricts at least one of expansion of the interval between the carriage body and the gap adjusting cam and expansion of the interval between the gap adjusting cam and the slide member in such a way as to keep a predetermined gap. | 03-21-2013 |
20130083125 | RECORDING APPARATUS - An ink jet printer includes a carriage that includes a recording head which performs recording on a medium and is movable in a scanning direction of the recording head, a first sliding portion that is provided so as to be able to displace a relative position to a carriage main body in a direction in which a gap between the recording head and the medium changes and moves in the scanning direction together with the carriage, a guide member with which the first sliding portion makes contact and that is provided so as to extend in the scanning direction, and a gap adjusting unit that adjusts the gap by adjusting a position of the carriage main body relative to the first sliding portion. | 04-04-2013 |
20140368576 | LIQUID EJECTING APPARATUS - Provided is a liquid ejecting apparatus including a main body frame that has a main guiding member which has a sliding surface and enables a carriage to move in a scanning direction in a state where the carriage is mounted thereon, and a slide body which has a cap member which can abut on a liquid ejecting head to surround nozzles in such a manner that the slide body moves along with the carriage in a state where an abutment portion which can abut on the carriage abuts on the carriage, in which the carriage has a connection portion in which the carriage is connected to a movement mechanism which moves the carriage in the scanning direction. | 12-18-2014 |
Patent application number | Description | Published |
20080267021 | Recording method, optical disk, reproduction method, and recording/reproduction device - A wide test region is ensured in an optical disk and the number of repeated recording instances is suppressed so that the optical disk is made insusceptible to damage and the test region can effectively be utilized. In an optical disk which includes a plurality of recording layers each having a power adjustment region for performing adjustment of power of a beam emitted while the data is recorded and in which the data can be rewritten in each recording layer, when, in performing the adjustment of power while the data is recorded, a region between a first power adjustment region that is a power adjustment region in a first recording layer and a second power adjustment region that is a power adjustment region in a second recording layer provided at a position that is more apart than that of the first recording layer from a plane from which the light beam enters becomes smaller, along a radial direction of the optical disk, than a predetermined size, a utilized region, in one of the first power adjustment region and the second power adjustment region, which is larger than that in the other is erased. | 10-30-2008 |
20080291798 | OPTICAL DISC RECORDING METHOD AND OPTICAL DISC - A recording method for an optical disc having at least three recording layers ( | 11-27-2008 |
20080298195 | Optical recording method and optical recording device - To adjust the parameters of a write strategy for recording data on an optical recording medium, the jitter value of a reproduced signal obtained from recorded data is detected. If the jitter value exceeds a prescribed threshold, a write strategy parameter having a comparatively small effect on the jitter value is adjusted, and subsequent data are written on the recording medium using the adjusted parameter. Parameters are selected for adjustment in ascending order of their effect on the jitter value. Stable data recording can thereby be carried out without significant jitter degradation. | 12-04-2008 |
20090073846 | OPTICAL RECORDING MEDIUM, OPTICAL RECORDING DEVICE, AND OPTICAL RECORDING AND REPRODUCING DEVICE - An optical recording method and optical recording device using a multi-pulse write strategy to record on an optical disc by recording a signal (S | 03-19-2009 |
20100014401 | OPTICAL DISC RECORDING METHOD AND OPTICAL DISC - A recording method for an optical disc having at least three recording layers ( | 01-21-2010 |
20100315921 | OPTICAL RECORDING METHOD AND OPTICAL RECORDING DEVICE - In a recording method for recording information on an optical recording medium ( | 12-16-2010 |
20110038239 | OPTICAL DISC APPARATUS AND RECORDING METHOD - A recorded area is reproduced during a suspension of a recording operation; when degradation of the recorded signal is detected (S | 02-17-2011 |
20110128836 | OPTICAL RECORDING METHOD AND OPTICAL RECORDING DEVICE - In a dye-type optical recording medium, a write strategy for use in recording is determined based on recommended write strategy parameters recorded on an optical disk ( | 06-02-2011 |
20110235482 | OPTICAL INFORMATION PROCESSING METHOD AND OPTICAL INFORMATION PROCESSING APPARATUS - An optical information processing method and apparatus performs a light irradiating and receiving step, a signal processing step, and an adjusting step of a spherical aberration and a focus offset on the basis of shift amount of first and second control devices and a performance evaluation value. The performance evaluation values for first, second, third and fourth points in an x and y coordinate system are detected, in which an x-coordinate is one of the shift amount of the first control device and the shift amount of the second control device and a y-coordinate is the other, the first point, second and third points having the same y-coordinate and different x-coordinates with each other, the fourth point being provided on a first straight line passing through the first point and being different from the first point. | 09-29-2011 |
20110317534 | OPTICAL DISC REPRODUCTION POWER SETTING METHOD, OPTICAL DISC REPRODUCTION METHOD, AND OPTICAL DISC DEVICE - According to a method for setting the laser beam power applied to reproduce information recorded on an optical disc, information recorded in a region on the optical disc is reproduced using three or more test reproduction powers (S | 12-29-2011 |
20120002523 | OPTICAL RECORDING DEVICE AND METHOD - Before new information is recorded on a comparatively deep recording layer in a multilayer optical recording disc, a predetermined target value of a reproduced signal parameter is read from the disc itself or from a separate storage unit, the recorded/unrecorded states of the shallower recording layers are determined, and the target value is corrected on the basis of these states. The correction is based on a predetermined difference in the value of the reproduced signal parameter caused by a difference in the recorded/unrecorded states of the shallower recording layers. The corrected target value is used in calibration of the recording power by means of a test write. This correction of the target value permits reliable recording on a multilayer optical disc without delaying the start of the recording process. | 01-05-2012 |
20120033536 | OPTICAL RECORDING METHOD AND OPTICAL RECORDING DEVICE - In an optical recording method, recording parameters (WU) to be used for recording are obtained using recommended recording parameter values (WR) read from an optical recording medium and previously obtained vector information (PC) and approximation coefficients (Ca, Cb) (S | 02-09-2012 |
20130044576 | OPTICAL RECORDING/REPRODUCTION METHOD AND OPTICAL RECORDING/REPRODUCTION DEVICE - An optical recording/reproduction method and device that can perform control for optimizing the amount of spherical aberration in a multilayered optical disc in a short period of time. When the objective lens is displaced in the focusing direction, the amplitude value of the focusing error signal detected just after leaving the focal position of a given first recording layer and the amplitude value of the focusing error signal detected just before passing through the focal position of a given second recording layer other than the first recording layer are measured with a particular spherical aberration, the amplitude ratio of amplitude values is calculated, the difference between spherical aberration and the optimal spherical aberration for the second recording layer is approximated as a function of the amplitude ratio, the optimal spherical aberration is calculated on the basis of this approximation, and the spherical aberration is set. | 02-21-2013 |
20140355403 | OPTICAL INFORMATION PROCESSING APPARATUS AND OPTICAL INFORMATION PROCESSING METHOD, AND ADJUSTMENT DEVICE, ADJUSTMENT METHOD, AND ADJUSTMENT PROGRAM FOR OPTICAL INFORMATION PROCESSING APPARATUS - An optical information processing apparatus includes: a unit that radiates light onto an optical disc and detects the reflected light to output a reproduced signal; a unit that corrects spherical aberration of the light; a unit that adjusts a focus position of the light based on a focus adjustment value; and an adjustment unit that measures a characteristic of the reproduced signal at each of at least three positions on each of at least three straight lines on a plane with coordinate axes representing an amount of spherical aberration correction and focus adjustment value, obtains, from the measurements, as estimated positions, at least five positions on the plane at which the characteristic has substantially the same value, performs an ellipse approximation on the estimated positions, obtains a center of the ellipse, and determines the amount of spherical aberration correction and focus adjustment value based on the center of the ellipse. | 12-04-2014 |
Patent application number | Description | Published |
20110130110 | Receiver circuit adapted to communication apparatuses operative with different power voltage range - A LIN receiver includes a voltage divider that divides an input voltage and outputs the divided voltage, and a peak hold circuit that outputs a peak voltage of the input voltage. The LIN receiver is configured to generate a threshold voltage to be used for determining a voltage signal of a communication bus. The threshold voltage is generated from a voltage signal of the communication bus such that the peak value of the voltage signal (i.e., equivalent to a battery voltage) is held by the peak hold circuit and divided by the voltage divider. Although the communication bus is connected to an on-vehicle battery of which voltage varies with time, by using the voltage signal of the communication bus, a 5V system ECU can generate a threshold voltage which varies responding to the variation of the battery voltage. Hence, the voltage signal can be determined correctly as either high or low level. | 06-02-2011 |
20110158258 | Communication signal processing apparatus and communication apparatus - A communication signal processing apparatus includes: a transmitted-signal processing unit which, in accordance with a transmitted signal outputted from a communication control apparatus, transmits a communication signal indicating “dominant” via the communication line by applying a current to a communication line, and transmits a communication signal indicating “recessive” via the communication line by not applying a current to the communication line; and a received-signal processing unit which determines whether the communication signal received via the communication line indicates “dominant” or “recessive”, then outputs a received signal indicating the determination result to the communication control apparatus. The received-signal processing unit outputs a signal indicating “recessive” to the communication control apparatus as the received signal, regardless of the communication signal received via the communication line, during a signal-keeping period of time from the time when detecting a change from “dominant” to “recessive” based on the communication signal received via the communication line. | 06-30-2011 |
20110293036 | Communication signal generating device and communication apparatus for use in communication system - The communication signal generating device is for use in a communication system where communication signals each of which is set at a first level or a second level are exchanged among a plurality of communication apparatuses through a communication line. The communication signal generating device includes a switching element provided in a communication line to connect the communication line to a ground or a constant voltage source, and a driving means to generate a first communication signal at the first level by turning on the switching element to thereby pass a certain current to the communication line, and generate a second communication signal at the second level by turning off the switching element to thereby pass no current to the communication line. The driving means is configured to gradually increase an output impedance of the switching element during one bit time of the first communication signal. | 12-01-2011 |
20120004810 | Vehicle-use safety control apparatus - The vehicle-use safety control apparatus is configured to operate on electric power supplied from a vehicle battery mounted on a vehicle through at least one of a first electric power supply path interposed with an ignition switch of the vehicle, and a second electric power supply path interposed with a changeover switch. The vehicle-use safety control apparatus includes a running state information acquiring means to acquire running state information on whether the vehicle is running or stopped, and a switch control means to change an on/off state of the changeover switch in accordance with the running state information received from the running state acquiring means. | 01-05-2012 |
20120084378 | Communication system, master node, and slave node - A slave node communicably coupled to a master node via a bus determines determine whether an active communication mode or a passive communication mode is started based on a header transmitted from the master node. The slave node transmits the header and an ID subsequent to the header when it is determined that the active communication mode is started based on the received header. The ID requests active transmission of a response required to be transmitted in the active communication mode upon the slave node having the response. The slave node monitors arbitration on a bus, and transmits the response subsequent to the ID when the slave node wins the arbitration on the bus between the ID transmitted from the slave node and another information transmitted from another slave node communicably coupled to the master node via the bus based on a result of the monitor. | 04-05-2012 |
20120290753 | CONNECTION METHOD FOR BUS CONTROLLERS AND COMMUNICATION SYSTEM - A connection method for bus controllers is provided which includes using a logic circuit in which if both signal levels of two input terminals are recessive, a signal level of an output terminal becomes recessive, and if at least one of the signal levels of the two input terminals is dominant, a signal level of the output terminal becomes dominant, defining one of the two bus controllers, which are subject to one-on-one connection, as a first controller, defining the other of the two bus controllers as a second controller, connecting a transmitting terminal of the first controller to one of the two input terminals of the logic circuit, connecting a transmitting terminal of the second controller to the other of the two input terminals of the logic circuit, and connecting receiving terminals of the first and second controllers to the output terminal of the logic circuit. | 11-15-2012 |
20120314738 | TRANSCEIVER FOR COMMUNICATING SIGNAL ENCODED TO INCLUDE CLOCK INFORMATION - In a transceiver, a clock generator generates a second clock synchronized with a first clock. The second clock has a period corresponding to a duration of one bit of a digital signal. When first transmission data is supplied to the transceiver with being asynchronous to the second clock, a sampling timing generator detects start data of the first transmission data as a start timing, and generates sampling timings based on the first clock in response to the start timing. The sampling timings have intervals each of which is defined to correspond to the period of the second clock. The first sampling timing is spaced from the start timing. A sampling module samples, at each of the sampling timings, the first transmission data, thus generating second transmission data synchronized with the second clock. | 12-13-2012 |
20130034132 | TRANSCEIVER - An encoding circuit encodes a NRZ code into a transmission line code. A decoding circuit decodes the transmission line code into a NRZ code. If an operation-mode specified by a setting signal is a normal-mode, a transmission switching circuit provides transmit-data received from an input terminal to the encoding circuit to output the encoded transmit-data as communication-data from a communication terminal. If the operation-mode is a sleep-mode, the transmission switching circuit outputs the transmit-data received from the input terminal as the communication-data from the communication terminal. If the operation-mode specified by the setting signal is a normal-mode, a reception switching circuit provides the communication-data received from the communication terminal to the decoding circuit to output the decoded communication-data as receive-data from an output terminal. If the operation-mode is a sleep-mode, the reception switching circuit outputs the communication-data received from the communication terminal as the receive-data from the output terminal. | 02-07-2013 |
20130067129 | COMMUNICATION SYSTEM AND SLAVE NODE - In a slave node, a signal processor stores therein wakeup information uniquely defined for the slave node. The signal processor includes a writing unit configured to write the wakeup information into the transceiver at a given timing. A transceiver includes a memory. The wakeup information is written into the memory to be held therein. The transceiver includes a wakeup determiner. The wakeup determiner compares information received via the communication bus with the wakeup information held in the memory if the slave node is operating in the sleep mode, and determines whether the slave node should shift to the wakeup mode according to a result of the comparison. | 03-14-2013 |
20130151660 | DELAY SYSTEM, DELAY DEVICE AND COMMUNICATION DEVICE CONSTITUTING DELAY SYSTEM - A delay system which has a communications device connected to a communications network and a relay device which is connected between the communications network ad an external device. The relay device is configured to divide data received from the external device into a plurality of data fragments each containing divided data, and send a sequence of messages, the messages corresponding to the respective divided data and dummy messages being included in the sequence of messages according to a communications rule. The communications device is configured to reconstitute the data from the external device on the basis of the message group from the relay device according to the communications rule. | 06-13-2013 |
20130185766 | COMMUNICATIONS RELAY APPARATUS - A communications relay apparatus for relaying communications between an electronic control unit (ECU) connected to the apparatus via an in-vehicle local area network (LAN) and an external device connected to the apparatus via a communication path different from the in-vehicle LAN. In the apparatus, a data transfer unit forwards relay data received from the ECU to the communication path and forwards relay data received from the external device to the in-vehicle LAN. But the data transfer unit is inhibited from forwarding reprogramming data for reprogramming the ECU received from the external device to the in-vehicle LAN. An authentication unit authenticates a vehicle user, and when the vehicle user is successfully authenticated, then permits the data transfer unit to forward the reprogramming data to the in-vehicle LAN. | 07-18-2013 |
20130326255 | COMMUNICATION SYSTEM - A communication system includes a plurality of nodes performing communication via a common communication channel based on a communication protocol and including a first node or a second node. The first node transmits, to the communication channel, a wake-up frame as the communication frame for enabling the second node to transition from a sleep state to a normal state, determines whether or not the second node transitions to the normal state due to the wake-up frame, and generates an abnormal waveform pattern in the communication channel when determined that the second node does not transition to the normal state. The second node stores the identification information allocated to the second node, and enables the second node to transition from the sleep state to the normal state under on condition that the identification information included in the wake-up frame received from the communication channel is identical to the stored identification information. | 12-05-2013 |
20140036987 | DECODER FOR DECODING PWM CODE AND COMMUNICATIONS SYSTEM - A decoder for decoding an input signal coded with a pulse width modulation code as a line code to an output signal in a binary code, has a first memory, a first timer, a determination circuit and a first controller. The information on a duty duration of the PWM code, corresponding to at least one kind of the output signals, is stored on the first memory. The first timer has a capacity to measure the duty duration of the input signal. The determination circuit has a capacity to determining which kind of the output signals corresponds to the input signal, on the basis of the information stored on the first memory and the duty duration measured with the first timer. The first controller has a capacity to updating the information stored on the first memory, on the basis of the determination result and the measured duty duration. | 02-06-2014 |
20140036988 | TRANSCEIVER FOR SERIAL DATA COMMUNICATION UTILIZING PWM ENCODED SIGNAL - Serial data are transmitted between transceivers via a communication path, each bit expressed by a dominant code or a recessive code which vary between dominant and recessive levels, the dominant code having a greater proportion of duration at the dominant level. A device (clock master) can continuously output successive recessive codes to the communication path, in which condition a transceiver can transmit a dominant code by producing an output drive signal which overwrites a part of a recessive code, currently being received from the communication path, to the dominant level. The output drive signal is shaped with a steeper edge slope at a transition from an inactive to an active level than from the active to the inactive level, enabling an increased data transmission rate without increased noise. | 02-06-2014 |
20140047146 | COMMUNICATION LOAD DETERMINING APPARATUS - A communication load determining apparatus is used for a communication system which includes a plurality of communication devices performing communication via a common bus. The communication system operates in accordance with a communication protocol that defines which a priority order is set to each of the frames transmitted from the communication devices and which a frame having a lower priority has a longer transmission latency before being transmitted to the bus. In the communication load determining apparatus, a low-priority frame having a lower priority than other frames to the bus is transmitted, and a transmission latency of the low-priority frame is measured. The communication load determining apparatus determines whether or not abnormality has occurred in a communication load in the bus on the basis of the measured transmission latency to produce a determination result. The produced determination result is stored. | 02-13-2014 |
20140047255 | ON-BOARD NETWORK SYSTEM - An on-board network system is presented. The on-board network system sends a sleep-entered message to a communication bus. The sleep-entered message is sent under a condition that a sleep condition is satisfied on a basis that a network management (NM) message is ceased during state transition process in which node's state transfers from a normal state to a power-saving state. A monitoring ECU corresponding to a master performs an abnormality detection process. In the abnormality detection process, the monitoring ECU detects an abnormality state of the state transition process based on whether or not the sleep-entered message is sent from any one of nodes, thereby it is possible to detect the abnormality state not only during each node is a normal state but also during a bus-sleep state. | 02-13-2014 |
20140056388 | RECEIVER CIRCUIT - In a receiver circuit, a binary signal is generated based on a signal level of a received signal that has been received via a transmission line from a driver of a transmitter circuit. Then, a first stable state and a second stable state are detected based on a reference signal whose signal level changes in accordance with the received signal. In the first stable state, the received signal is stable at a first signal level. In the second stable state, the received signal is stable at a second signal level. When the first stable state is detected and the received signal is changed from the first signal level into the second signal level, the generated binary signal is retained at a signal level corresponding to the second signal level, until the second stable state is detected. | 02-27-2014 |
20140140390 | COMMUNICATION APPARATUS FOR TRANSMISSION OF BINARY CODED SIGNAL - A communication apparatus includes a detecting unit, a process performing unit, and a range setting unit. The detecting unit detects a boundary pattern periodically appearing between codes in a binary coded signal transmitted through a transmission line. The boundary pattern is information showing a boundary appearing between codes. The process performing unit performs a process in synchronization with timing of appearance of the boundary pattern. The range setting unit sets an allowance range which is set include timing at which it is estimated that the next boundary pattern appears. The timing is counted from the timing currently detected by the detecting unit. The detecting unit includes a section which detects the timing of appearance of the boundary pattern during the allowance range. | 05-22-2014 |
20140169419 | TRANSCEIVER AND COMMUNICATION APPARATUS TRANSMITTING AND RECEIVING DATA ENCODED BY TRANSMISSION CODE - A transceiver that transmits and receives data used in a communication system, in which the data is encoded by a transmission line code and a signal level of the transmission code changes at a predetermined transition timing in a bit-duration. The transceiver includes: a clock generator that generates an internal clock used for internal circuits; a timing generator that generates, by using the internal clock generated by the clock generator, a timing signal synchronized to a reference clock supplied externally; an encoding circuit that encodes, by using the timing signal generated by the timing generator, a transmission data which is synchronized to the reference clock to be the transmission line code; and a waveform shaping unit that performs a waveform shaping of a waveform at the predetermined is transition timing of the transmission data to be based on the reference clock. | 06-19-2014 |
20140355622 | COMMUNICATION SYSTEM - A communication system is provide which includes a plurality of communication units connected to a communication line, in which collisions occur between dominant signals outputted from the communication units on the communication line. At least one of the communication units includes a first driver which is set so that a variation of voltage applied to the communication line in transmission of the dominant signal with respect to that in absence of transmission of the dominant signal is smaller than a variation of voltage applied from another of the communication units to the communication line in transmission of the dominant signal. One of the communication units, which differs from the communication unit including the first driver, includes a second driver which limits variation per unit time of current flowing through the communication line in transmission of the dominant signal. | 12-04-2014 |
20150055696 | COMMUNICATION SYSTEM - A communication system performs communication using a pulse width modulation code as a transmission code. The communication system includes a plurality of nodes that are connected via a transmission line to be capable of communicating with each other. Each of the nodes including a driver circuit. The driver circuit includes a transistor that enables and blocks conduction between the transmission line and a ground line. The plurality of nodes includes a master node and a slave node. The master node is one of the plurality of nodes. The slave node is at least one node other than the master node among the plurality of nodes. The master node includes a limiter that restricts, when the transistor of the driver circuit is turned off, changes in a conductive state of the transistor. | 02-26-2015 |
Patent application number | Description | Published |
20100219904 | COMMUNICATION SYSTEM WITH FUNCTION OF PREVENTING SIGNAL REFLECTION AND NODE INCLUDED IN THE SAME - The communication system includes a trunk line constituted of first and second signal lines for transmitting differential signals, a plurality of branch lines each branching from the trunk line and connected with a node, and at least one reflection prevention circuit connected between the first and second signal lines. The reflection prevention circuit includes a rectifier circuit configured to inhibit a current from flowing between the first and second signal lines when a voltage between the differential signals is smaller than or equal to a predetermined voltage, and allow a current to flow between the first and second signal lines when the voltage between the differential signals is larger than the predetermined voltage, and a resistive element connected in series to the rectifier circuit between the first and second signal lines. | 09-02-2010 |
20100306422 | COMMUNICATION APPARATUS - The present invention provides, as one aspect, a communication apparatus which is connected with a communication bus and performs communication using Carrier Sense Multiple Access with Collision Avoidance (CSMA/CA). The apparatus includes an edge detection section which detects an edge of data on the communication bus, and a data obtaining section which obtains data from the communication bus to determine a collision of data on the communication bus after a predetermined delay time period has passed from the time at which the edge detection section detects the edge. | 12-02-2010 |
20110007897 | COMMUNICATION NODE AND NETWORK SYSTEM - As one aspect, a communication node is provided which transmits data using an assigned frame. The communication node includes a data information storing section which stores information in which plural types of data storage information are related to identifiers, the data storage information indicating a relationship between one or more time slots configuring a frame and data stored in the time slots, and the identifiers identifying the data storage information. The communication node further includes an identifier selecting section which selects one of the identifiers, an identifier transmitting section which transmits the selected identifier included in a predetermined position of the frame, and a data transmitting section which refers to the data storage information corresponding to the selected identifier and transmits data which is specified by the data storage information and is included in a time slot based on the data storage information. | 01-13-2011 |
20110013522 | COMMUNICATION SYSTEM - A communication system is provided, as one aspect, which includes a communication line and a plurality of nodes connected to the communication line, and has a network which is activated based on specific signals sent from two nodes of the plurality of nodes to the communication line. The system includes: a first cold start node and a second cold start node which are connected to the communication line, and activate the network by sending the specific signals to the communication line; and a third cold start node which is connected to the communication line so as to be positioned between the first and second cold start nodes, activates the network by sending the specific signal together with the first or second cold start node, and determines whether or not communication failure has occurred between the plurality of nodes based on a signal transmitted through the communication line. | 01-20-2011 |
Patent application number | Description | Published |
20110084730 | TRANSMISSION APPARATUS FOR DIFFERENTIAL COMMUNICATION - A transmission apparatus for differential communication includes a driver bridge circuit and a pair of noise protection circuits. The driver bridge circuit includes four output devices that are independently connected between each of a pair of transmission lines and a power line or a ground line. Each noise protection circuit is provided to a corresponding transmission lines. Each noise protection circuit includes a ground potential detector and an impedance controller. The ground potential detector detects a potential of the corresponding transmission line with respect to the ground line. The impedance controller causes an impedance of the corresponding transmission line with respect to the ground line to become equal to an impedance of the other transmission line with respect to the ground line, when the detected potential becomes outside a predetermined potential range. | 04-14-2011 |
20110169547 | RINGING SUPPRESSION CIRCUIT - A ringing suppression circuit for a communication circuit that performs communication through a transmission line includes a high side switch connected between a high potential reference point and a high side line of the transmission line, a low side switch connected between a low potential reference point and a low side line of the transmission line, and a ringing suppression section. The ringing suppression section turns on the high side switch based on a difference between a potential of the high side line and a potential applied to a control terminal of the high side switch. The ringing suppression section turns on the low side switch based on a difference between a potential of the low side line and potential applied to a control terminal of the low side switch. | 07-14-2011 |
20110285424 | DIFFERENTIAL COMMUNICATION DEVICE - When a transmission signal is detected as having been changed from a high level to a low level, two transmission lines are connected for only a predetermined time through a diode by a first transistor and a second transistor. The diode is arranged such that its forward direction is from a high-side transmission line to a low-side transmission line. The diode turns on, when a potential of the high-side transmission line becomes higher than that of the low-side transmission line by ringing and a potential difference therebetween exceeds a forward drop voltage of the diode. As a result, a peak wave level of a positive side in the ringing is limited to the forward drop voltage of the diode. | 11-24-2011 |
20120293230 | RINGING SUPPRESSION CIRCUIT - An inter-line switching element formed of a MOSFET is provided between a pair of signal lines. When the level of a differential signal changes from high to low, a control circuit turns on the FET for a fixed period thereby to suppress ringing by decreasing the impedance between the signal lines when the level of the differential signal transitions, and causing the energy of the distortion of the differential signal waveform to be absorbed by the on-resistance of the FET. | 11-22-2012 |
20130081106 | BUS MONITORING SECURITY DEVICE AND BUS MONITORING SECURITY SYSTEM - A bus monitoring security device is connected to a bus, which includes a tool side bus having a tool connection terminal and an ECU side bus. The ECU side bus is coupled with an ECU, and the tool side bus is coupled with a tool capable of communicating with the ECU via the tool connection terminal. The tool side bus and the ECU side bus are separately coupled with the bus monitoring security device. The bus monitoring security device includes: a controller for determining whether the tool being to access the ECU is connected to the ECU side bus, and for restricting transmission and reception of data between the tool and the ECU when the controller determines that the tool is connected to the ECU side bus. | 03-28-2013 |
20130099849 | RINGING SUPPRESSION CIRCUIT - A ringing suppression circuit for a communication circuit that performs communication through a transmission line includes a high side switch connected between a high potential reference point and a high side line of the transmission line, a low side switch connected between a low potential reference point and a low side line of the transmission line, and a ringing suppression section. The ringing suppression section turns on the high side switch based on a difference between a potential of the high side line and a potential applied to a control terminal of the high side switch. The ringing suppression section turns on the low side switch based on a difference between a potential of the low side line and a potential applied to a control terminal of the low side switch. | 04-25-2013 |