Patent application number | Description | Published |
20080243280 | Mixing signal processing apparatus and mixing signal processing integrated circuit - User is allowed to designate a desired mode defining the respective numbers of channels and mixing buses, and processing for mixing input signals of the number of channels corresponding to the designated mode is performed repetitively to generate signals for the individual buses. The time of arrival of the last step in the mixing processing for the number of channels, corresponding to the designated mode, is detected to output an accumulation result obtained at the last step, and new accumulation is started with a digital audio signal inputted at a step following the last step. Digital audio signals processed by a first signal processing circuit are stored into a memory and transmitted to a second signal processing circuit via a cascade-connection. The second signal processing circuit adds the audio signal, processed for each of the steps, to audio signals input via the cascade-connection and writes added signal into the memory. | 10-02-2008 |
20110219941 | MUSICAL TONE SIGNAL GENERATING APPARATUS | 09-15-2011 |
20120031256 | TONE GENERATION APPARATUS - In response to detection of a note-on instruction, a CPU assigns a tone generating unit comprising two tone generating channels and sets tone color control data of the assigned tone generating unit into tone generator registers. The tone color control data includes a parameter common to the two channels. Once the CPU gives a tone generation start instruction to a tone generator, the tone generator accumulates a frequency number common to the two channels to thereby generate a progressive phase common to the two channels. Waveform readout section reads out left-channel and right-channel waveform data from a waveform memory on the basis of the phase and waveform selecting information of the left and right channels. Tone characteristics of the read-out left- and right-channel waveform data are controlled by a characteristic control section on the basis of a characteristic control parameter common to the two channels. | 02-09-2012 |
20120033833 | MIXING SIGNAL PROCESSING APPARATUS AND MIXING SIGNAL PROCESSING INTEGRATED CIRCUIT - User is allowed to designate a desired mode defining the respective numbers of channels and mixing buses, and processing for mixing input signals of the number of channels corresponding to the designated mode is performed repetitively to generate signals for the individual buses. The time of arrival of the last step in the mixing processing for the number of channels, corresponding to the designated mode, is detected to output an accumulation result obtained at the last step, and new accumulation is started with a digital audio signal inputted at a step following the last step. Digital audio signals processed by a first signal processing circuit are stored into a memory and transmitted to a second signal processing circuit via a cascade-connection. The second signal processing circuit adds the audio signal, processed for each of the steps, to audio signals input via the cascade-connection and writes added signal into the memory. | 02-09-2012 |
20130163786 | MIXING SIGNAL PROCESSING APPARATUS AND MIXING SIGNAL PROCESSING INTEGRATED CIRCUIT - User is allowed to designate a desired mode defining the respective numbers of channels and mixing buses, and processing for mixing input signals of the number of channels corresponding to the designated mode is performed repetitively to generate signals for the individual buses. The time of arrival of the last step in the mixing processing for the number of channels, corresponding to the designated mode, is detected to output an accumulation result obtained at the last step, and new accumulation is started with a digital audio signal inputted at a step following the last step. Digital audio signals processed by a first signal processing circuit are stored into a memory and transmitted to a second signal processing circuit via a cascade-connection. The second signal processing circuit adds the audio signal, processed for each of the steps, to audio signals input via the cascade-connection and writes added signal into the memory. | 06-27-2013 |
20140123835 | SOUND GENERATION APPARATUS - A serial memory stores a plurality of waveform samples. A tone generating unit has a plurality of channels operating in time-divisional manner to generate therethrough sound signals based on waveform samples read from the serial memory, each channel issuing a sample request for a waveform sample with specifying a read address of the waveform sample. Upon power on or reset of the tone generating unit, an access unit sets the serial memory to enable n-bit input/output operation. In response to the sample request, the access unit uses an n-bit input/output instruction to read the waveform sample by n bits per clock from a lead address that is the read address specified by the sample request, and supplies the waveform sample read from the serial memory to the tone generating unit. | 05-08-2014 |
Patent application number | Description | Published |
20110312887 | PROMOTER FOR REGENERATION OF TENDON-BONE JUNCTION TISSUE OR LIGAMENT-BONE JUNCTION TISSUE - An object of the present invention is to provide a drug for promoting the regeneration of tendon-bone junction tissue or ligament-bone junction tissue. The present invention relates to a promoter for regeneration of tendon-bone junction tissue or ligament-bone junction tissue including the following (1) or (2) as an active ingredient:
| 12-22-2011 |
20110313539 | MEDICAL SUPPLIES AND METHOD OF PRODUCING THE SAME - Metallic medical supplies include a metallic material as a base material, and a film having micro pores and/or micro unevenness on a surface of the base material, wherein the micro pores and/or micro unevennesses are impregnated with iodine or iodine compounds. | 12-22-2011 |
20130240365 | MEDICAL SUPPLIES AND METHOD OF PRODUCING THE SAME - A method of producing metallic medical supplies includes supplying a metallic material as a base material; treating the base material by carrying out any one of electrochemical treatment, chemical treatment, thermal and/or mechanical treatment or a combination of two or more of these treatments to form a film having micro pores and/or micro unevennesses having a density of 5′ 104/mm2 on a surface of the base material; and carrying out iodine-impregnation treatment to impregnate the film with iodine or iodine compounds. | 09-19-2013 |
20150045396 | PROPHYLACTIC OR THERAPEUTIC AGENT FOR GIANT CELL TUMORS OCCURRING IN BONE AND SOFT TISSUE OR FOR CHONDROSARCOMA - The present invention provides a prophylactic or therapeutic agent for giant cell tumors occurring in a bone and soft tissue or for chondrosarcoma, which comprises a non-steroidal anti-inflammatory agent or thiazolidine derivative as an active ingredient, and the like | 02-12-2015 |