KTA1504S PDF规格书

医疗行业应用应用：电机控制，加热控制，功率控制固态继电器 磁力传感器的 设计生产厂家超过50年法国生产的产品！•单相SSR，模块 诊断。

功能和温度控制器PID• 螺杆位置传感器• 双路固态继电器• 管状位置传感器• 液位和流量传感器• 控制磁铁• 三相固态继电器• 电机控制的固态继电器遵守主要国际标准 我们的产品按照最严格的国际标准进行设计，正在开发我们的优势我们的部分产品符合医疗行业要求--药物制造和包装的过程4医院床/康复设备• 电机控制CELDUC®RELAIS, 世界领先的固态的开关和控制方案！SKA第18-19页关键产品PCB 固态优势:采用内置电压保护的固态继电器取代中间电磁继电器• 血液温度调节• 清洁周期中的洗涤剂加热透析机CELDUC®RELAIS 的固态继电器是准确和长寿时间温度控制的正确选择SCQ 系列第 26-27 页SN8 系列第 18-19 页四个固态继电器一个封装PCB 固态继电器关键产品优势:• 超微型包装• 非常高频切换（温度控制，低开关频率限制精度）婴儿护理机/ 病患温度管理 6• 热阻控制celpac®第20-21页celpac®第20-21页关键产品单相固态继电器CELPAC® 系列：经济型同时可靠的方案优势:提供在要求增强设计，易于安装，最佳寿命和最具竞争力的价格的新一代Celpac的产品。

• 门位置检测：门打开或者关闭（监控门的打开的情况）医用冰柜位置检测方案从我们干簧管科技中受益管状传感器第30-31页关键产品磁性接近传感器由 B Medical Systems S.a r.l. 友情提供图片优势:50 年的从干簧管自己生产设计和工艺把控经验实验室灭菌器 8• 加热控制okpac®第22-23页cel3pac 和 sightpac第28-29页关键产品单相SSR三相SSR医疗行业中使用的组件必须可靠，并且必须保持高频切换。

三 极 管 丝 印 对 照 表NO.品名丝印对应客户NO.品名丝印对应客户1BAV99 A7.A7W宏天顺54S1015BA顶晶2KTA1504S-Y ASY宏天顺551815HF顶晶3KTC3875S-Y ALG宏天顺562N3904W04 1AM顶晶44001M1宏天顺572N3906W06顶晶5IN5819SS14宏天顺58APM2301N107顶晶62SC2714-Y QY宏天顺591872SK360IGF宏天顺60Y88XC61AC-2402C439宏天顺61P892SA2313NY宏天顺102SA1037FR宏天顺11MMBT39041AM艾炜特12MMBT39062A艾炜特13BAV99 A7艾炜特14BAW56A1艾炜特`15DTA14416艾炜特16DTC14426艾炜特17DTA14313艾炜特18DTC14323艾炜特19BAV70A4艾炜特20BAV70A4W.A4T奥维特2185501Y奥维特228050EY1奥维特239014HJSC奥维特249014J6.L6鑫源25APM2314M149.M067鑫源269015M6鑫源272SB1132BA.RT鑫源28BAV99 A7W鑫源298550QA1.2TY.Y2鑫源308050J3Y鑫源31ISS193F3鑫源32B709A BR1.BR4鑫源332SK3065KFF鑫源34L6L6鑫源359018J8鑫源362SB1240BF鑫源37DTC11424鑫源38MMT54012L鑫源39MMT5551G1鑫源40DTC143O3鑫源41APM23011SHB鑫源4239062A鑫源43MMBT2222A I1P.WIP宸扬光电44MMBT2907A W2F宸扬光电45MMT560560宸扬光电463904T1A宸扬光电47MMBTA42L1D.L1D宸扬光电48TL431431K宸扬光电493906T2A宸扬光电502SN54012L宸扬光电51MMBT44011AM诚之源5285502TY迪斯普莱532412BR22雅韵制表:邓军2013-4-5 第 1 页。

SSS1540A1-Q8CSingle Chip USB Audio Controller Solid State System Co., Ltd.DeclarationThe information contained herein is for evaluation and reference purpose only. The incorporation of such products and information in the design of customers’ products shall be done under the full responsibility of the customer.Except as provided in Solid State System Co. Ltd. (“3S”) terms and conditions of sales, 3S does not make any warranty, express or implied, including implied warranties of merchantability and fitness for a particular purpose with respect to any 3S products, and 3S does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from the use of 3S products or any other liability arising from the use of such products.NoticeNo part of this publication may be reproduced, photocopied, or transmitted in any form, without the prior written consent of 3S. 3S reserves the right to make change to the product specification and descriptions at any time without notice, and to discontinue or make change to its products ant any time without notice.Please contact a 3S representative for the application note issued by 3S to design your system in a right way.Revision HistorySSS1540A1-Q8CSingle Chip USB Audio Controller DatasheetI. Product OverviewSSS1540 is 3S highly integrated single chip USB audio controller with on chip oscillator to save the external 12MHz crystal component. SSS1540 features stereo 16 bits ADC, stereo 16 bits DAC, earphone driver, 5-band hardware EQ, audio PLL, USB clock oscillator, and USB FS controller plus PHY. External 24C02~16 EEPROM connection provides flexibility for USB VID/PID/product string, default gain settings, and other customized features. SSS1540 provides a minimum BOM solution for featured USB audio solutions.II. Product features●Embedded USB FS transceiver and controller●Embedded USB 48MHz on chip oscillator without external crystal component need●Embedded 16 bit stereo ADC with dB linear PGA●Embedded 16 bit stereo DAC●Earphone amplifier with variable gain adjustment●Embedded 5V to 3.3V and 1.8V output regulator for single external 5V operation●Embedded 1.8V power on reset●Compliant with USB specification v2.0 full speed operation●Compliant with USB audio device class specification v1.0●Supports USB suspend/resume mode●Support one control endpoint, one isochronous out endpoint, one isochronous in endpoint, andone interrupt in endpoint●Alternate zero bandwidth setting for releasing USB bus bandwidth during inactive●Two wire serial bus for external MCU control●Volume up, volume down, playback mute, recording mute, next track, previous track, stopand play/pause pin for direct user control●Volume up, volume down, playback mute, next track, previous track, stop and play/pausesupport USB HID for host control synchronization●Support digital encoder interface for volume control by EEPROM setting●External 24C02~16 serial EEPROM interface for vendor specific USB VID, PID, productstring, serial number, default gain, default EQ setting, playback/record enable.●EEPROM write function via HID for mass production convenience●Support HID pin change to GPIO pin, setting with EEPROM●Whole EEPROM space can be accessed via MCU●Embedded 5 band H/W EQ with preset mode selection from IO pins●Playback and record function can be independently enabled for product feature●GPIO and MCU interface register read/write via HID●Embedded digital mixer for application need●Default support 48KHz for both ADC and DAC enable●support I2S interface with fixed sampling rate● 1.8 V for digital core and audio PLL operation● 3.3V for oscillator, ADC/DAC operation●Compatible with Win XP, Vista, Win 7/8/10 and Mac OS X without additional driver●Some function support by EEPROM additional, Please contact with 3S AE●ShippingQFN-40 package by Type & ReelIII. Block DiagramIV. Pin DescriptionPin Out Chart for QFN-40Pin List TableMULTI FUNCTION KEY (4 Key)SSS1540 support maximum 4 multifunction keys. By EEPROM settings, each multifunction key can have up to four different button operation manners. Four kinds of different button operation are "a short press", "consecutive two short press", "a short and a long press" and "a long press". Each multifunction key corresponds to different control manner for different function demand, so that can achieve the purpose of streamlining the key number of requirements. Setting diagram is as follows:Key input can be set from : Function output can be assign to :VI. Mechanical Data Package for QFN-40Version 1.0Confidential Date: 2015.12.14 11 SSS1540A1-Q8C Single Chip USB Audio ControllerVII. Reference Application Circuit。

MIKROE-1504Amazingly compact, all-on-a-single-pcb development board that carries 5’’ TFT Touch Screen and lots of multimedia peripherals, all driven bya powerful TM4C129L(X)NCZADfor Tiva ™mikromedia 5Nebojsa MaticGeneral Manager The Tiva™ and Windows® logos and product names are trademarks of Texas Instruments® and Microsoft® in the U.S.A. and other countries.Introduction to mikromedia 5 for Tiva™ 4 System Specification 4 Package Contains 51. Power Supply 62. TM4C129L(X)NCZAD microcontroller 8Key microcontroller features 8 3. Programming the microcontroller 9 On-board mikroProg™ for Tiva® programmer 10 mikroProg Suite™ for ARM® software 12 Software installation wizard 134. RTC Battery and Reset Button 145. Crystal Oscillators and 2.048 V Reference 166. microSD Card Slot 187. Touch Screen 208. Audio Module 229. USB DEVICE connection 2410. USB HOST connection 2611. Accelerometer 2812. SDRAM 3013. RF Transceiver 3214. Ethernet 3415. Buzzer 3616. WiFi 3817. Other Modules 4018. Pads 4219. Dimensions 4420. What’s next? 45Table of ContentsThe mikromedia 5 for Tiva™ is a compact development board which allows development of devices with multimedia contents. The central part of the system is a 32-bit 212-pin TM4C129L(X)NCZAD microcontroller. The mikromedia 5 for Tiva™ features lots of on board modules such as stereo MP3 codec, 5’’TFT 800x480 px touch screen display, accelerometer, microSD card slot, buzzer, IR receiver, RGB LED diode, PIN photodiode, temperature sensor, 2.4 GHz RF transceiver, Ethernet, Wi-Fi transceiver, 64Mb SDRAM, Li-Polimer battery charger etc. The board also contains two MINI-B USB connectors, 2x5 Cortex Debug connector, two 1x26 connection pads, ON/OFF switch and other. It comes with an on-board mikroProg™ for Tiva® programmer and debugger, but can also be programmed with external programmers. mikromedia 5 for Tiva™ is compact and slim, which makes it a convenient platform for mobile and other multimedia devices. System Specificationpower supplyVia USB cable (5V DC) or via adapterconnector (5 - 12 V DC)power consumption121 mA with empty MCU(when on-board modules are disabled)board dimensions135x86.6 mm (5.3x3.4 inch)weight~136g (0.3 lbs)010405Damage resistantprotective box mikromedia 5 for Tiva ™mikromedia 5 for Tiva ™SCHEMATICSfor Tiva mikromedia 5for Tiva mikromedia 5Package ContainsFigure 1-3:Battery power supply Figure 1-4: Adapter connector power supplyFigure 1-1:ICDI USB power supply Figure 1-2:USB power supplyThe mikromedia 5 for Tiva™ board can be powered in four different ways: via two USB connectors using MINI-B USB cable provided with the board (CN9 or CN2), via battery connector using Li-Polymer battery (CN3) or via adapter connector using adapter power supply (CN1). After you plug in the appropriate power supply turn the power switch ON (SW1). The USB connection can provide up to 500 mA current which is more than enough for the operation of all on-board modules and the microcontroller as well. If you decide to use external power supply via adapter connector, voltage levels must be within 5-12 V DC range. Power LED ON (GREEN) indicates the presence of power supply. On-board battery charger circuit LM3658SD-A enables you to charge the battery over two USB connectors or via adapter connector. LED diode (RED) indicates when battery is charging. Charging current is ~250 mA and charging voltage is 4.2 V DC.Figure 1-5: Power supply schematic01 02Using on-board mikroProg™ for Tiva® programmerUsing external programmersFigure 3-1:TM4C129L(X)NCZADmicrocontrollerThe microcontroller can be programmed in two ways:The microcontroller can be programmed with on-board mikroProg ™ for Tiva ® programmer and mikroProg Suite ™ for ARM ® software . Connection with PC is established over ICDI USB connector. For proper insertion of the MINI-B USB cable refer to Figure 3-2. Signalization LEDs (ACTIVE and DATA) are also provided on the opposite side of the ICDI USB connector. It is also possibly to program the microcontroler with external porogrammers, via 2x5 Cortex Debug connector (CN8) with appropriate adapter, Figure 3-3.Figure 3-2:On-board mikroProg ™ programmer Figure 3-3:External programmerFigure 3-4: Programmer connection schematicOn-board mikroProg ™ for Tiva ™ programmer requires special programming software called mikroProg Suite ™ for ARM ®. This software is used for programming ALL Tiva ™ and Stellaris ® ARM ® Cortex-M3™ and Cortex-M4™ microcontroller families. It features intuitive interface and SingleClick ™ programming technology. Software installation is available on following link:After downloading, extract the package and double click the executable setup file to start installation.mikroProg Suite ™ for ARM ® softwareQuick GuideClick the Detect MCU button in order to recognize the device ID.Click the Read button to read the entire microcontroller memory. You can click the Save button to save it to the target HEX file.If you want to write the HEX file into the microcontroller, first make sure to load the target HEX file using the Load button. Then click the Write button to begin programming.Click the Erase button to clear the microcontroller memory.01020304010402050306 Start InstallationChoose destination folderAccept EULA and continueInstallation in progressInstall for all usersFinish installationSoftware installation wizard4. RTC Battery and Reset Buttonmikromedia 5 for Tiva™ features an RTC battery holder for microcontroller RTC module. Battery is used as alternate sourceof power, so the RTC module can continue to keep time while the primacy source of power is off or currently unavailable. Three typesof coin battery are supported: CR1216, CR1220 and CR1225. The board is equipped with reset button, which is located on the front side of the board. If you want to reset the circuit, press the reset button. It will generate low voltage level on the microcontroller reset pin (input). A reset can also be exter-nally provided through thepin 27 on the sideheaders.RTC BatteryReset ButtonFigure 4-1: Reset button and RTC battery connection schematicThe board is equipped with 01 25 MHz crystal oscillator (X4) circuit that provides external clock waveform to the microcontroller OSC1 and OSC2pins. This base frequency is suitable for further clock multipliers and is also ideal for generation of necessary USB clock, which ensures proper operation of bootloader and your custom USB-based applications. The board also contains 02 32.768 kHzcrystal oscillator (X5) which provides external clock for internalRTCC module. Microcontroller ADC requires an accurate source of reference voltage signal. That is why we provide the external 03 voltage reference to the microcontroller VREF pin which is 2.048 V .0102Figure 5-1: Crystaloscillators and 2.048 V reference03010203Figure 5-2: Crystal oscillators and voltage reference connection schematicThe board contains 01 microSD card slot that enables you to use 02 microSD cards inyour projects and to store large amounts of data externally, thus saving microcontroller memory.microSD cards use Serial Peripheral Interface (SPI ) for communication with the microcontroller.Ferrite and capacitor are provided to compensate voltage and current glitch that can occur when pushingmicroSD card in and out of the socket. The proper insertion of the microSD card is shown in Figure 6-1.6. microSD Card SlotFigure 6-1:microSD Card Slot0102Figure 6-2: microSD Card Slot module connection schematic7The mikromedia features a 5‘‘ TFT800x480 px display with aresistive touch panel. Together theyform a functional unit called a touchscreen, Figure 7-1. It enablesdata to be entered and displayedat the same time. The TFT displayis capable of showing graphics in16.7M diffe r ent colors.Figure 7-1: Touch ScreenFigure 7-2: Touch Screen connection schematicmikromedia 5 for Tiva ™ features stereo audio codec 01 VS1053. This moduleenables audio reproduction and sound recording by using 02 stereo headphones withmicrophone connected to the system via a 03 3.5 mm connector CN4. All functions of thismodule are controlled by the microcontroller over Serial Peripheral Interface (SPI ). IN and OUT channels are also provided on the side headers.Figure 8-1: On-boardVS1053MP3 codec8. Audio Module010203Figure 8-2: Audio module connection schematic9. USB DEVICE connectionFigure 9-1: Connecting USB cable to MINI-BUSB connectorTM4C129L(X)NCZAD microcontroller has integrated USB module, which enables you to implement USB communication to your mikromedia board. Connection with target USB host is established over 01 MINI-B USB connector. For proper insertion of the 02 MINI-B USB cable refer to Figure 9-1.0102Figure 9-2: USB DEVICE module connection schematic10. USB HOST connectionFigure 10-1: ConnectingUSB cable to MINI-B USBconnector via USB adapter02Note:When the device is working inUSB HOST mode, it must not bemounted to other USB HOST.01TM4C129L(X)NCZAD can also be used as USB HOST which enablesmicrocontroller to establish connection with the target device (eg. USBkeyboard, USB mouse, etc). The board provides necessary power supply to thetarget via TPS2041B IC. To connect 01 USB HOST cable, it is necessary to use theappropriate 02 MINI-B USB to USB type A adapter. For proper insertion refer to Figure 10-1.Figure 10-2: USB HOST module connection schematicADXL345 accelerometer measures acceleration in three axis: x, y are many other fields of usage. Communication between the accelerometer and the microcontroller is establishedthrough I2C interface.Figure 11-2: Accelerometer connection schematicmikromedia 5 for Tiva ™ board features high-speed 64 Mbit M12L64164A SDRAM (Synchronous Dynamic Random-Access Memory). It is internally organized as 4 x 1,048,576 words by 16 bits. The SDRAM provides for programmable read or write burst lengths of 1, 2, 4, 8 locations, or the full page, with a burst terminate option. SDRAM is connected to the microcontroller via dedicated 16-bit parallel interface providing a high-speed data rate for more demanding multimedia applications, such as TFT diplay.Figure 12-2: SDRAM connection schematic13. RF TransceiverFigure 13-1:RF transceiver antenna mikromedia 5 for Tiva ™ board featuresnRF24L01P RF transceiver chip with 2.4 GHz chip antenna . It is suitable for wireless operation in the world wide ISM frequency band at 2.400 - 2.4835 GHz with air data rate up to 2 Mbps. RF transceiver module is connected to the microcontroller via the Serial Peripheral Interface (SPI ). This RF transceiver module is widely used for wireless PC peripherals, remote controllers, VoIP headsets, game controllers, sensors, home and commercial automation, active RFID, toys and many more.Figure 13-2:RF transceiver moduleFigure 13-3: RF transceiver module connection schematicThe development board features an Ethernet controller which is integrated in TM4C129L(X)NCZAD microcontroller. It is ideal for local area networking (LAN). If you want to establish connection with computer, router or other devices, the development board also contains standard RJ-45 connector. Communication over Ethernet is based on data packets called frames. Each frame contains source and destination addresses and error-checking data so that damaged data can be detected and retransmitted. Signalization LEDs are provided on the opposite side of the board.Figure 14-2: Ethernet module schematicBuzzer moduleThe board is also equipped with SPT-1325A piezo buzzer. It is an electric component which can be used to create sound when is provided with electrical signal. This is usually a PWM signal coming from a microcontroller pin. Frequency of the signal determines the pitch of the sound and duty cycle of the signal can be used to increase or decrease the volume. Piezo buzzer is connected to the microcontroller pin N18.Figure 15-2: Buzzer module connection schematicFigure 16-1: 2.4GHz ceramic chipantennaFigure 16-2:Wi-Fi 802.11b/g networkporocessor 16. WiFimikromedia 5 for Tiva™ board features CC3000 -Wi-Fi 802.11 b/g network processor chip and 2.4 GHz ceramic chip antenna. With integrated IPv4 TCP/IP stack and many built-in network protocols it simplifies the implementation of internet connectivity and minimizes the software requirements of the host microcontroller. It also contains integrated EEPROM which stores firmware patch, network configuration, MAC address and 5 KB of user data. Wi-Fi module is connected to the microcontroller via the Serial Peripheral Interface (SPI).Figure 16-3: WiFi connection schematic17The board also contains other useful peripherals such as 01 PIN photodiode, 02 RGB led diode, 03 IR receiver and 04 analog temperature sensor. PIN photodiode is a type of photo detector. It is high sensitive and fast responsive. It is connected to the microcontroller analog pin A8. IR receiver is used in infrared remote control systems. The demodulated output signal obtained from IR module can be directly decoded by microcontroller. Many of standard data formats are supported. RGB (Red, Green, Blue) diode can be used as a light indicator. Each color is driven separately by the transistor. The analog temperature sensor converts temperature to analog voltage. It is directly connected to the microcontroller K1 analog pin. Temperature measurement range of mikromedia 5 for Tiva ™ board is from -20° C to 70° C.01020304Figure 17-1: Other modules connection schematicMany microcontroller pins are available for further connectivity via two 1x26 rows of connection pads on bothsides of the boardAnalog lines SPI CAN PWM InterruptI2CUART RST3.3V PL4R PL5PM4R PM5PF2L L PF3PQ1PQ0VDC PQ3PQ2PK6PK7PH6PH7PJ0PJ1PB6PB7GND 27.28.33.30.34.35.32.36.37.29.31.38.39.40.52.41.42.43.44.45.46.47.48.49.50.51.Reset pin3.3V pwr.Audio ou t Audio in PWM Line sSPI3I2C4 Line sUART5 Line s UART3 Line s I2C6Ref. Ground5-12V Input 5VGND PD1PE2PD0PE7PE0PP4PP0PE3PE1PP1PG6PG7GND PG4PG5PQ4PQ5PA O PA1NC NC NC NC 3.3V 5V powerRef. Ground Analog lines Interrup t linesSPI2CAN UART13.3V po werRef. GroundFigure 18-1: Connecting pads schematic135.13411.42306956.98700697.341.3LegendTolerance +/-0.5mmmm milsYou still don’t have an appropriate compiler? Locate ARM ® compiler that suits you best on our website:Choose between mikroC ™, mikroBasic ™ and mikroPascal ™ and download fully functional demo version, so you can start building your first applications.Once you have chosen your compiler, and since you already got the board, you are ready to start writing your first projects. Visual TFT software for rapid development of graphical user interfaces enables you to quickly create your GUI. It will automatically create necessary code which is compatible with МikroElektronika compilers. Visual TFT is rich with examples, which are an excellent starting point for your future projects. Just load the example, read well commented code, and see how it works on hardware. Visual TFT is also available on the link bellow:You have now completed the journey through each and every feature of mikromedia 5 for Тiva ™ board. You got to know it’s modules and organization. Now you are ready to start using your new board. We are suggesting several steps which are probably the best way to begin. We invite you to join the users of mikromedia ™ brand. You will find very useful projects and tutorials and can get help from a large ecosystem of users. Welcome!CompilerProjectsIf you want to learn more about our products, please visit our website at If you are experiencing some problems with any of our products or just need additional information, please place your ticket at /support/If you have any questions, comments or business proposals, do not hesitate to contact us at*****************mikromedia 5 for TIVA ManualMIKROE-1504。