MIM-5363K5F中文资料

TOSHIBA Transistor Silicon NPN Triple Diffused Type (PCT process)2SC5353Switching Regulator and High Voltage Switching ApplicationsHigh-Speed DC-DC Converter Applications• Excellent switching times: t r = 0.7 μs (max), t f = 0.5 μs (max) • High collectors breakdown voltage: V CEO = 800 VAbsolute Maximum Ratings (Tc = 25°C)Characteristics Symbol Rating UnitCollector-base voltage V CBO 900 V Collector-emitter voltage V CEO 800 V Emitter-base voltage V EBO7 VDC I C 3Collector current Pulse I CP 5ABase current I B 1 A Ta = 25°C 2.0 Collector powerdissipationTc = 25°CP C 25WJunction temperature T j 150 °C Storage temperature rangeT stg−55 to 150°CNote: Using continuously under heavy loads (e.g. the application of hightemperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings.Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook(“Handling Precautions”/Derating Concept and Methods) and individual reliability data (i.e. reliability test report and estimated failure rate, etc).Unit: mmJEDEC―JEITA SC-67TOSHIBA 2-10R1A Weight: 1.7 g (typ.)Electrical Characteristics (Tc = 25°C)MarkingC5353lead (Pb)-free package orlead (Pb)-free finish.Collector-emitter voltage V CE (V)I C – V CEC o l l ec t o r c u r r e n t I C (A )h FE – I CD Cc u r r e n t g a i n h F ECollector current I C (A)Collector current I C (A)V BE (sat) – I CB a s e -e m i t t e r s a t u r a t io n vo l t a g e V B E (s a t ) (V )V CE (sat) – I CC o l l e c t o r -e m i t t e r s a t u r a t i o nv o l ta g e VC E (s a t ) (V )Collector current I C (A)Base-emitter voltage V BE (V)I C – V BEC ol l e c t o r c u r r en t I C (A )Collector current I C (A)Switching CharacteristicsS w i t c h i n g t i m e (μs )0.1 0.01101Collector-emitter voltage V CE (V)Safe Operating AreaCo l l ec t o r c u r re n t I C (A )Ambient temperature Ta (°C)P C – TaC o l l e c t o r p ow e r d i s s i p a t i o n P C (W )1 3 100010 50 100 300 5 500 30RESTRICTIONS ON PRODUCT USE20070701-EN •The information contained herein is subject to change without notice.•TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.• The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.).These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in his document shall be made at the customer’s own risk.•The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations.• The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patents or other rights of TOSHIBA or the third parties.• Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.。

Freescale SemiconductorData Sheet: Advance InformationDocument Number: IMX53AECRev. 4, 11/2011MCIMX53xAOrdering Information See Table 1 on page3This document contains information on a new product. Specifications and information herein are subject to change without notice.1IntroductionThe MCIMX53xA (i.MX53xA) automotiveinfotainment processor is Freescale Semiconductor’s latest addition to a growing family ofmultimedia-focused products offering high performance processing with a high degree of functional integration aimed at the growing automotive infotainment,telematics, HMI, and display-based cluster markets. This device includes 3D and 2D graphics processors, 1080i/p video processing, and dual display, and provides a variety of interfaces.The i.MX53xA processor features Freescale’s advanced implementation of the ARM™ core, which operates at clock speeds as high as 800MHz and interfaces with DDR2/LVDDR2-800, LPDDR2-800, or DDR3-800 DRAM memories. This device is well suited for graphics rendering for HMI, navigation, high performance speech processing with large databases, video processing and display, audio playback, and many other applications.The flexibility of the i.MX53xA architecture allows for its use in a wide variety of applications. As the heart of the application chipset, the i.MX53xA processori.MX53xA Automotive and Infotainment Applications Processors1.Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.1.Ordering Information . . . . . . . . . . . . . . . . . . . . . . . 31.2.Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32.Architectural Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . 72.1.Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73.Modules List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83.1.Special Signal Considerations . . . . . . . . . . . . . . . 174.Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . 174.1.Chip-Level Conditions . . . . . . . . . . . . . . . . . . . . . 174.2.Power Supply Requirements and Restrictions . . . 244.3.I/O DC Parameters . . . . . . . . . . . . . . . . . . . . . . . . 284.4.Output Buffer Impedance Characteristics . . . . . . 344.5.I/O AC Parameters . . . . . . . . . . . . . . . . . . . . . . . . 384.6.System Modules Timing . . . . . . . . . . . . . . . . . . . . 454.7.External Peripheral Interfaces Parameters . . . . . . 674.8.XT AL Electrical Specifications . . . . . . . . . . . . . . 1465.Boot Mode Configuration . . . . . . . . . . . . . . . . . . . . . . . 1475.1.Boot Mode Configuration Pins . . . . . . . . . . . . . . 1475.2.Boot Devices Interfaces Allocation . . . . . . . . . . . 1485.3.Power Setup During Boot . . . . . . . . . . . . . . . . . . 1496.Package Information and Contact Assignments . . . . . 1506.1.19x19mm Package Information . . . . . . . . . . . . . 1506.2.19 x 19mm, 0.8 Pitch Ball Map . . . . . . . . . . . . . 1697.Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 173Introductionprovides all the interfaces for connecting peripherals, such as WLAN, Bluetooth™, GPS, hard drive, camera sensors, and dual displays.Features of the i.MX53xA processor include the following:•Multilevel memory system—The multilevel memory system of the i.MX53xA is based on the L1 instruction and data caches, L2 cache, internal and external memory. The i.MX53xA supportsmany types of external memory devices, including DDR2, low voltage DDR2, LPDDR2, DDR3, NOR Flash, PSRAM, cellular RAM, NAND Flash (MLC and SLC), OneNAND™, and managed NAND including eMMC up to rev 4.4.•Smart speed technology—The i.MX53xA device has power management throughout the IC that enables the rich suite of multimedia features and peripherals to consume minimum power in both active and various low power modes. Smart speed technology enables the designer to deliver a feature-rich product requiring levels of power far lower than industry expectations.•Multimedia powerhouse—The multimedia performance of the i.MX53xA processor ARM core is boosted by a multilevel cache system, Neon (including advanced SIMD, 32-bit single-precision floating point support) and vector floating point coprocessors. The system is further enhanced bya multi-standard hardware video codec, autonomous image processing unit (IPU), and aprogrammable smart DMA (SDMA) controller.•Powerful graphics acceleration— The i.MX53xA processors provide two independent, integrated graphics processing units: an OpenGL® ES 2.0 3D graphics accelerator (33Mtri/s, 200Mpix/s, and 800Mpix/s z-plane performance) and an OpenVG™1.1 2D graphics accelerator(200Mpix/s).•Interface flexibility—The i.MX53xA processor supports connection to a variety of interfaces, including LCD controller for two displays and CMOS sensor interface, high-speed USB on-the-go with PHY, plus three high-speed USB hosts, multiple expansion card ports (high-speedMMC/SDIO host and others), 10/100 Ethernet controller, and a variety of other popular interfaces (PATA, UART, I2C, and I2S serial audio, among others).•Automotive environment support—Includes interfaces such as two CAN ports, an MLB port, an ESAI audio interface, and an asynchronous sample rate converter for multichannel/multisource audio.•Advanced security—The i.MX53xA processors deliver hardware-enabled security features that enable secure e-commerce, digital rights management (DRM), information encryption, secureboot, and secure software downloads. For detailed information about the i.MX53xA securityfeatures contact a Freescale representative.The i.MX53xA application processor is a follow-on to the i.MX51xA, with improved performance, power efficiency, and multimedia capabilities.Introduction1.1Ordering InformationTable 1 provides ordering information.1.2FeaturesThe i.MX53xA multimedia applications processor (AP) is based on the ARM Platform, which has the following features:•MMU, L1 instruction and L1 data cache •Unified L2 cache•Maximum frequency of the core (including Neon, VFPv3 and L1 cache): 800MHz•Neon coprocessor (SIMD media processing architecture) and vector floating point (VFP-Lite) coprocessor supporting VFPv3•TrustZone The memory system consists of the following components:•Level 1 cache:—Instruction (32Kbyte)—Data (32Kbyte)•Level 2 cache:—Unified instruction and data (256Kbyte)•Level 2 (internal) memory:—Boot ROM, including HAB (64Kbyte)—Internal multimedia/shared, fast access RAM (128Kbyte) —Secure/non-secure RAM (16Kbyte)•External memory interfaces:—16/32-bit DDR2-800, LV-DDR2-800 or DDR3-800 up to 2Gbyte —32-bit LPDDR2—8/16-bit NAND SLC/MLC Flash, up to 66MHz, 4/8/14/16-bit ECC —8/16-bit NOR Flash, PSRAM, and cellular RAM.Table 1. Ordering InformationPart Number 11Part numbers with a PC prefix indicate non production engineering parts.Mask Set FeaturesNotes Package 22Case TEPBGA-2 is RoHS compliant, lead-free MSL (moisture sensitivity level) 3.PCIMX536AVV8C N78C 800MHz, full feature set —19 x 19 mm, 0.8 mm pitch BGACase TEPBGA-2MCIMX536AVV8C N78C 800MHz, full feature set —19 x 19 mm, 0.8 mm pitch BGACase TEPBGA-2MCIMX534AVV8CN78C800MHz, no hardware video codecs—19 x 19 mm, 0.8 mm pitch BGACase TEPBGA-2Introduction—32-bit multiplexed mode NOR Flash, PSRAM & cellular RAM.—8-bit Asynchronous (DTACK mode) EIM interface.—All EIM pins are muxed on other interfaces (data with NFC pins). I/O muxing logic selects EIM port, as primary muxing at system boot.—Samsung OneNAND™ and managed NAND including eMMC up to rev 4.4 (in muxed I/O mode)The i.MX53xA system is built around the following system on chip interfaces:•64-bit AMBA AXI v1.0 bus—used by ARM platform, multimedia accelerators (such as VPU, IPU, GPU3D, GPU2D) and the external memory controller (EXTMC) operating at 200MHz.•32-bit AMBA AHB 2.0 bus—used by the rest of the bus master peripherals operating at 133MHz.•32-bit IP bus—peripheral bus used for control (and slow data traffic) of the most system peripheral devices operating at 66MHz.The i.MX53xA makes use of dedicated hardware accelerators to achieve state-of-the-art multimedia performance. The use of hardware accelerators provides both high performance and low power consumption while freeing up the CPU core for other tasks.The i.MX53xA incorporates the following hardware accelerators:•VPU, version 3—video processing unit•GPU3D—3D graphics processing unit, OpenGL ES2.0, version3, 33Mtri/s, 200Mpix/s, and 800Mpix/s z-plane performance, 256Kbyte RAM memory•GPU2D—2D graphics accelerator, OpenVG1.1, version1, 200Mpix/s performance,•IPU, version 3M—image processing unit•ASRC—asynchronous sample rate converterThe i.MX53xA includes the following interfaces to external devices:NOTENot all interfaces are available simultaneously, depending on I/Omultiplexer configuration.•Hard disk drives:—PATA, up to U-DMA mode 5, 100MByte/s—SATA I, 1.5Gbps•Displays:—Five interfaces available. Total rate of all interfaces is up to 180Mpixels/s, 24bpp. Up to two interfaces may be active at once.—Two parallel 24-bit display ports. The primary port is up to 165Mpix/s (for example, UXGA at60Hz).—LVDS serial ports: one dual channel port up to 165Mpix/s or two independent single channel ports up to 85MP/s (for example, WXGA at60Hz) each.—TV-out/VGA port up to 150Mpix/s (for example, 1080p60).•Camera sensors:Introduction —Two parallel 20-bit camera ports. Primary up to 180-MHz peak clock frequency, secondary up to 120-MHz peak clock frequency.•Expansion cards:—Four SD/MMC card ports: three supporting 416Mbps (8-bit i/f) and one enhanced port supporting 832Mbps (8-bit, eMMC4.4).•USB—High-speed (HS) USB2.0OTG (up to 480Mbps), with integrated HS USB PHY—Three USB2.0 (480Mbps) hosts:–High-speed host with integrated on-chip high-speed PHY–Two high-speed hosts for external HS/FS transceivers through ULPI/serial, support IC-USB •Automotive environment interfaces:—Two controller area network (FlexCAN) interfaces, 1Mbps each—Media local bus or MediaLB (MLB) provides interface to most networks (50Mbps)—Enhanced serial audio interface (ESAI), up to 1.4Mbps each channel•Miscellaneous interfaces:—One-wire (OWIRE) port—Three I2S/SSI/AC97 ports, supporting up to 1.4Mbps, each connected to audio multiplexer (AUDMUX) providing four external ports.—Five UART RS232 ports, up to 4.0Mbps each. One supports 8-wire, the other four support 4-wire.—Two high speed enhanced CSPI (ECSPI) ports plus one CSPI port—Three I2C ports, supporting 400kbps—Fast Ethernet controller, IEEE1588 V1 compliant, 10/100Mbps—Sony Phillips Digital Interface (SPDIF), Rx and Tx—Key pad port (KPP)—Two pulse-width modulators (PWM)—GPIO with interrupt capabilitiesThe system supports efficient and smart power control and clocking:•Power gating SRPG (State Retention Power Gating) for ARM core and Neon•Support for various levels of system power modes•Flexible clock gating control scheme•On-chip temperature monitor•On-chip oscillator amplifier supporting 32.768kHz external crystal•On-chip LDO voltage regulators for PLLsSecurity functions are enabled and accelerated by the following hardware:•ARM TrustZone including the TZ architecture (separation of interrupts, memory mapping, and so on)Introduction•Secure JTAG controller (SJC)—Protecting JTAG from debug port attacks by regulating or blocking the access to the system debug features•Secure real-time clock (SRTC)—Tamper resistant RTC with dedicated power domain and mechanism to detect voltage and clock glitches•Real-time integrity checker, version 3 (RTICv3)—RTIC type1, enhanced with SHA-256 engine •SAHARAv4 Lite—Cryptographic accelerator that includes true random number generator (TRNG)•Security controller, version 2 (SCCv2)—Improved SCC with AES engine, secure/non-secure RAM and support for multiple keys as well as TZ/non-TZ separation•Central security unit (CSU)—Enhancement for the IIM (IC Identification Module). CSU is configured during boot by e-fuses, and determines the security level operation mode as well as the TrustZone (TZ) policy•Advanced High Assurance Boot (A-HAB)—HAB with the following embedded enhancements: SHA-256, 2048-bit RSA key, version control mechanism, warm boot, CSU, and TZ initializationNOTEThe actual feature set depends on the part number as described in Table1.Functions such as video hardware acceleration with 2D and 3D hardwaregraphics acceleration may not be enabled for specific part numbers.Architectural Overview2Architectural OverviewThe following subsections provide an architectural overview of the i.MX53xA processor system.2.1Block DiagramFigure 1 shows the functional modules in the i.MX53xA processor system.Figure 1. i.MX53xA System Block DiagramNOTEThe numbers in brackets indicate number of module instances. For example, PWM (2) indicates two separate PWM peripherals.Application Processor Smart DMA (SDMA)Shared PeripheralsAP PeripheralsARM Cortex A8ARM Cortex A8Platform Timers CSPI UART (4)GPT PWM (2)EPIT (2)GPIOx32 (7)WDOG (2)OWIRE I 2C (3)IOMUXC IIM AUDMUX KPP Boot ROM SSI (2)RTICv3SCCv2SRTC CSU Fuse BoxDebug DAP TPIUFIRI SAHARAv4Lite Security TZICImage ProcessingUSB OTG + 3 HS PortsCTI (2)ECSPIInternal USB PHY2USB PHY1External Memory I/F RAM 144KB Subsystem (IPU)TV-EncoderLDB LCD Display-1,2Domain (AP)Composite CVBS/ S-Video Component RGB, YCC (HD TV-Out / VGA)SJCNeon, VFPv3L2 cache 256KB ETM, CTI0,1L1 I/D cache IrDA XVRWLANUSB OTG(dev/host)JTAG(IEEE1149.1)Bluetooth Keypad Access.Conn.MMC/SD eMMC/eSDGPSRF/IFRF / IF IC’sAudio, Power Mngmnt.SPBAFlexCAN (2)DigitalAudioCAN i/feSDHCv2 (3)UART SPDIF Rx/Tx ASRCVideo Proc. Unit (VPU)3D Graphics Proc. Unit (GPU3D)G-Memory 256KB2D Graphics Proc. Unit (GPU2D )A X I a n d A H B S w i t c h F a b r i cLVDS(WSXGA+)Battery CtrlDeviceNOR/NAND Flash Ethernet 10/100MbpsFEC (IEEE1588)MLBCamera (2)64KB Clock and ResetPLL (4)CCM GPC SRC XTALOSC (2)CAMP (2)Temperature SensoreSDHCv3Camera(2)(EXTMC)LCD Display (2)SSI ECSPI ESAI P-ATA SATA + Temp MonSATA /P-ATA HDDDDR2/DDR3/LPDDR2Modules List3Modules ListThe i.MX53xA processor contains a variety of digital and analog modules. Table2 describes these modules in alphabetical order.Table2. i.MX53xA Digital and Analog BlocksBlockMnemonicBlock Name Subsystem Brief DescriptionARM ARM Platform ARM The ARM Cortex TM A8 platform consists of the ARM processor version r2p5(with T rustZone) and its essential sub-blocks. It contains the 32Kbyte L1instruction cache, 32Kbyte L1 data cache, Level 2 cache controller and a256Kbyte L2 cache. The platform also contains an event monitor anddebug modules. It also has a NEON coprocessor with SIMD mediaprocessing architecture, a register file with 32/64-bit general-purposeregisters, an integer execute pipeline (ALU, Shift, MAC), dualsingle-precision floating point execute pipelines (FADD, FMUL), aload/store and permute pipeline and a non-pipelined vector floating point(VFP Lite) coprocessor supporting VFPv3.ASRC AsynchronousSample RateConverter MultimediaPeripheralsThe asynchronous sample rate converter (ASRC) converts the samplingrate of a signal associated to an input clock into a signal associated to adifferent output clock. The ASRC supports concurrent sample rateconversion of up to 10 channels of about -120dB THD+N. The sample rateconversion of each channel is associated to a pair of incoming and outgoingsampling rates.The ASRC supports up to three sampling rate pairs.AUDMUX Digital AudioMultiplexer MultimediaPeripheralsThe AUDMUX is a programmable interconnect for voice, audio, andsynchronous data routing between host serial interfaces (for example,SSI1, SSI2, and SSI3) and peripheral serial interfaces (audio and voicecodecs). The AUDMUX has seven ports (three internal and four external)with identical functionality and programming models. A desired connectivityis achieved by configuring two or more AUDMUX ports.CAMP-1 CAMP-2Clock Amplifier Clocks,Resets, andPower ControlClock amplifierCCM GPC SRC Clock ControlModuleGlobal PowerControllerSystem ResetControllerClocks,Resets, andPower ControlThese modules are responsible for clock and reset distribution in thesystem, as well as for system power management.The system includes four PLLs.CSPI ECSPI-1 ECSPI-2ConfigurableSPI, EnhancedCSPIConnectivityPeripheralsFull-duplex enhanced synchronous serial interface, with data rates16-60Mbit/s. It is configurable to support master/slave modes. In Mastermode it supports four slave selects for multiple peripherals.CSU Central SecurityUnit Security The central security unit (CSU) is responsible for setting comprehensive security policy within the i.MX53xA platform, and for sharing securityinformation between the various security modules. The security controlregisters (SCR) of the CSU are set during boot time by the high assuranceboot (HAB) code and are locked to prevent further writing.Modules ListDEBUG Debug System SystemControl The debug system provides real-time trace debug capability of both instructions and data. It supports a trace protocol that is an integral part of the ARM Real Time Debug solution (RealView).Real-time tracing is controlled by specifying a set of triggering and filtering resources, which include address and data comparators, threecross-system triggers (CTI), counters, and sequencers.debug access port (DAP)— The DAP provides real-time access for the debugger without halting the core to system memory, peripheral register, debug configuration registers and JTAG scan chains.EXTMC External MemoryController ConnectivityPeripheralsThe EXTMC is an external and internal memory interface. It performsarbitration between multi-AXI masters to multi-memory controllers, dividedinto four major channels, fast memories (DDR2/DDR3/LPDDR2) channel,slow memories (NOR-FLASH / PSRAM / NAND-FLASH etc.) channel,internal memory (RAM, ROM) channel and graphical memory (GMEM)channel.In order to increase the bandwidth performance, the EXTMC separates thebuffering and the arbitration between different channels so parallelaccesses can occur. By separating the channels, slow accesses do notinterfere with fast accesses.EXTMC Features:•64-bit and 32-bit AXI ports•Enhanced arbitration scheme for fast channel, including dynamic master priority, and taking into account which pages are open or closed andwhat type (read or write) was the last access•Flexible bank interleaving•Support 16/32-bit DDR2-800 or DDR3-800 or LPDDR2.•Support up to 2GByte DDR memories.•Support NFC, EIM signal muxing scheme.•Support 8/16/32-bit Nor-Flash/PSRAM memories (sync and asyncoperating modes), at slow frequency. (8-bit is not supported onD[23]-D[16]).•Support 4/8/14/16-bit ECC, page sizes of 512-B, 2-KB and 4-KBNand-Flash (including MLC)•Multiple chip selects (up to 4).•Enhanced DDR memory controller, supporting access latency hiding•Support watermark for security (internal and external memories)EPIT-1 EPIT-2EnhancedPeriodic InterruptTimerTimerPeripheralsEach EPIT is a 32-bit “set and forget” timer that starts counting after theEPIT is enabled by software. It is capable of providing precise interrupts atregular intervals with minimal processor intervention. It has a 12-bitprescaler for division of input clock frequency to get the required timesetting for the interrupts to occur, and counter values can be programmedon the fly.ESAI Enhanced SerialAudio Interface ConnectivityPeripheralsThe enhanced serial audio interface (ESAI) provides a full-duplex serial portfor serial communication with a variety of serial devices, includingindustry-standard codecs, SPDIF transceivers, and other processors.The ESAI consists of independent transmitter and receiver sections, eachsection with its own clock generator.The ESAI has 12 pins for data and clocking connection to external devices.Table2. i.MX53xA Digital and Analog Blocks (continued) BlockMnemonicBlock Name Subsystem Brief DescriptionModules ListESDHCV3-3Ultra-High-Speed eMMC /SD HostController ConnectivityPeripheralsUltra high-speed eMMC / SD host controller, enhanced to support eMMC4.4 standard specification, for 832MBps.•Port 3 is specifically enhanced to support eMMC 4.4 specification, for double data rate (832Mbps, 8-bit port).ESDHCV3 is backward compatible to ESDHCV2 and supports all thefeatures of ESDHCV2 as described below.ESDHCV2-1 ESDHCV2-2 ESDHCv2-4EnhancedMulti-Media Card/Secure DigitalHost ControllerEnhanced multimedia card / secure digital host controller•Ports 1, 2, and 4 are compatible with the “MMC System Specification”version4.3, full support and supporting 1, 4 or 8-bit data.The generic features of the eSDHCv2 module, when serving as SD / MMChost, include the following:•Can be configured either as SD / MMC controller•Supports eSD and eMMC standard, for SD/MMC embedded type cards•Conforms to SD Host Controller Standard Specification, version2.0, fullsupport.•Compatible with the SD Memory Card Specification, version1.1•Compatible with the SDIO Card Specification, version1.2•Designed to work with SD memory, miniSD memory, SDIO, miniSDIO,SD Combo, MMC and MMC RS cards•Configurable to work in one of the following modes:—SD/SDIO 1-bit, 4-bit—MMC 1-bit, 4-bit, 8-bit•Full/high speed mode.•Host clock frequency variable between 32kHz to 52MHz•Up to 200Mbps data transfer for SD/SDIO cards using 4 parallel datalines•Up to 416Mbps data transfer for MMC cards using 8 parallel data linesFEC Fast EthernetController ConnectivityPeripheralsThe Ethernet media access controller (MAC) is designed to support both10Mbps and 100Mbps Ethernet/IEEE Std 802.3™ networks. An externaltransceiver interface and transceiver function are required to complete theinterface to the media.The i.MX53xA also consists of HW assist for IEEE1588™ standard. See,TSU and CE_RTC (IEEE1588) section for more details.FIRI Fast InfraredInterface ConnectivityPeripheralsFast infrared interfaceFLEXCAN-1 FLEXCAN-2FlexibleController AreaNetworkConnectivityPeripheralsThe controller area network (CAN) protocol was primarily, but notexclusively, designed to be used as a vehicle serial data bus. Meets thefollowing specific requirements of this application: real-time processing,reliable operation in the EXTMC environment of a vehicle,cost-effectiveness and required bandwidth. The FLEXCAN is a fullimplementation of the CAN protocol specification, Version2.0B (ISO11898), which supports both standard and extended message frames at1Mbps.Table2. i.MX53xA Digital and Analog Blocks (continued)BlockMnemonicBlock Name Subsystem Brief Description分销商库存信息:FREESCALEMCIMX534AVV8C MCIMX536AVV8C。

压敏电阻的型号及选用方法SJ1152-82部颁标准中压敏电阻器的型号命名分为四部分，各部分的含义见表1。

表1 压敏电阻器的型号命名及含义第一部分用字母“M” 表示主称为敏感电阻器。

第二部分用字母“Y” 表示敏感电阻器为压敏电阻器。

第三部分用字母表示压敏电阻器的用途的特征。

第四部分用数字表示序号，有的在序号的后面还标有标称电压、通流容量或电阻体直径、电压误差、标称电压等。

例如：MYL1-1（防雷用压敏电阻器）MY31-270/3（270V/3kA普通压敏电阻器）M——敏感电阻器M——敏感电阻器Y——压敏电阻器Y——压敏电阻器L——防雷用31——序号1-1——序号270——标称电压为270V3——通流容量为3kA压敏电阻型号及参数详细信息：压敏电阻是一种以氧化锌为主要成份的金属氧化物半导体非线性电阻元件；电阻对电压较敏感，当电压达到一定数值时，电阻迅速导通。

由于压敏电阻具有良好的非线特性、通流量大、残压水平低、动作快和无续流等特点。

被广泛应用于电子设备防雷。

主要参数：1、残压：压敏电阻在通过规定波形的大电流时其两端出现的最高峰值电压。

2、通流容量：按规定时间间隔与次数在压敏电阻上施加规定波形电流后，压敏电阻参考电压的变化率仍在规定范围内所能通过的最大电流幅值。

3、泄漏电流：在参考电压的作用下，压敏电阻中流过的电流。

4、额定工作电压：允许长期连续施加在压敏电阻两端的工频电压的有效值。

而压敏电阻在吸收暂态过电压能量后自身温度升高，在此电压下能正常冷却，不会发热损坏。

压敏电阻的不足：（1）寄生电容大压敏电阻具有较大的寄生电容，一般在几百至几千微微法的范围。

在高频信号系统中会引起高频信号传输畸变，从而引起系统正常运行。

（2）泄漏电流的存在压敏电阻的泄漏电流指标既关系到被保护电子系统的正常运行，又关系到压敏电阻自身的老化和使用寿命。

压敏电阻的损坏形式：（1）当压敏电阻在抑制暂态过电压时能量超过其额定容量时，压敏电阻会因过热而损坏，主要表现为短路、开路。

RVN4126 3.59100-386-9100-386/T DEVICERVN41772-CD2-3.5MCS/MTSRVN41821-CD2-3.5XTS3000/SABER PORTABLE YES RKN4046KHVN9085 3.51-20 R NO HLN9359 PROG. STAND RVN4057 3.532 X 8 CODEPLUG NO3080385B23 & 5880385B30 MDVN4965 3.59100-WS/T CONFIG KITRVN4053 3.5ASTRO DIGITAL INTERFACE NO3080385B23RVN41842-CD RKN4046A (Portable) 2-3.5ASTRO PORTABLE /MOBILE YES3080369B73 or0180300B10 (Mobile) RVN41831-CD3080369B732-3.5ASTRO SPECTRA MOBILE YES(Low / Mid Power)0180300B10 (High Power) RVN4185CD ASTRO SPECTRA PLUS MOBILE NO MANY OPTIONS; SEESERVICE BRIEF#SB-MO-0101RVN4186CD ASTRO SPECTRA PLUS MANY OPTIONS;MOBILE/PORTABLE COMB SEE SERVICE BRIEF#SB-MO-0101RVN4154 3.5ASTROTAC 3000 COMPAR.3080385B23RVN5003 3.5ASTROTAC COMPARATORS NO3080399E31 Adpt.5880385B34RVN4083 3.5BSC II NO FKN5836ARVN4171 3.5C200RVN4029 3.5CENTRACOM SERIES II NO VARIOUS-SEE MANUAL6881121E49RVN4112 3.5COMMAND PLUS NORVN4149 3.5COMTEGRA YES3082056X02HVN6053CD CT250, 450, 450LS YES AAPMKN4004RVN4079 3.5DESKTRAC CONVENTIONAL YES3080070N01RVN4093 3.5DESKTRAC TRUNKED YES3080070N01RVN4091 3.5DGT 9000 DESKSET YES0180358A22RVN4114 3.5GLOBAL POSITIONING SYS.NO RKN4021AHVN8177 3.5GM/GR300/GR500/GR400M10/M120/130YES3080070N01RVN4159 3.5GP60 SERIES YES PMLN4074AHVN9128 3.5GP300 & GP350RVN4152 3.5GP350 AVSRVN4150 3.5GTX YES HKN9857 (Portable)3080070N01(Mobile) HVN9025CD HT CDM/MTX/EX SERIES YES AARKN4083/AARKN4081RiblessAARKN4075RIBLESS NON-USA RKN4074RVN4098H 3.5HT1000/JT1000-VISAR YES3080371E46(VISAR CONV)RVN4151 3.5HT1000 AVSRVN4098 3.5HT1000/ VISAR CONV’L.YES RKN4035B (HT1000) HVN9084 3.5i750YES HLN-9102ARVN4156 3.5LCS/LTS 2000YES HKN9857(Portable)3080070N01(Mobile) RVN4087 3.5LORAN C LOC. RECV’R.NO RKN4021ARVN4135 3.5M100/M200,M110,M400,R100 includesHVN9173,9177,9646,9774YES3080070N01RVN4023 3.5MARATRAC YES3080070N01RVN4019 3.5MAXTRAC CONVENTIONAL YES3080070N01RVN4139 3.5MAXTRAC LS YES3080070N01RVN4043 3.5MAXTRAC TRK DUPLEX YES3080070N01RVN4178CD MC SERIES, MC2000/2500DDN6124AW/DB25 CONNECTORDDN6367AW/DB9 CONNECTOR RVN41751-CD Rib to MIC connector 1-3.5MCS2000 RKN4062BRVN41131-3.5MCS2000RVN4011 3.5MCX1000YES3000056M01RVN4063 3.5MCX1000 MARINE YES3000056M01RVN4117 3.5MDC/RDLAP DEVICESRVN4105 3.5MOBILE PROG. TOOLRVN4119 3.5MOBITEX DEVICESRVN4128 3.5MPT1327-1200 SERIES YES SEE MANUALRVN4025 3.5MSF5000/PURC/ANALOG YES0180355A30RVN4077 3.5MSF5000/10000FLD YES0180355A30RVN4017K 3.5MT 1000YES RTK4205CRVN4148 3.5MTR 2000YES3082056X02RVN4140 3.5MTRI 2000NORVN41761-CD MTS2000, MT2000*, MTX8000, MTX90001-3.5*programmed by DOS which is included in the RVN4176RVN4131 3.5MTVA CODE PLUG FIXRVN4142 3.5MTVA DOCTOR YES3080070N01RVN4131 3.5MTVA3.EXERVN4013 3.5MTX800 & MTX800S YES RTK4205CRVN4097 1-CD MTX8000/MTX9000,MTS2000,MT2000*,* programmed by DOS which is included in the RVN4176HVN9067CD MTX850/MTX8250MTX950,MTX925RVN4138 3.5MTX-LS YES RKN4035DRVN4035 3.5MX 1000YES RTK4203CRVN4073 3.5MX 800YES RKN4006BHVN9395 P100, P200 LB, P50+, P210, P500, PR3000RVN4134 3.5P100 (HVN9175)P200 LB (HVN9794)P50+ (HVN9395)P210 (HVN9763)P500 (HVN9941)PR3000 (HVN9586)YES RTK4205HVN9852 3.5P110YES HKN9755A/REX1143 HVN9262 3.5P200 UHF/VHF YES RTK4205RVN4129 3.5PDT220YVN4051 3.5PORTABLE REPEATER Portable rptr.P1820/P1821AXRVN4061C 3.5PP 1000/500NO3080385B23 & 5880385B30 RVN5002 3.5QUANTAR/QUANTRO NO3O80369E31RVN4135 3.5R100 (HVN9177)M100/M200/M110/M400YES0180358A52RVN4146 3.5RPM500/660RVN4002 3.5SABER YES RTK4203CRVN4131 3.5SETTLET.EXEHVN9007 3.5SM50 & SM120YESRVN4039 3.5SMART STATUS YES FKN5825AHVN9054 3.5SOFTWARE R03.2 P1225YES3080070N01HVN9001 3.5SOFTWARE R05.00.00 1225LS YES HLN9359AHVN9012 3.5SP50RVN4001N 3.5SPECTRA YES3080369B73 (STANDARD)0180300B10 (HIGH POWER) RVN4099 3.5SPECTRA RAILROAD YES3080369B73RVN4110 3.5STATION ACCESS MODULE NO3080369E31RVN4089A 3.5STX TRANSIT YES0180357A54RVN4051 3.5SYSTEMS SABER YES RTK4203BRVN4075 3.5T5600/T5620 SERIES NO3080385B23HVN9060CD TC3000, TS3000, TR3000RVN4123 3.5VISAR PRIVACY PLUS YES3080371E46FVN4333 3.5VRM 100 TOOLBOX FKN4486A CABLE &ADAPTORRVN4133 3.5VRM 500/600/650/850NORVN4181CD XTS 2500/5000 PORTABLES RKN4105A/RKN4106A RVN41002- 3.5XTS3000 ASTRO PORTABLE/MOBILERVN4170 3.5XTS3500YES RKN4035DRIB SET UPRLN4008E RADIO INTERFACE BOX (RIB)0180357A57RIB AC POWER PACK 120V0180358A56RIB AC POWER PACK 220V3080369B71IBM TO RIB CABLE (25 PIN) (USE WITH XT & PS2)3080369B72IBM TO RIB CABLE (9 PIN)RLN443825 PIN (F) TO 9 PIN (M) ADAPTOR (USE W/3080369B72 FOR AT APPLICATION) 5880385B308 PIN MODULAR TO 25 PIN ”D” ADAPTOR (FOR T5600 ONLY)0180359A29DUPLEX ADAPTOR (MOSTAR/TRAXAR TRNK’D ONLY)Item Disk Radio RIB Cable Number Size Product Required Number Item Disk Radio RIB Cable Number Size Product Required NumberUtilizing your personal computer, Radio Service Software (RSS)/Customer Programming Software (CPS)/CustomerConfiguration Software (CCS) enables you to add or reprogram features/parameters as your requirements change. RSS/CPS/CCS is compatible with IBM XT, AT, PS/2 models 30, 50, 60 and 80.Requires 640K RAM. DOS 3.1 or later. Consult the RSS users guide for the computer configuration and DOS requirements. (ForHT1000, MT/MTS2000, MTX838/8000/9000, Visar and some newer products —IBM model 386, 4 MEG RAM and DOS 5.0 or higher are recommended.) A Radio Interface Box (RIB) may be required as well as the appropriate cables. The RIB and cables must be ordered separately.Licensing:A license is required before a software (RVN) order is placed. The software license is site specific (customer number and ultimate destination tag). All sites/locations must purchase their own software.Be sure to place subsequent orders using the original customer number and ship-to-tag or other licensed sites; ordering software without a licensed customer number and ultimate tag may result in unnecessary delays. To obtain a no charge license agreement kit, order RPX4719. To place an order in the U.S. call 1-800-422-4210. Outside the U.S., FAX 847-576-3023.Subscription Program:The purchase of Radio ServiceSoftware/Customer Programming/Customer ConfigurationSoftware (RVN & HVN kits) entitles the buyer/subscriber to three years of free upgrades. At the end of these three years, the sub-scriber must purchase the same Radio Service Software kit to receive an additional three years of free upgrades. If the sub-scriber does not elect to purchase the same Radio Service Software kit, no upgrades will be sent. Annually a subscription status report is mailed to inform subscribers of the RSS/CPS/CCS items on our database and their expiration dates.Notes:1)A subscription service is offered on “RVN”-Radio Service Software/Customer Programming/Customer Configuration Software kits only.2)“RVN” software must only be procured through Radio Products and Services Division (RPSD). Software not procured through the RPSD will not be recorded on the subscription database; upgrades will not be mailed.3)Upgrades are mailed to the original buyer (customer number & ultimate tag).4)SP software is available through the radio product groups.The Motorola General Radio Service Software Agreement is now available on Motorola Online. If you need assistance please feel free to submit a “Contact Us” or call 800-422-4210.SMART RIB SET UPRLN1015D SMART RIB0180302E27 AC POWER PACK 120V 2580373E86 AC POWER PACK 220V3080390B49SMARTRIB CABLE (9 PIN (F) TO 9 PIN (M) (USE WITH AT)3080390B48SMARTRIB CABLE (25 PIN (F) TO 9 PIN (M) (USE WITH XT)RLN4488ASMART RIB BATTERY PACKWIRELESS DATA GROUP PRODUTS SOFTWARERVN4126 3.59100-386/9100T DEVICES MDVN4965 3.59100-WS/T CONFIG’TN RVN41173.5MDC/RDLAP DEVICESPAGING PRODUCTS MANUALS6881011B54 3.5ADVISOR6881029B90 3.5ADVISOR ELITE 6881023B20 3.5ADVISOR GOLD 6881020B35 3.5ADVISOR PRO FLX 6881032B30 3.5BR8506881032B30 3.5LS3506881032B30 3.5LS5506881032B30 3.5LS7506881033B10 3.5LS9506881035B20 3.5MINITOR III8262947A15 3.5PAGEWRITER 20008262947A15 3.5PAGEWRITER 2000X 6881028B10 3.5TALKABOUT T3406881029B35 3.5TIMEPORT P7308262947A15 3.5TIMEPORT P930NLN3548BUNIVERSAL INTERFACE KITItem Disk Radio NumberSize Product。

| P115MINITACTOR TMFeatures• UL508 Recognized and load break rated for 1000vdc systems• Hermetically sealed contactor: ensures make/break switching up to1200Vdc• Best option for: NEC 690.11 and 690.12 DC arc fault interrupting andrapid shutdown requirements• Small, lightweight and cost effective patented design• Perfect choice for 600Vdc and 1000Vdc photovoltaic/battery systemsSPECIFICATIONSSpecificationsContact ArrangementCOIL RATINGS @ 25°C 2POWER SWITCHING CURRENT CARRY RATINGSCURRENT CARRY vs TIME DC RESISTIVE CLOSING CYCLE ESTIMATESORDERING OPTIONSExample : P115BDADIMENSIONSCoil Terminals:Power Terminals:MountingM4 or 8-32 ScrewsTorque 1.3-1.7Nm [12-15in-lb]Case MaterialThermoplastic Polyester Resin Power Connection M4 StudsTorque 1.3-1.7Nm [12-15in-lb] max Coil Termination M3 StudsTorque 0.5Nm [5in-lb] maxAll dimensions are +/- 0.5mmPage 4CONTACT USSensata Technologies, Inc. (“Sensata”) data sheets are solely intended to assist designers (“Buyers”) who are developing systems that incorporate Sensata products (also referred to herein as “components”). Buyer understands and agrees that Buyer remains responsible for using its independent analysis, evaluation and judgment in designing Buyer’s systems and products. Sensata data sheets have been created using standard laboratory conditions and engineering practices. Sensata has not conducted any testing other than that specifically described in the published documentation for a particular data sheet. Sensata may make corrections, enhancements, improvements and other changes to its data sheets or components without notice.Buyers are authorized to use Sensata data sheets with the Sensata component(s) identified in each particular data sheet. HOWEVER, NO OTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE TO ANY OTHER SENSATA INTELLECTUAL PROPERTY RIGHT, AND NO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT, IS GRANTED HEREIN. SENSATA DATA SHEETS ARE PROVIDED “AS IS”. SENSATA MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE DATA SHEETS OR USE OF THE DATA SHEETS, EXPRESS, IMPLIED OR STATUTORY, INCLUDING ACCURACY OR COMPLETENESS. SENSATA DISCLAIMS ANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT, QUIET POSSESSION, AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARD TO SENSATA DATA SHEETS OR USE THEREOF.All products are sold subject to Sensata’s terms and conditions of sale supplied at SENSATA ASSUMES NO LIABILITY FOR APPLICATIONS ASSISTANCE OR THE DESIGN OF BUYERS’ PRODUCTS. BUYER ACKNOWLEDGES AND AGREES THAT IT IS SOLELY RESPONSIBLE FOR COMPLIANCE WITH ALL LEGAL, REGULATORY AND SAFETY-RELATED REQUIREMENTS CONCERNING ITS PRODUCTS, Americas+1 (805) 684-8401*******************WARNINGSRISK OF MATERIAL DAMAGE AND HOT ENCLOSURE• The product’s side panels may be hot, allow the product to cool before touching • Follow proper mounting instructions including torque values • Do not allow liquids or foreign objects to enter this productFailure to follow these instructions can result in serious injury, or equipment damage.HAZARD OF ELECTRIC SHOCK, EXPLOSION OR ARC FLASH• Disconnect all power before installing or working with this equipment • Verify all connections and replace all covers before turning on powerFailure to follow these instructions will result in death or serious injury.• Electrical life rating is based on resistive load with 27μH maximum inductance in circuit. Because your application may be different, we suggest you test the contactor in your circuit to verify life is as required.• Contactor is bi-directional and therefore can carry, make, and break current in both directions.• Contactor is not sensitive to direction of installation and can be mounted in any position or axis.APPLICATION NOTESGENERAL NOTES1. Temperature range refers to ambient conditions. Terminal temperature can exceed listed values.2. Contactor is operated by a coil that changes resistance with temperature. Since pick-up current, coil current and coil power are specified at nom-inal voltage, they will be lower than indicated at temperatures above 25°C and higher than indicated at temperatures below 25°C. Similarly, pick-up and drop-out voltages will be higher than indicated at temperatures above 25°C and lower than indicated at temperatures below 25°C.。

Dual OutputSingle OutputBlock DiagramMinmax's MIW4000-Series power modules are low-profiledc-dc converters that operate over input voltage ranges of 9-36VDC and 18-75VDC and provide precisely regulated output voltages of 3.3V, 5V, 12V, 15V, {5V, {12V and {15V.The -25] to +71] operating temperature range makes it ideal for data communication equipments, mobile battery driven equipments, distributed power systems, telecommunicationequipments, mixed analog/digital subsystems, process/machinecontrol equipments, computer peripheral systems and industrial robot systems.The modules have a maximum power rating of 6W and a typical full-load efficiency of 86%, continuous short circuit, EN55022 level A conducted noise compliance minimize design-in time, cost and eliminate the need for external components.yMTBF > 1,000,000 Hoursy EMI Complies With EN55022 Class A y Short Circuit Protectiony SMT Technologyy Industry Standard Pinout y I/O Isolation 1500VDC y 4:1 Input Rangey High Power Density y High Efficiency up to 86%Key FeaturesSingle and Dual Outputs5〜6 Watts 4 : 1 Wide Input Range DC/DC ConvertersMIW4000 Series85147{20{200{15MIW403786145{25{250{12MIW403681123{50{500{5MIW4035851474040015MIW4034861455050012MIW40338112910010005MIW403278101010612012003.348( 18 ~ 75 )MIW403185294{20{200{15MIW402786291{25{250{12MIW402681257{50{500{5MIW4025852944040015MIW4024862915050012MIW40238125710010005MIW402278102021212012003.324( 9 ~ 36 )MIW4021% (Typ.)mA (Typ.)mA (Typ.)mA (Typ.)mA mA VDC VDC@Max. Load @No Load @Max. Load Min.Max.EfficiencyReflected Ripple Current Input CurrentOutput CurrentOutput VoltageInput VoltageModel NumberModel Selection GuideEN55022 Class AConducted EMIFree-Air Convection Cooling %95---Humidity ]+125-40Storage Temperature ]+90-40CaseOperating Temperature ]+71-25Ambient Operating Temperature Unit Max.Min.Conditions ParameterEnvironmental SpecificationsExceeding these values can damage the module. These are not continuous operating ratings.mW2,500---Internal Power Dissipation]260---Lead Temperature (1.5mm from case for 10 Sec.)VDC 100-0.748VDC Input ModelsVDC 50-0.724VDC Input Models Input Surge Voltage( 1000 mS )Unit Max.Min.ParameterNote :1. Specifications typical at Ta=+25], resistive load,nominal input voltage, rated output current unless otherwise noted.2. Transient recovery time is measured to within 1%error band for a step change in output load of 75%to 100%.3. Ripple & Noise measurement bandwidth is 0-20MHz.4. These power converters require a minimum output loading to maintain specified regulation.5. Operation under no-load conditions will not damage these devices; however they may not meet all listed specifications.6. All DC/DC converters should be externally fused at the front end for protection.7. Other input and output voltage may be available,please contact factory.8. Specifications subject to change without notice.Absolute Maximum RatingsMIW4000 SeriesPi FilterInput FiltermW 2500------Short Circuit Input Power A 0.5------All Models Reverse Polarity Input Current 16------48V Input Models8.5------24V Input Models Under Voltage Shortdown 18161448V Input Models VDC 98724V Input Models Start VoltageUnitMax.Typ.Min.Model ParameterInput SpecificationsK Hours------1000MIL-HDBK-217F @ 25], Ground BenignMTBFKHz ---340---Switching Frequency pF 550350---100KHz,1VIsolation Capacitance M[------1000500VDC Isolation Resistance VDC ------1650Flash Tested for 1 SecondIsolation Test Voltage VDC ------150060 SecondsIsolation Voltage Unit Max.Typ.Min.Conditions ParameterGeneral SpecificationsContinuousOutput Short Circuit%/]{0.02{0.01---Temperature Coefficient %---{3---Transient Response Deviation uS 500250---25% Load Step Change Transient Recovery Time %350250110Over Power Protection mV rms.15------Ripple & Noise (20MHz)mV P-P 100------Over Line,Load & Temp Ripple & Noise (20MHz)mV P-P 7550---Ripple & Noise (20MHz)%{1.0{0.3---Io=10% to 100%Load Regulation %{0.3{0.1---Vin=Min. to Max.Line Regulation %{2.0{0.5---Dual Output Balance LoadOutput Voltage Balance %{1.0{0.5---Output Voltage Accuracy Unit Max.Typ.Min.ConditionsParameterOutput SpecificationsNote: # For each output .uF6806806803000300030003000Maximum Capacitive Load Unit {15V #{12V #{5V #15V 12V 5V 3.3V Models by VoutCapacitive LoadMIW4000 Series750mA Slow-Blow type1500mA Slow-Blow type48V Input Models 24V Input Models Input Fuse Selection GuideInput Voltage Transient RatingMIW4000 SeriesMIW4000 SeriesTest ConfigurationsInput Reflected-Ripple Current Test SetupLin (4.7uH) and Cin (220uF, ESR < 1.0[ at 100 KHz) to simulate source impedance.Capacitor Cin, offsets possible battery impedance.Current ripple is measured at the input terminals of the module, measurement bandwidth is 0-500 KHz.Peak-to-Peak Output Noise Measurement TestUse a Cout 0.47uF ceramic capacitor.Scope measurement should be made by using a BNC socket, measurement bandwidth is 0-20 MHz. Position the load between 50 mm and 75 mm from the DC/DC Converter.Design & Feature ConsiderationsMaximum Capacitive LoadThe MIW4000 series has limitation of maximum connected capacitance at the output.The power module may be operated in current limiting mode during start-up, affecting the ramp-up and the startup time.For optimum performance we recommend 680uF maximum capacitive load for dual outputs and 3000u F capacitive load for single outputs.The maximum capacitance can be found in the data .Overcurrent ProtectionTo provide protection in a fault (output overload) condition,the unit is equipped with internal current limiting circuitry and can endure current limiting for an unlimited duration. At the point of current-limit inception, the unit shifts from voltage control to current control. The unit operates normally once the output current is brought back into its specified range.Input Source ImpedanceThe power module should be connected to a low ac-impedance input source. Highly inductive source impedances can affect the stability of the power module.In applications where power is supplied over long lines and output loading is high, it may be necessary to use a capacitor at the input to ensure startup.Capacitor mounted close to the power module helps ensure stability of the unit, it is recommended to use a good quality low Equivalent Series Resistance (ESR < 1.0[ at 100KHz) capacitor of a 4.7uF for the 24V input devices and a 2.2uF for the 48V devices.A good quality low ESR capacitor placed as close as practicable across the load will give the best ripple and noise performance.To reduce output ripple, it is recommended to use 3.3uF capacitors at the output.MIW4000 SeriesMIW4000 Series Thermal ConsiderationsMany conditions affect the thermal performance of the power module, such as orientation, airflow over the module and board spacing. To avoid exceeding the maximum temperature rating of the components inside the power module, the case temperature must be kept below 90°C.The derating curves are determined from measurements obtained in an experimental apparatus.Units are encapsulated in a low thermal resistance molding compound which has excellent chemical resistance and electrical properties in high humidity environment and over a wide operating temperature range.The encapsulant and outer shell of the unit have UL94V-0 ratings. The leads are golden plated for better soldering.NC: No Connection+Vin+Vin23UL94V-0:Flammability+Vin +Vin 22Common -Vout 1617.3g :Weight +Vout +Vout 14-Vout NC 11Metal With Non-Conductive Baseplate :Case Material Common No Pin 9-Vin -Vin 3 1.25*0.8*0.4 inches-Vin -Vin 231.8*20.3*10.2 mm :Case Size Dual OutputSingle OutputPin Physical CharacteristicsPin ConnectionsConnecting Pin PatternsTop View ( 2.54 mm / 0.1 inch grids )Mechanical DataMIW4000 Series。

ASAHI KASEI[AK5365]GENERAL DESCRIPTIONAK5365 is a high-performance 24-bit, 96kHz sampling ADC for consumer audio and digital recording applications. Thanks to AKM’s Enhanced Dual-Bit modulator architecture, this analog-to-digital converter has an impressive dynamic range of 103dB with a high level of integration. The AK5365 has a 5-channel stereo input selector, an input Programmable Gain Amplifier with an ALC function. All this integration with high-performance makes the AK5365 well suited for CD and DVD recording systems.FEATURES1. 24bit Stereo ADC• 5ch Stereo Inputs Selector• Input PGA from +12dB to 0dB, 0.5dB Step• Auto Level Control (ALC) Circuit• Digital HPF for offset cancellation (fc=1.0Hz@fs=48kHz)• Digital Attenuator• Soft Mute• Single-end Inputs• S/(N+D) : 94dB• DR, S/N : 103dB• Audio I/F Format : 24bit MSB justified, I2S2. 3-wire Serial µP Interface / I2C-Bus3. Master / Slave Mode4. Master Clock : 256fs/384fs/512fs5. Sampling Rate : 32kHz to 96kHz6. Power Supply• AVDD: 4.75 ∼ 5.25V (typ. 5.0V)• DVDD: 3.0 ∼ 5.25V (typ. 3.3V)7. Power Supply Current : 27mA8. Ta = -40 ∼85°C9. Package : 44pin LQFPOrdering GuideAK5365VQ −40 ∼ +85°C 44pin LQFP (0.8mm pitch)AKD5365Evaluation Board for AK5365Pin LayoutLIN5R I N 54443142414039383736353433323130292827262524232221201918171615141312234567891011AK5365VQTop ViewTEST1LIN4TEST2LIN3TEST3LIN2TEST4LIN1LOPIN LOUTI P G A LI P G A RR O U TR O P I NA V D DA V S SV C O MD V S SD V D DS D T OB IC K LRCKMCLK PDN ALC SMUTE SEL0SEL1SEL2CDTI/SDA CCLK/SCL CSN/CAD1T E S T 8R I N 4T E S T 7R I N 3T E S T 6R I N 2T E S T 5R I N 1M /SC T R LPIN/FUNCTIONNo.Pin Name I/O Function 1LIN5I Lch Analog Input 5 Pin2TEST1I Test 1 Pin (Connected to AVSS)3LIN4I Lch Analog Input 4 Pin4TEST2I Test 2 Pin (Connected to AVSS)5LIN3I Lch Analog Input 3 Pin6TEST3I Test 3 Pin (Connected to AVSS)7LIN2I Lch Analog Input 2 Pin8TEST4I Test 4 Pin (Connected to AVSS)9LIN1I Lch Analog Input 1 Pin10LOPIN I Lch Feed Back Resistor Input Pin11LOUT O Lch Feed Back Resistor Output Pin12IPGAL I Lch IPGA Input Pin13IPGAR I Rch IPGA Input Pin14ROUT O Rch Feed Back Resistor Output Pin15ROPIN I Rch Feed Back Resistor Input Pin16AVDD-Analog Power Supply Pin, 4.75 ∼ 5.25V17AVSS-Analog Ground Pin18VCOM O Common Voltage Output Pin, AVDD/2 Bias voltage of ADC input.19DVSS-Digital Ground Pin20DVDD-Digital Power Supply Pin, 3.0 ∼ 5.25V21SDTO O Audio Serial Data Output Pin22BICK I/O Audio Serial Data Clock PinNote: All digital input pins except pull-down pins should not be left floating. Note: TEST1, TEST2, TEST3 and TEST4 pins should be connected to AVSS.No.Pin Name I/O Function 23LRCK I/O Output Channel Clock Pin24MCLK I Master Clock Input Pin25PDN I Power-Down Mode Pin“H”: Power up, “L”: Power down reset and initializes the control register.26ALC I ALC Enable Pin (Internal Pull-down Pin, typ. 100kΩ) “H” : ALC Enable, “L” : ALC Disable27SMUTE I Soft Mute Pin (Internal Pull-down Pin, typ. 100kΩ) “H” : Soft Mute, “L” : Normal Operation28SEL0I Input Selector 0 Pin29SEL1I Input Selector 1 Pin30SEL2I Input Selector 2 PinCDTI I Control Data Input Pin in 3-wire Control (CTRL pin = “L”) 31SDA I/O Control Data Input / Output Pin in I2C Control (CTRL pin = “H”)CCLK I Control Data Clock Pin in 3-wire Control (CTRL pin = “L”) 32SCL I Control Data Clock Pin in I2C Control (CTRL pin = “H”)CSN I Chip Select Pin in 3-wire Control (CTRL pin = “L”) 33CAD1I Chip Address 1 Select Pin in I2C Control (CTRL pin = “H”)34CTRL I Control Mode Pin“H” : I2C Control & I2S Compatible, “L” : 3-wire Control35M/S I Master / Slave Mode Pin“H” : Master Mode, “L” : Slave Mode36RIN1I Rch Analog Input 1 Pin37TEST5I Test 5 Pin (Connected to AVSS)38RIN2I Rch Analog Input 2 Pin39TEST6I Test 6 Pin (Connected to AVSS)40RIN3I Rch Analog Input 3 Pin41TEST7I Test 7 Pin (Connected to AVSS)42RIN4I Rch Analog Input 4 Pin43TEST8I Test 8 Pin (Connected to AVSS)44RIN5I Rch Analog Input 5 PinNote: All digital input pins except pull-down pins should not be left floating. Note: TEST5, TEST6, TEST7 and TEST8 pins should be connected to AVSS.ABSOLUTE MAXIMUM RATINGS(AVSS, DVSS=0V; Note 1)Parameter Symbol min max UnitsPower Supplies:AnalogDigital|AVSS – DVSS| (Note 2)AVDDDVDD∆GND−0.3−0.3-6.06.00.3VVVInput Current, Any Pin Except Supplies IIN-±10mA Analog Input Voltage(VREF, LIN1-5, RIN1-5, LOPIN, ROPIN, IPGAL, IPGAR pins)VINA−0.3AVDD+0.3V Digital Input Voltage (All digital input pins)VIND−0.3DVDD+0.3V Ambient Temperature (powered applied)Ta−4085°C Storage Temperature Tstg−65150°C Note 1. All voltages with respect to ground.Note 2. AVSS and DVSS must be connected to the same analog ground plane.WARNING: Operation at or beyond these limits may result in permanent damage to the device.Normal operation is not guaranteed at these extremes.RECOMMENDED OPERATING CONDITIONS(AVSS, DVSS=0V; Note 1)Parameter Symbol min typ max UnitsPower Supplies (Note 3)AnalogDigitalAVDDDVDD4.753.05.03.35.25AVDDVVNote 1. All voltages with respect to ground.Note 3. The power up sequence between AVDD and DVDD is not critical.WARNING: AKM assumes no responsibility for the usage beyond the conditions in this datasheet.ANALOG CHARACTERISTICS(Ta=25°C; AVDD=5.0V, DVDD=3.3V; AVSS=DVSS=0V; fs=48kHz, 96kHz; BICK=64fs; Signal Frequency=1kHz; 24bit Data; Measurement frequency=20Hz ∼ 20kHz at fs=48kHz, 40Hz ∼ 40kHz at fs=96kHz; unless otherwise specified) Parameter min typ max Units Pre-Amp Characteristics:Feedback Resistance1050kΩS/(N+D) (Note 4)-100dBS/N (A-weighted)-108dB Load Resistance (Note 5) 6.3kΩLoad Capacitance20pF Input PGA Characteristics:Input Voltage (Note 6)0.91 1.1Vrms Input Resistance (Note 7) 6.31015kΩStep Size0.20.50.8dBGain Control Range ALC = OFFALC = ON−9.5+12+12dBdBADC Analog Input Characteristics: IPGA=0dB, ALC = OFF (Note 8)Resolution24BitsS/(N+D) (−0.5dBFS)fs=48kHzfs=96kHz 84829492dBdBDR (−60dBFS)fs=48kHz, A-weightedfs=96kHz 968910399dBdBS/N fs=48kHz, A-weightedfs=96kHz 968910399dBdBInterchannel Isolation (Note 9)90110dB Interchannel Gain Mismatch0.20.5dB Gain Drift100-ppm/°C Power Supply Rejection (Note 10)50-dB Power SuppliesPower Supply CurrentNormal Operation (PDN pin = “H”)AVDDDVDD (fs=48kHz)(fs=96kHz)Power-down mode (PDN pin = “L”) (Note 11) AVDDDVDD 2348101035816100100mAmAmAµAµANote 4. This value is measured at LOUT and ROUT pins using the circuit as shown in Figure 24.The input signal voltage is 2Vrms.Note 5. This value is the input impedance of an external device that the LOUT and ROUT pins can drive, when a device is connected with LOUT and ROUT pin externally. The feedback resistor (min. 10kΩ) that it is usually connected with the LOUT/ROUT pins, and the value of input impedance (min. 6.3kΩ) of the IPGAL/R pins are not included. Note 6. Full scale (0dB) of the input voltage at ALC=OFF and IPGA=0dB.Input voltage to IPGAL and IPGAR pins is proportional to AVDD voltage. Vin = 0.2 x AVDD (Vrms).Note 7. This value is input impedance of the IPGAL and IPGAR pins.Note 8. This value is measured via the following path. Pre-Amp → IPGA (Gain : 0dB) → ADC.The measurement circuit is Figure 24.Note 9. This value is the interchannel isolation between all the channels of the LIN1-5 and RIN1-5 when the applied input signal causes the Pre-Amp output to equal IPGA input.Note 10. PSR is applied to AVDD and DVDD with 1kHz, 50mVpp.Note 11. All digital input pins are held DVDD or DVSS.FILTER CHARACTERISTICS (fs=48kHz)(Ta=−40 ∼ 85°C; AVDD=4.75 ∼ 5.25V; DVDD=3.0 ∼ 5.25V; fs=48kHz)Parameter Symbol min typ max Units ADC Digital Filter (Decimation LPF):Passband (Note 12)−0.005dB−0.02dB−0.06dB−6.0dB PB0---21.76822.024.021.5---kHzkHzkHzkHzStopband SB26.5kHz Passband Ripple PR±0.005dB Stopband Attenuation SA80dB Group Delay (Note 13)GD29.61/fs Group Delay Distortion∆GD0µs ADC Digital Filter (HPF):Frequency Response (Note 12)−3dB−0.5dB−0.1dB FR 1.02.96.5HzHzHzNote 12. The passband and stopband frequencies scale with fs. For example, 21.768kHz at −0.02dB is 0.454 x fs. Note 13. The calculated delay time induced by digital filtering. This time is from the input of an analog signalto the setting of 24bit data both channels to the ADC output register for ADC.FILTER CHARACTERISTICS (fs=96kHz)(Ta=−40 ∼ 85°C; AVDD=4.75 ∼ 5.25V; DVDD=3.0 ∼ 5.25V; fs=96kHz)Parameter Symbol min typ max Units ADC Digital Filter (Decimation LPF):Passband (Note 14)−0.005dB−0.02dB−0.06dB−6.0dB PB0---43.53644.048.043.0---kHzkHzkHzkHzStopband SB53.0kHz Passband Ripple PR±0.005dB Stopband Attenuation SA80dB Group Delay (Note 15)GD29.61/fs Group Delay Distortion∆GD0µs ADC Digital Filter (HPF):Frequency Response (Note 14)−3dB−0.5dB−0.1dB FR25.813HzHzHzNote 14. The passband and stopband frequencies scale with fs. For example, 43.536kHz at −0.02dB is 0.454 x fs. Note 15. The calculated delay time induced by digital filtering. This time is from the input of an analog signalto the setting of 24bit data both channels to the ADC output register for ADC.DC CHARACTERISTICS(Ta=−40 ∼ 85°C; AVDD=4.75 ∼ 5.25V; DVDD=3.0 ∼ 5.25V)Parameter Symbol min typ Max UnitsHigh-Level Input Voltage Low-Level Input Voltage VIHVIL70%DVDD----30%DVDDVVHigh-Level Output Voltage (Iout=−400µA) Low-Level Output Voltage(Except SDA pin : Iout=400µA) (SDA pin : Iout=3mA)VOHVOLVOLDVDD-0.5------0.50.4VVVInput Leakage Current Iin--±10µASWITCHING CHARACTERISTICS(Ta=−40 ∼ 85°C; AVDD=4.75 ∼ 5.25V; DVDD=3.0 ∼ 5.25V; C L=20pF)Parameter Symbol min typ max Units Master Clock TimingFrequencyPulse Width Low Pulse Width HighfCLKtCLKLtCLKH8.1920.4/fCLK0.4/fCLK24.576MHznsnsLRCK FrequencyNormal Speed Mode Double Speed Mode fsnfsd32484896kHzkHzDuty Cycle Slave modeMaster mode 455055%%Audio Interface Timing Slave modeBICK PeriodBICK Pulse Width LowPulse Width HighLRCK Edge to BICK “↑” (Note 16) BICK “↑” to LRCK Edge (Note 16) LRCK to SDTO (MSB) (Except I2S mode) BICK “↓” to SDTOtBCKtBCKLtBCKHtLRBtBLRtLRStBSD160656530303535nsnsnsnsnsnsnsMaster modeBICK Frequency BICK DutyBICK “↓” to LRCK BICK “↓” to SDTOfBCKdBCKtMBLRtBSD−20−2064fs502035Hz%nsnsNote 17. BICK rising edge must not occur at the same time as LRCK edge.Parameter Symbol min typ max Units Control Interface Timing (3-wire Serial mode):CCLK PeriodCCLK Pulse Width Low Pulse Width High CDTI Setup TimeCDTI Hold TimeCSN “H” TimeCSN “↓” to CCLK “↑” CCLK “↑” to CSN “↑”tCCKtCCKLtCCKHtCDStCDHtCSWtCSStCSH200808040401505050nsnsnsnsnsnsnsnsControl Interface Timing (I2C Bus mode):SCL Clock FrequencyBus Free Time Between TransmissionsStart Condition Hold Time (prior to first clock pulse) Clock Low TimeClock High TimeSetup Time for Repeated Start ConditionSDA Hold Time from SCL Falling (Note 17) SDA Setup Time from SCL RisingRise Time of Both SDA and SCL LinesFall Time of Both SDA and SCL LinesSetup Time for Stop ConditionPulse Width of Spike Noise Suppressed by Input FilterfSCLtBUFtHD:STAtLOWtHIGHtSU:STAtHD:DATtSU:DATtRtFtSU:STOtSP-4.74.04.74.04.70.25--4.0100-------1.00.3-50kHzµsµsµsµsµsµsµsµsµsµsnsReset TimingPDN Pulse Width (Note 18) PDN “↑” to SDTO valid (Note 19) PWN “↑” to SDTO valid (Note 20)tPDtPDVtPDV150516516ns1/fs1/fsNote 17. Data must be held long enough to bridge the 300ns-transition time of SCL.Note 18. The AK5365 can be reset by bringing the PDN pin = “L”.Note 19. This cycle is the number of LRCK rising edges from the PDN pin = “H”.Note 20. This cycle is the number of LRCK rising edges from the PWN bit = “1”.Purchase of Asahi Kasei Microsystems Co., Ltd I2C components conveys a license under the Philips I2C patent to use the components in the I2C system, provided the system conform to the I2C specifications defined by Philips.Timing DiagramMCLKLRCKBICKClock TimingLRCK VIH VILBICK VIH VILSDTO50%DVDDAudio Interface Timing (Slave mode)LRCK BICK50%DVDDSDTO 50%DVDD50%DVDDAudio Interface Timing (Master mode)CSNVIH VILCCLKVIH VILCDTIVIH VILWRITE Command Input TimingCSNVIH VILCCLKVIH VIL CDTI VIH VILWRITE Data Input TimingSDASCLVILVIL I C Bus Mode TimingPDNVILCSNVIH VILSDTO50%DVDDPDNVIH VILSDTO50%DVDDPower Down & Reset TimingOPERATION OVERVIEWSystem ClockMCLK (256fs/384fs/512fs), BICK (48fs∼) and LRCK (fs) clocks are required in slave mode. The LRCK clock input must be synchronized with MCLK, however the phase is not critical. MCLK frequency is automatically detected in slave mode. Table 1 shows the relationship of typical sampling frequency and the system clock frequency.MCLK (256fs/384fs/512fs) is required in master mode. MCLK frequency is selected by CKS1-0 bits as shown in Table 2. In master mode, after setting CKS1-0 bits, there is a possibility the frequency and duty of LRCK and BICK outputs become an abnormal state.All external clocks (MCLK, BICK and LRCK) must be present unless PDN pin = “L” and PWN bit = “1”. If these clocks are not provided, the AK5365 may draw excess current due to its use of internal dynamically refreshed logic. If the external clocks are not present, place the AK5365 in power-down mode (PDN pin = “L” or PWN bit = “0”). In master mode, the master clock (MCLK) must be provided unless PDN pin = “L”.MCLKfs256fs384fs512fs32kHz8.192MHz12.288MHz16.384MHz44.1kHz11.2896MHz16.9344MHz22.5792MHz48kHz12.288MHz18.432MHz24.576MHz96kHz24.576MHz N/A N/ATable 1. System clock example (Slave mode)MCLKCKS1CKS032kHz ≤ fs ≤ 48kHz48kHz < fs ≤ 96kHz00256fs256fs Default01512fs N/A10384fs N/A11N/A N/ATable 2. Master clock frequency select (Master mode)Audio Interface FormatTwo kinds of data formats can be chosen with the DIF bit (Table 3) and the CTRL pin (Table 4). The DIF bit and CTRL pin are ORed between pin and register. In both modes, the serial data is in MSB first, 2’s compliment format. The SDTO is clocked out on the falling edge of BICK. The audio interface supports both master and slave modes. In master mode, BICK and LRCK are output with the BICK frequency fixed to 64fs and the LRCK frequency fixed to 1fs.Mode DIF bit SDTO LRCK BICK FigureDefault0024bit, MSB justified H/L≥ 48fs Figure 11124bit, I2S Compatible L/H≥ 48fs Figure 2Table 3. Audio Interface Format (CTRL pin = “L”)Mode CTRL pin SDTO LRCK BICK Figure0L24bit, MSB justified H/L≥ 48fs Figure 11H24bit, I2S Compatible L/H≥ 48fs Figure 2Table 4. Audio Interface Format (DIF bit = “0”)LRCKBICK(64fs)SDTO(o)Figure 1. Mode 0 TimingLRCKBICK(64fs)SDTO(o)Figure 2. Mode 1 TimingMaster Mode and Slave ModeThe M/S pin selects either master or slave mode. M/S pin = “H” selects master mode and “L” selects slave mode. The AK5365 outputs BICK and LRCK in master mode. In slave mode, MCLK, BICK and LRCK are input externally.BICK, LRCKSlave Mode BICK = Input LRCK = InputMaster Mode BICK = Output LRCK = OutputTable 5. Master mode/Slave modeDigital High Pass FilterThe ADC has a digital high pass filter for DC offset cancellation. The cut-off frequency of the HPF is 1.0Hz (@fs=48kHz) and scales with sampling rate (fs).Power-up/downThe AK5365 is placed in the power-down mode by bringing PDN pin = “L” and the digital filter is also reset at the same time. This reset should always be done after power-up. An analog initialization cycle starts after exiting the power-down mode. Therefore, the output data SDTO becomes available after 516 cycles of LRCK.(1) Power-up Sequence 1Power SupplyPDN pinADC Internal StateIPGASDTOExternal clocksin slave modeExternal clocksin master modeBICK, LRCKin master mode- INITA :Initializing period of ADC analog section (516/fs).- FI :Fade in. After exiting power down, IPGA value fades in.- PDN :Power down state.- The period of (1) should be min. 150ns in Figure 3.Figure 3. Power-up Sequence 1(2) Power-up Sequence 2Power SupplyPDN pinADC Internal StateIPGASDTOExternal clocksin slave modeExternal clocksin master modeBICK, LRCKin master mode- INITA :Initializing period of ADC analog section (516/fs).- FI :Fade in. After exiting power down, IPGA value fades in.- PDN :Power down state.- The period of (1) should be min. 150ns in Figure 4.Figure 4. Power-up Sequence 2Input SelectorThe AK5365 includes 5ch stereo input selectors (Figure 5). The input selector is 5 to 1 selector. The input channel is set by the SEL2-0 bits (Table 6) and the SEL2-0 pins (Table 7). The SEL2-0 pins should be fixed to “LLL” if the AK5365 is controlled by the SEL 2-0 bits, because the setting of the SEL2-0 pins are prior to the SEL2-0 bits setting.SEL2 bit SEL1 bit SEL0 bit Input Channel000LIN1 / RIN1Default001LIN2 / RIN2010LIN3 / RIN3011LIN4 / RIN4100LIN5 / RIN5Table 6. Input Selector (SEL2-0 pin = “LLL”)SEL2 pin SEL1 pin SEL0 pin Input ChannelL L L LIN1 / RIN1L L H LIN2 / RIN2L H L LIN3 / RIN3L H H LIN4 / RIN4H L L LIN5 / RIN5Table 7. Input Selector (SEL2-0 bit = “000”)Figure 5. Input Selector[Input selector switching sequence]The input selector should be changed after soft mute to avoid the switching noise of the input selector (Figure 6).1.Enable the soft mute before changing channel.2.Change channel.3.Disable the soft mute.SMUTEAttenuation Channel DATT Level-∞Figure 6. Input channel switching sequence exampleThe period of (1) varies in the setting value of DATT. It takes 1024/fs to mute when DATT value is 0dB.When changing channels, the input channel should be changed during (2). The period of (2) should be around 200ms because there is some DC difference between the channels.Function of CTRL PinThe CTRL pin sets the audio interface format and the type of serial control interface. When the CTRL pin is “L”, the audio interface format is selected by the DIF bit and the serial control interface is 3-wire control mode. When the CTRL pin is “H”, the audio interface format is fixed to 24bit I2S compatible and the serial control interface is I2C-bus control mode.CTRL pin Audio Interface Format Serial Control InterfaceL Note3-wire ControlH24bit, I2S Compatible I2C-Bus ControlTable 8. CTRL pin FunctionNote: The audio interface format is ORed between the CTRL pin and DIF bit. When the CTRL pin is “L”, the audio interface format can be selected between 24bit MSB justified and 24bit I2S compatible by DIF bit. When the CTRL pin is “H”, the audio interface format is fixed to 24bit I2S compatible.Input AttenuatorThe input ATTs are constructed by adding the input resistor (Ri) for LIN1-5/RIN1-5 pins and the feedback resistor (Rf) between LOPIN (ROPIN) pin and LOUT (ROUT) pin (Figure 7). The input voltage range of the IPGAL/IPGAR pin is typically 0.2 x AVDD (Vrms). If the input voltage of the input selector exceeds 0.2 x AVDD, the input voltage of the IPGAL/IPGAR pins must be attenuated to 0.2 x AVDD by the input ATTs. Table 9 shows the example of Ri and Rf.Figure 7. Input ATT• Example for input rangeInput Range Ri [kΩ]Rf [kΩ]ATT Gain [dB]IPGAL/R pin4Vrms4712−11.86 1.02Vrms2Vrms4724−5.84 1.02Vrms1Vrms474701VrmsTable 9. Input ATT exampleInput VolumeThe AK5365 includes two independent channel analog volumes (IPGA) with 25 levels at 0.5dB steps located in front of the ADC. The digital volume controls (DATT) have 128 levels (including MUTE) and is located after the ADC. Both the analog and digital volumes are controlled through the same register address. When the MSB of the register is “1”, the IPGA changes and when the MSB = “0”, the DATT changes.The IPGA is a true analog volume control that improves the S/N ratio as seen in Table 10. Independent zero-crossing detection is used to ensure level changes only occur during zero-crossings. If there are no zero-crossings, the level will then change after a time-out period (Table 11); the time-out period scales with fs. If a new value is written to the IPGA register before the IPGA changes at the zero crossing or time-out, the previous value becomes invalid. The timer (channel independent) for time-out is reset and the timer restarts for new IPGA value.The DATT is a pseudo-log volume that is linear-interpolated internally. When changing the level, the transition between ATT values has 8031 levels and is done by soft changes, eliminating any switching noise.Input Gain Setting0dB+6dB+12dBfs=48kHz, A-weight103dB100dB96dBTable 10. PGA+ADC S/NZTM1ZTM0Zero crossing timeout period@fs=48kHz00288/fs6ms011152/fs24ms102304/fs48ms Default114608/fs96msTable 11. Zero crossing timeout period[Writing operation at ALC Enable]Writing to the area over 80H (Table 17) of IPGL/R registers is ignored during ALC operation. After ALC is disabled, the IPGA changes to the last written data by zero-crossing or time-out. In case of writing to the DATT area under 7FH (Table 17) of IPGL/R registers, the DATT changes even if ALC is enabled.ALC Operation[1]ALC Limiter OperationWhen the ALC limiter is enabled, and either Lch or Rch exceed the ALC limiter detection level (LMTH bit), the IPGA value is attenuated by the amount defined in the ALC limiter ATT step (LMAT bit) automatically. Then the IPGA value is changed commonly for L/R channels.When the ZELMN bit = “1”, the timeout period is set by the LTM1-0 bits. The operation for attenuation is done continuously until the input signal level becomes the ALC limiter detection level (LMTH bit) or less. If the ALC bit does not change into “0” or the ALC pin does not change into “L” after completing the attenuation, the attenuation operation repeats until the input signal level equals or exceeds the ALC limiter detection level (LMTH bit).When the ZELMN bit = “0”, the timeout period is set by the ZTM1-0 bits. This enables the zero-crossing attenuation function so that the IPGA value is attenuated at the zero-detect points of the waveform.When FR bit = “1”, the ALC operation corresponds to the impulse noise in additional to the normal ALC operation. Then if the impulse noise is supplied at ZELMN bit = “0”, the ALC operation becomes the faster period than a set of ZTM1-0 bits. In case of ZELMN bit = “1”, it becomes the same period as LTM1-0 bits. When FR bit = “0”, the ALC operation is the normal ALC operation.[2]ALC Recovery OperationThe ALC recovery refers to the amount of time that the AK5365 will allow a signal to exceed a predetermined limiting value prior to enabling the limiting function. The ALC recovery operation uses the WTM1-0 bits to define the wait period used after completing an ALC limiter operation. If the input signal does not exceed the “ALC Recovery Waiting Counter Reset Level”, the ALC recovery operation starts. The IPGA value increases automatically during this operation up to the reference level (REF7-0 bits). The ALC recovery operation is done at a period set by the WTM1-0 bits. Zero crossing is detected during WTM1-0, the ALC recovery operation waits WTM1-0 period and the next recovery operation starts. During the ALC recovery operation, when input signal level exceeds the ALC limiter detection level (LMTH bit), the ALC recovery operation changes immediately into an ALC limiter operation.In the case of “(Recovery waiting counter reset level) ≤ Input Signal < Limiter detection level” during the ALC recovery operation, the wait timer for the ALC recovery operation is reset. Therefore, in the case of “(Recovery waiting counter reset level) > Input Signal”, the wait timer for the ALC recovery operation starts.When the impulse noise is input at FR bit = “1”, the ALC recovery operation becomes faster than a normal recovery operation. When the FR bit = “0”, the ALC recovery operation is done by normal period.[3] ALC Level Diagram (1) ALC=OFFFigure 8 and 9 show the level diagram example at ALC=OFF. In Figure 8, Input ATT is −12dB.4Vrms2Vrms0dBFS-12dB-12dB-12dB1Vrms-12dB+6dB+12dBFigure 8. ALC Level diagram example (ALC=OFF)In Figure 9, Input ATT is −6dB.0dBFSFigure 9. ALC Level diagram example (ALC=OFF)(2) ALC=ONFigure 10 and 11 show the level diagram example at ALC=ON. In Figure 10, Input ATT is −12dB and REF7-0 bits are “8CH”.4Vrms2Vrms-12dB-12dB-12dB1Vrms-12dB0.5Vrms-0.5dB-0.5dBFS-6dBFS -12dBFS 0dBFS +5.5dB+6dB0.25VrmsFigure 10. ALC Level diagram example (ALC=ON)In Figure 11, Input ATT is −6dB and REF7-0 bits are “8CH”.2Vrms1Vrms-6dB-6dB0.5Vrms-6dB0.25Vrms-6dB-0.5dB-0.5dBFS-6dBFS 0dBFS +5.5dB+6dB-12dBFSFigure 11. ALC Level diagram example (ALC=ON)[4]Example of ALC OperationThe following registers should not be changed during the ALC operation.•LTM1-0, LMTH, LMAT, WTM1-0, ZTM1-0, RATT, REF7-0, ZELMN bits• The IPGA value of Lch becomes the start value if the IPGA value is different with Lch and Rch when the ALC starts.• Writing to the area over 80H (Table 17) of IPGL/R registers is ignored during ALC operation. After ALC is disabled, the IPGA changes to the last written data by zero-crossing or time-out. In case of writing to the DATT area under 7FH (Table 17) of IPGL/R registers, the DATT changes even if ALC is enabled.Figure 12. Registers set-up sequence at ALC operation(1): Enable soft mute (2): Disable soft muteNote : ALC operation is enabled by the ALC pin.Note : All the bits about ALC operation operate by the default value when an ALC operation is started with the ALC pin without setting up a bit about ALC operation with the register. A bit about ALC operation operate by the setting value when a bit about ALC operation is set up with the register and an ALC operation is started with the ALC pin. Note : After ALC operation is disabled, the IPGA changes to the last written data during or before ALC operation.。

INFRARED RECEIVER MODULE MIM-5xx5K5F DescriptionFeaturesl Photo detector and preamplifier in one packagel Internal filter for PCM frequencyl High immunity against ambient lightl Improved shielding against electric field disturbancel 5.0-Volt supply voltage; low power consumptionl TTL and CMOS compatibilityMIM-5xx5K5F Series Modelsl MIM-5335K5F 33.0KHz l MIM-5385K5F 38.0KHzl MIM-5365K5F 36.0KHz l MIM-5565K5F 56.7KHzl MIM-5375K5F 36.7KHzBLOCK DIAGRAMREV: A1Absolute Maximum RatingsItem Symbol Ratings Unit RemarkSupply voltage Vs-0.3 ~ 5.5VSupply Current Is 2.5mAOperating temperature T opr-25 ~ + 85o CStorage temperature T stg-25 ~ + 85o CSoldering temperature T sd260o C t≦5 s, 1mm from caseElectro-optical characteristics (Vcc=5.0V)Parameter Symbol Min.Typ.Max.Unit RemarksSupply Voltage Vs 4.5 5.0 5.5VCurrent consumption Icc 1.6 2.0mA Under no signal Response wavelength λp940nmOutput form - - - - - active low output - - - - -H level output voltage V0h 4.2VL level output voltage V0l0.5VH level output pulse width Twh400800μsL level output pulse width Twl400800μsDistance between emitter & detector L10.0m NOTE 1Half angle∆θ±45deg Horizonal directionTest MethodA. Standard TransmitterREV: A1B. Detection Length TestC . Pulse Width TestApplication CircuitREV: A1Dimensions in mmREV: A1CHARACTERISTIC CURVES (T A=25o C)REV: A1INFRARED RECEIVER MODULE MIM-5xx5K5F ReliabilityTest item Test condition StandardHigh temparature Ta=+80o C t=240H Note 2.High temp. & high humi.Ta=+40o C 90%RH t=240H Note 2.Low temparature Ta= -25o C t=240H Note 2.Heat cycle -25o C(0.5H) ~ +80o C(0.5H) 20cycle Note 2.Dropping Test devices shall be dropped 3 times naturally Note 3.onto hard wooden board from a 75cm height position.NOTE 1. Distance between emitter & detector specifies maximum distance that output wave form satisfiesthe standard under the conditions below against the standerd transmitter.(1)Measuring place ………Indoor without extreme reflection of light.(2)Ambient light source… Detecting surface illumination shall be 200±50Lux under ordinaryhite fluorescense lamp of no high frequency lighting.(3)Standard transmitter … Burst wave indicated in Fig 1. of standard transmittershall be arranged to 50mVp-p under the measuring circuit specified in Fig 2.NOTE 2. (electro-optical charactistics) shall be satisfied after leaving 2 hours in the normal temperature .NOTE 3. (electro-optical charactistics) shall be satisfied and no conoid deformsand destructions of appearance .(excepting deforms of terminals)Inspection standard1.Among electrical characteristics , total number shall be inspected on items blow.1-1 front distance between emitter & detector1-2 Current consumption1-3 H level output voltage1-4 L level output voltage2.Items except above mentioned are not inspected particularly , but shall fully satisfyCAUTION ( When use and storage of this device )1.Store and use where there is no force causing transformation or change in quality .2.Store and use where there is no corrosive gas or sea(salt) breeze .3.Store and use where there is no extreme humidity .4.Solder the lead-pin within the condition of ratings. After soldering do not add extra force .5.Do not wash this device . Wipe the stains of diode side with a soft cloth. You canuse the solvent , ethylalcohol or methylalcohol or isupropylene only .6.To prevent static electricity damage to the Pre-AMP make sure that the human body, the soldering iron is connected to ground before using .7.Put decoupling device between Vcc and GND for reduse the noise from power supply line .8.The performance of remote-control system depends on environments condition and abilityof periferal parts. Customer should evaluate the performance as total system in those conditionsafter system up with components such as commander , micon and this receiver module .Others1.This device is not design to endure radiative rays and heavily charged particles .2.In case where any trouble or questions arise,both parties agress to make full discussioncovering the said problem .REV: A1。

摩托罗拉XT536图片_整体测评_参数规格_优缺点大全摩托罗拉XT536 整体外观 (3)整体外观第1段 (3)摩托罗拉XT536 屏幕 (5)屏幕第1段 (5)摩托罗拉XT536 听筒按键 (6)听筒按键第1段 (6)摩托罗拉XT536 侧面细节 (8)侧面细节第1段 (8)摩托罗拉XT536 卡槽 (10)卡槽第1段 (10)摩托罗拉XT536 电池 (12)电池第1段 (12)摩托罗拉XT536 社交应用 (13)社交应用第1段 (13)摩托罗拉XT536 娱乐应用 (14)娱乐应用第1段 (14)摩托罗拉XT536 网络应用 (18)网络应用第1段 (18)摩托罗拉XT536 拍照视频 (19)拍照视频第1段 (19)摩托罗拉XT536 主界面 (21)主界面第1段 (21)摩托罗拉XT536 综合测试 (23)综合测试第1段 (23)摩托罗拉XT536 图形测试 (26)图形测试第1段 (26)摩托罗拉XT536 CPU测试 (27)CPU测试第1段 (27)CPU测试第2段 (27)摩托罗拉XT536参数规格 (29)基本参数 (29)基本功能 (30)产品特性 (31)拍照功能 (31)娱乐功能 (31)数据功能 (32)商务功能 (32)手机附件 (32)保修信息 (32)摩托罗拉XT536优点 (34)摩托罗拉XT536缺点 (35)附录：各大手机品牌官方旗舰店简介 (36)三星官方旗舰店 (36)HTC官方旗舰店 (36)诺基亚官方旗舰店 (36)索尼官方旗舰店 (36)摩托罗拉官方旗舰店 (36)索尼爱立信官方旗舰店 (37)LG官方旗舰店 (37)飞利浦官方旗舰店 (37)联想官方旗舰店 (37)海尔官方旗舰店 (37)摩托罗拉XT536整体外观整体外观第1段摩托罗拉XT536相比之前的ME525+从外形上来看主色调依旧为黑色，但是却拥有一个橘红色的边圈妆点，显得格外靓丽。

电路笔记CN-0359Circuits from the Lab® reference designs are engineered and tested for quick and easy system integration to help solve today’s analog, mixed-signal, and RF design challenges. For more information and/or support, visit /CN0359.连接/参考器件AD825310 MHz、20 V/μs、G = 1、10、100、1000、i CMOS可编程增益仪表放大器ADuCM360集成双通道Σ-Δ型ADC和ARM Cortex-M3的低功耗精密模拟微控制器ADA4627-1 30 V、高速、低噪声、低偏置电流JFET运算放大器AD8542CMOS轨到轨通用放大器ADA4000-1 低成本、精密JFET输入运算放大器ADP2300 1.2 A、20 V、700 kHz/1.4 MHz异步降压型稳压器ADA4638-1 30 V、零漂移、轨到轨输出精密放大器ADP1613 650 kHz/1.3 MHz升压PWM DC-DC开关转换器ADA4528-2 精密、超低噪声、RRIO、双通道、零漂移运算放大器ADG1211低电容、低电荷注入、±15 V/+12 V iCMOS四通道单刀单掷开关ADA4077-2 4 MHz、7 nV/√Hz、低失调和漂移、高精度放大器ADG1419 2.1 Ω导通电阻、±15 V/+12 V/±5 V、iCMOS单刀双掷开关AD8592 CMOS、单电源、轨到轨输入/输出运算放大器，具有关断功能ADM3483 3.3 V限摆率、半双工、RS-485/RS-422收发器全自动高性能电导率测量系统Rev. 0Circuits from the Lab® reference designs from Analog Devices have been designed and built by AnalogDevices engineers. Standard engineering practices have been employed in the design andconstruction of each circuit, and their function and performance have been tested and veri ed in a labenvironment at room temperature. However, you are solely responsible for testing the circuit and determining its suitability and applicability for your use and application. Accordingly, in no event shall Analog Devices be liable for direct, indirect, special, incidental, consequential or punitive damages due to any cause whatsoever connected to the use of any Circuits from the Lab circuits. (Continued on last page)One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 Fax: 781.461.3113 ©2015 Analog Devices, Inc. All rights reserved.评估和设计支持电路评估板CN-0359电路评估板(EVAL-CN0359-EB1Z)设计和集成文件原理图、源代码、布局文件、物料清单电路功能与优势图1中的电路是一个完全独立自足、微处理器控制的高精度电导率测量系统，适用于测量液体的离子含量、水质分析、工业质量控制以及化学分析。

MIC5365/6High-Performance Single 150mA LDOMLF and Micro LeadFrame are registered trademarks of Amkor Technology, Inc.General DescriptionThe MIC5365/6 is an advanced general purpose linear regulator offering high power supply rejection (PSRR) in an ultra-small 1mm x 1mm package. The MIC5366 includes an auto-discharge feature that is activated when the enable pin is low. The MIC5365/6 is capable of sourcing 150mA output current and offers high PSRR making it an ideal solution for any portable electronic application.Ideal for battery-powered applications, the MIC5365/6 offers 2% initial accuracy, low dropout voltage (155mV @ 150mA), and low ground current (typically 29µA). The MIC5365/6 can also be put into a zero-off-mode current state, drawing virtually no current when disabled.The MIC5365/6 is available in several advanced packages including a lead-free (RoHS-compliant) 1mm x 1mm ThinMLF ® occupying only 1mm 2of PCB area, a 75% reduction in board area compared to SC-70 and 2mm x 2mm MLF ® packages. It is also available in a thin SOT23-5 package. The MIC5365/6 has an operating junction temperature range of –40°C to 125°C.Data sheets and support documentation can be found on Micrel’s web site at: .Features• Tiny 1mm x 1mm thin MLF ®, SC-70-5,and thin SOT23-5 packages • Input voltage range: 2.5V to 5.5V • 150mA guaranteed output current• Stable with 1µF ceramic output capacitors • Low dropout voltage – 155mV @ 150mA • Excellent load/line transient response • Low quiescent current – 29µA • High PSRR – 70dB• Output discharge circuit – MIC5366 • High output accuracy – ±2% initial accuracy • Thermal-shutdown and current-limit protectionApplications• Mobile phones • Digital cameras• GPS, PDAs, PMP, handhelds • Portable electronics___________________________________________________________________________________________________________Typical ApplicationBlock DiagramsMIC5365 Block DiagramMIC5366 Block DiagramOrdering InformationPart Number MarkingCode OutputVoltageTemperature Range Package Lead FinishMIC5365-1.0YMT 5C 1.0V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-1.2YMT 54 1.2V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-1.3YMT 55 1.3V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-1.5YMT 5F 1.5V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-1.8YMT 5G 1.8V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-2.0YMT 5H 2.0V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-2.5YMT 5J 2.5V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-2.6YMT 5K 2.6V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-2.7YMT 5L 2.7V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-2.8YMT 5M 2.8V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-2.85YMT 5N 2.85V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-2.9YMT 5O 2.9V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-3.0YMT 5P 3.0V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-3.1YMT 5Q 3.1V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-3.3YMT 5S 3.3V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5365-1.0YC5 65C 1.0V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-1.2YC5 654 1.2V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-1.3YC5 655 1.3V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-1.5YC5 65F 1.5V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-1.8YC5 65G 1.8V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-2.0YC5 65H 2.0V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-2.5YC5 65J 2.5V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-2.6YC5 65K 2.6V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-2.7YC5 65L 2.7V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-2.8YC5 65M 2.8V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-2.85YC5 65N 2.85V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-2.9YC5 65O 2.9V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-3.0YC5 65P 3.0V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-3.3YC5 65S 3.3V –40°C to +125°C SC-70-5 Pb-FreeMIC5365-1.2YD5 645 1.2V –40°C to +125°C 5-Pin TSOT23 Pb-FreeMIC5365-1.8YD5 6G5 1.8V –40°C to +125°C 5-Pin TSOT23 Pb-FreeMIC5365-2.8YD5 6M5 2.8V –40°C to +125°C 5-Pin TSOT23 Pb-FreeMIC5365-2.85YD5 6N5 2.85V –40°C to +125°C 5-Pin TSOT23 Pb-FreeMIC5365-3.3YD5 6S5 3.3V –40°C to +125°C 5-Pin TSOT23 Pb-FreeMIC5366-1.0YMT* 6C 1.0V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-1.2YMT* 64 1.2V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-1.3YMT* 65 1.3V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-1.5YMT* 6F 1.5V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-1.8YMT* 6G 1.8V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-2.0YMT* 6H 2.0V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-2.5YMT* 6J 2.5V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-2.6YMT* 6K 2.6V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-2.7YMT* 6L 2.7V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-FreeOrdering Information (Continued)Part Number MarkingCode OutputVoltageTemperature Range Package Lead FinishMIC5366-2.8YMT* 6M 2.8V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-2.85YMT* 6N 2.85V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-2.9YMT* 6O 2.9V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-3.0YMT* 6P 3.0V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-3.3YMT* 6S 3.3V –40°C to +125°C 4-Pin 1mm x 1mm Thin MLF® Pb-Free MIC5366-1.0YC5* 66C 1.0V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-1.2YC5* 664 1.2V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-1.3YC5* 665 1.3V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-1.5YC5* 66F 1.5V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-1.8YC5* 66G 1.8V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-2.0YC5* 66H 2.0V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-2.5YC5* 66J 2.5V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-2.6YC5* 66K 2.6V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-2.7YC5* 66L 2.7V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-2.8YC5* 66M 2.8V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-2.85YC5* 66N 2.85V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-2.9YC5* 66O 2.9V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-3.0YC5* 66P 3.0V –40°C to +125°C SC-70-5 Pb-FreeMIC5366-3.3YC5* 66S 3.3V –40°C to +125°C SC-70-5 Pb-Free Notes:1. Other voltages available. Contact Micrel for details.2. Under bar symbol ( _ ) may not be to scale.3. ThinMLF®▲ = Pin 1 identifier.4. ThinMLF® is a GREEN RoHS compliant package. Lead finish is NiPdAu. Mold compound is Halogen Free.* MIC5366 offers Auto-Discharge function.Pin Configuration4-Pin 1mm × 1mm Thin MLF® (MT)Fixed Version 5-Pin Thin SOT23 (D5)Fixed Version 5-Pin SC-70 (C5) Fixed VersionPin DescriptionPin NumberPin Name Thin MLF-4Pin Name SOT23(5)Pin Name SC-70-5Pin Function1 VOUT – – Output Voltage. 1 – VIN VIN Supply Input.2 GND GND GND Ground3 EN EN ENEnable Input: Active High. High = ON; Low = OFF. Do not leave floating. 4 VIN – – Supply Input. 4 – NC NC No connect. Not internally connected. 5 – VOUT VOUT Output Voltage.EPHS PadNANAExposed Heatsink Pad.Absolute Maximum Ratings(1)Supply Voltage (V IN)...............................................0V to 6V Enable Voltage (V EN)..............................................0V to V IN Power Dissipation (P D)...........................Internally Limited(3) Lead Temperature (soldering, 3µsec)........................260°C Junction Temperature (T J)........................–40°C to +150°C Storage Temperature (T s).........................–65°C to +150°C ESD Rating(4)..................................................................2kV Operating Ratings(2)Supply Voltage (V IN).........................................2.5V to 5.5V Enable Voltage (V EN)..............................................0V to V IN Junction Temperature (T J)........................–40°C to +125°C Junction Thermal Resistance1x1 Thin MLF-4 (θJA).......................................250°C/W SC-70-5(θJA)................................................256.5°C/WElectrical Characteristics(5)V IN = V EN = V OUT + 1V; C IN = C OUT = 1µF; I OUT = 100µA; T J = 25°C, bold values indicate –40°C to +125°C, unless noted.Parameter Condition MinTypMaxUnitsVariation from nominal V OUT –2.0+2.0% Output Voltage AccuracyVariation from nominal V OUT; –40°C to +125°C –3.0 +3.0 %Line Regulation V IN = V OUT +1V to 5.5V; I OUT = 100µA 0.02 0.3 %Load Regulation(6)I OUT = 100µA to 150mA 0.3 1 %Dropout Voltage(7)I OUT = 50mA; V OUT≥ 2.8VI OUT = 150mA; V OUT≥ 2.8VI OUT = 50mA; V OUT < 2.8VI OUT = 150mA; V OUT < 2.8V5515560180110310135380mVmVmVmVGround Pin Current(8)I OUT = 0mA 29 39 µA Ground Pin Current in Shutdown V EN≤ 0.2V 0.05 1 µARipple Rejection f = up to 1kHz; C OUT = 1µFf = 1kHz – 10kHz; C OUT = 1µF8065dBdBCurrent Limit V OUT = 0V 200 325 550 mA Output Voltage Noise C OUT = 1µF, 10Hz to 100kHz 200 µV RMSAuto-Discharge NFETResistanceMIC5366 Only; V EN = 0V; V IN = 3.6V; I OUT = –3mA 30 ΩEnable InputLogic Low 0.2 VEnable Input VoltageLogic High 1.2 VV IL≤ 0.2V 0.01 1 µA Enable Input CurrentV IH≥ 1.2V 0.01 1 µATurn-on Time C OUT = 1µF; I OUT = 150mA 50 125 µs Notes:1. Exceeding the absolute maximum rating may damage the device.2. The device is not guaranteed to function outside its operating rating.3. The maximum allowable power dissipation of any T A (ambient temperature) is P D(max) = T J(max) – T A) / θJA. Exceeding the maximum allowable powerdissipation will result in excessive die temperature, and the regulator will go into thermal shutdown.4. Devices are ESD sensitive. Handling precautions recommended. Human body model, 1.5kΩ in series with 100pF.5. Specification for packaged product only.6. Regulation is measured at constant junction temperature using low duty cycle pulse testing, changes in output voltage due to heating effects arecovered by the thermal regulation specification.7. Dropout voltage is defined as the input-to-output differential at which the output voltage drops 2% below its nominal value measured at 1V differential.For outputs below 2.5V, dropout voltage is the input-to-output differential with the minimum input voltage 2.5V.8. Ground pin current is the regulator quiescent current. The total current drawn from the supply is the sum of the load current plus the ground pincurrent.Typical CharacteristicsPower Supply FREQUENCY (Hz)LOAD CURRENT (mA)Dropout VoltageDropout Voltage TEMPERATURE (°C)SUPPLY VOLTAGE (V)Ground CurrentLOAD CURRENT (mA)Ground CurrentGround Current TEMPERATURE (°C)Output Voltage LOAD CURRENT (mA)Output Voltage3.13.23.4Output Voltage TEMPERATURE (°C)3.3SUPPLY VOLTAGE (V)Current LimitOutput Noise FREQUENCY (Hz)Functional CharacteristicsApplication InformationMIC5365 and MIC5366 are Low noise 150mA LDOs. The MIC5366 includes an auto-discharge circuit that is switched on when the regulator is disabled through the Enable pin. The MIC5365/6 regulator is fully protected from damage due to fault conditions, offering linear current limiting and thermal shutdown.Input CapacitorThe MIC5365/6 is a high-performance, high bandwidth device. An input capacitor of 1µF is required from the input to ground to provide stability. Low-ESR ceramic capacitors provide optimal performance at a minimum of space. Additional high-frequency capacitors, such as small-valued NPO dielectric-type capacitors, help filter out high-frequency noise and are good practice in any RF-based circuit. X5R or X7R dielectrics are recommended for the input capacitor. Y5V dielectrics lose most of their capacitance over temperature and are therefore, not recommended.Output CapacitorThe MIC5365/6 requires an output capacitor of 1µF or greater to maintain stability. The design is optimized for use with low-ESR ceramic chip capacitors. High ESR capacitors are not recommended because they may cause high frequency oscillation. The output capacitor can be increased, but performance has been optimized for a 1µF ceramic output capacitor and does not improve significantly with larger capacitance.X7R/X5R dielectric-type ceramic capacitors are recommended because of their temperature performance. X7R-type capacitors change capacitance by 15% over their operating temperature range and are the most stable type of ceramic capacitors. Z5U andY5V dielectric capacitors change value by as much as 50% and 60%, respectively, over their operating temperature ranges. To use a ceramic chip capacitor with Y5V dielectric, the value must be much higher than an X7R ceramic capacitor to ensure the same minimum capacitance over the equivalent operating temperature range.No-Load StabilityUnlike many other voltage regulators, the MIC5365/6 will remain stable and in regulation with no load. This is especially important in CMOS RAM keep-alive applications. Enable/ShutdownThe MIC5365/6 comes with an active-high enable pin that allows the regulator to be disabled. Forcing the enable pin low disables the regulator and sends it into a “zero” off-mode-current state. In this state, current consumed by the regulator goes nearly to zero. Forcing the enable pin high enables the output voltage. The active-high enable pin uses CMOS technology and the enable pin cannot be left floating; a floating enable pin may cause an indeterminate state on the output.Thermal ConsiderationsThe MIC5365/6 is designed to provide 150mA of continuous current in a very small package. Maximum ambient operating temperature can be calculated based on the output current and the voltage drop across the part. For example if the input voltage is 3.6V, the output voltage is 2.8V, and the output current = 150mA. The actual power dissipation of the regulator circuit can be determined using the equation:P D = (V IN – V OUT1) I OUT + V IN I GNDBecause this device is CMOS and the ground current is typically <100µA over the load range, the power dissipation contributed by the ground current is < 1% and can be ignored for this calculation:P D = (3.6V – 2.8V) × 150mAP D = 0.120WTo determine the maximum ambient operating temperature of the package, use the junction-to-ambient thermal resistance of the device and the following basic equation:⎟⎟⎠⎞⎜⎜⎝⎛−=JAAJ(max)D(MAX)θTTPT J(max) = 125°C, the maximum junction temperature of the die, θJA thermal resistance = 250°C/W for the YMT package, 256.5°C/W for the SC-70-5 package and 235°C/W for the MIC5365/6 in the TSOT23-5 package .Substituting P D for P D(max) and solving for the ambient operating temperature will give the maximum operating conditions for the regulator circuit. The junction-to-ambient thermal resistance for the minimum footprint is 250°C/W.The maximum power dissipation must not be exceeded for proper operation.For example, when operating the MIC5365-2.8YMT at an input voltage of 3.6V and 150mA load with a minimum footprint layout, the maximum ambient operating temperature T A can be determined as follows:0.120W = (125°C – T A)/(250°C/W)T A = 95°CTherefore the maximum ambient operating temperature of 95°C is allowed in a 1mm x 1mm MLF® package. For a full discussion of heat sinking and thermal effects on voltage regulators, refer to the “Regulator Thermals” section of Micrel’s Designing with Low-Dropout Voltage Regulators handbook. This information can be found on Micrel's website at:/_PDF/other/LDOBk_ds.pdfBill of MaterialsDescription Qty.Number ManufacturerItem PartC1, C2 GRM155R61A105KE15D Murata(1)Capacitor, 1µF Ceramic, 10V, X5R, Size 0402 2 U1 MIC5365/6-xxYMT Micrel,Inc.(2)High-Performance Single 150mA LDO 1 Notes:1. Murata: .2. Micrel, Inc.: .Bill of MaterialsDescription Qty.Number ManufacturerItem PartC1, C2 C1005X5R1A105K TDK(1)Capacitor, 1µF Ceramic, 10V, X5R, Size 0402 2 U1 MIC5365/6-xxYC5 Micrel,Inc.(2)High-Performance Single 150mA LDO 1 Notes:1. TDK: .2. Micrel, Inc.: .Bill of MaterialsDescription Qty.Number ManufacturerItem PartC1, C2 C1005X5R1A105K TDK(1)Capacitor, 1µF Ceramic, 10V, X5R, Size 0402 2 U1 MIC5365/6-xxYD5 Micrel,Inc.(2)High-Performance Single 150mA LDO 1 Notes:1. TDK: .2. Micrel, Inc.: .PCB Layout Recommendations (1mm x 1mm Thin MLF®)Top LayerBottom LayerPCB Layout Recommendations (SC-70-5)Top LayerBottom LayerPackage Information4-Pin 1mm x 1mm Thin MLF® (MT)5-Pin SC-70 (C5)SIDE VIEW5-Pin Thin SOT23 (D5)。

NuMicro® FamilyArm® Cortex-A35-based Microprocessor NuMaker-HMI-MA35D1-S1User ManualEvaluation Board for NuMicro® MA35D1 SeriesNUMAKER-HMI-MA35D1-S1 USER MANUAL M-m UThe information described in this document is the exclusive intellectual property ofNuvoton Technology Corporation and shall not be reproduced without permission from Nuvoton.Nuvoton is providing this document only for reference purposes of NuMicro microcontroller andmicroprocessor based system design. Nuvoton assumes no responsibility for errors or omissions.All data and specifications are subject to change without notice.For additional information or questions, please contact: Nuvoton Technology Corporation.Table of Contents1OVERVIEW (9)1.1NuMaker-SOM-MA35D16A81 Board (11)1.2NuMaker-BASE-MA35D1B1 Board (12)1.37’’ TFT LCD Daughter Board (13)1.4Board Part Number and Information (14)2FEATURES (15)2.1NuMaker-SOM-MA35D16A81 Features (15)2.2NuMaker-BASE-MA35D1B1 Features (15)2.37’’ TFT LCD Daughter Board Features (16)3HARDWARE CONFIGURATION (17)3.1NuMaker-SOM-MA35D16A81 Board (17)3.1.1Front View (17)3.1.2Rear View (17)3.1.3Power Input (17)3.1.4RTC Wake-up Control (18)3.1.5PMIC (18)3.1.6eMMC NAND Flash (19)3.1.7RGMII Gigabit PHY (20)NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User Manual3.1.8High Speed Connectors (21)3.2NuMaker-BASE-MA35D1B1 Board (26)3.2.1Front View (26)3.2.2Rear View (26)3.2.3Power and Ground (27)3.2.4High Speed Connectors (27)3.2.5QSPI Flash (31)3.2.6NAND Flash (32)3.2.7SD Card Slot (33)3.2.8HS USB2.0 Connectors (33)3.2.9Power-on Setting (33)3.2.10G igabit Ethernet Transformers and RJ45 Ports (36)3.2.11C MOS Sensor Capture Connectors (36)3.2.12E xternal Bus Interface (EBI) Connector (38)3.2.13E ADC Connector (40)3.2.14U ART (41)3.2.15R S485 (42)3.2.16C AN FD (42)3.2.17S WJ, SWD and ETM (43)3.2.18U SB Virtual COM (VCOM) Port (45)3.2.19R eset and RTC Wake-up Key Buttons (45)3.2.20T FT LCD Connector (45)3.2.21A udio Codec (48)3.2.22S IM Card Slot (49)3.2.23K ey Buttons, LEDs and Buzzer (49)3.2.24M EMS Digital Microphone (50)3.2.25M EMS G-Sensor (50)3.37’’ TFT LCD Daughter Board (51)3.3.1Front View (51)3.3.2Rear View (51)3.3.3Connectors (52)4QUICK START (53)4.1Hardware Setup and Power On (53)4.1.1Insert SD Card (53)4.1.2Configure Power-on Setting (53)4.1.3Power On the NuMaker-BASE-MA35D1B1 Board (54)4.1.4VCOM Port (Optional) (55)4.2Embedder Demos (56)4.2.1H.264 Video Playback (56)4.2.2ML People Counting (56)4.2.32D Accelerator (57)NUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U4.2.4VoIP Demonstration (57)4.2.5Data Security (58)4.2.6Keyword Spotting by RTP M4 (58)5SUPPORTING RESOURCES (60)5.1Documents (60)5.2Software (60)6HARDWARE SCHEMATICS (62)6.1NuMaker-SOM-MA35D16A81 Schematics (62)6.1.1System Block (62)6.1.2PMIC, Crystal and Power Filter Schematic (63)6.1.3Power Group 0, 2, 4 and 5 Schematic (64)6.1.4Power Group 1 Schematic (65)6.1.5Power Group 3 (eMMC1_PJ) Schematic (66)6.1.6Power Group 6, 7, ADC and USB Schematic (67)6.1.7Power Group 8 (RGMII0_PE) Schematic (68)6.1.8Power Group 9 (RGMII1_PF) Schematic (69)6.1.9DDR PHY Schematic (70)6.1.10P CB Placement (71)6.2NuMaker-BASE-MA35D1B1 Schematics (73)6.2.1Power Schematic (73)6.2.2SOM Connectors Schematic (74)6.2.3Power-on Setting and NAND Flash Schematic (75)6.2.4SD0 Schematic (76)6.2.5QSPI0 Schematic (77)6.2.6EADC0 Schematic (78)6.2.7RGMII0_PE Schematic (79)6.2.8RGMII1_PF Schematic (80)6.2.9HSUSB 0/1 Schematic (81)6.2.10C CAP 0/1 Connector Schematic (82)6.2.11L CM Connector Schematic (83)6.2.12E BI Connector Schematic (84)6.2.13N AU88C22 Audio Codec Schematic (85)6.2.14S IM Card Schematic (86)6.2.15R S232 Schematic (87)6.2.16R S485 Schematic (88)6.2.17C AN FD Schematic (89)6.2.18K ey Buttons, LEDs and Buzzer Schematic (90)6.2.19S WJ, SWD and ETM Connectors Schematic (91)6.2.20N UC123 VCOM Schematic (92)6.2.21M EMS Digital Microphone Schematic (93)6.2.22M EMS G-Sensor Schematic (94)6.2.23P CB Placement (95)NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User Manual6.37’’ TFT LCD Daughter Board Schematic (97)7REVISION HISTORY (98)List of FiguresFigure 1-1 NuMaker-HMI-MA35D1-S1 Board from SOM Side (10)Figure 1-2 NuMaker-HMI-MA35D1-S1 Board from TFT LCD Side (10)Figure 1-3 NuMaker-SOM-MA35D16A81 Board (11)Figure 1-4 NuMaker-BASE-MA35D1B1 Board (12)Figure 1-5 7’’ TFT LCD Daughter Board (13)Figure 3-1 Front View of NuMaker-SOM-MA35D16A81 (17)Figure 3-2 Rear View of NuMaker-SOM-MA35D16A81 (17)Figure 3-3 Front View of NuMaker-BASE-MA35D1B1 (26)Figure 3-4 Rear View of NuMaker-BASE-MA35D1B1 (27)Figure 3-5 Front View of 7’’ TFT LCD Daughter Board (51)Figure 3-6 Rear View of 7’’ TFT LCD Daughter Board (52)Figure 4-1 SD0 Standard-SD Card Slot (CON4) (53)Figure 4-2 Power-on Setting DIP Switch (SW4) (53)Figure 4-3 Power Jack (CON1) and Slide Switch (SW1) (54)Figure 4-4 USB VCOM Port (CON21) (55)Figure 4-5 Main Screen of Demonstration (56)Figure 4-6 H.264 Video Playback Demonstration (56)Figure 4-7 ML People Counting Demonstration (57)NUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U Figure 4-8 2D Accelerator Demonstration (57)Figure 4-9 VoIP Demonstration (58)Figure 4-10 Data Security Demonstration (58)Figure 4-11 Keyword Spotting by RTP M4 Demonstration (59)Figure 5-1 Nuvoton Website (60)Figure 5-2 MA35D1 GitHub Resources (61)Figure 6-1 System Block (62)Figure 6-2 PMIC, Crystal and Power Filter Schematic (63)Figure 6-3 Power Group 0, 2, 4 and 5 Schematic (64)Figure 6-4 Power Group 1 Schematic (65)Figure 6-5 Power Group 3 (eMMC1_PJ) Schematic (66)Figure 6-6 Power Group 6, 7, ADC and USB Schematic (67)Figure 6-7 Power Group 8 (RGMII0_PE) Schematic (68)Figure 6-8 Power Group 9 (RGMII1_PF) Schematic (69)Figure 6-9 DDR PHY Schematic (70)Figure 6-10 Front PCB Placement of NuMaker-SOM-MA35D16A81 Board (71)Figure 6-11 Rear PCB Placement of NuMaker-SOM-MA35D16A81 Board (72)Figure 6-12 Power Schematic (73)Figure 6-13 SOM Connectors Schematic (74)Figure 6-14 Power-on Setting and NAND Flash Schematic (75)Figure 6-15 SD0 Schematic (76)Figure 6-16 QSPI0 Schematic (77)Figure 6-17 EADC0 Schematic (78)Figure 6-18 RGMII0_PE Schematic (79)Figure 6-19 RGMII1_PF Schematic (80)Figure 6-20 HSUSB 0/1 Schematic (81)Figure 6-21 CCAP 0/1 Connectors Schematic (82)Figure 6-22 LCM Connector Schematic (83)Figure 6-23 EBI Connector Schematic (84)Figure 6-24 NAU88C22 Audio Codec Schematic (85)Figure 6-25 SIM Card Schematic (86)Figure 6-26 RS232 Schematic (87)Figure 6-27 RS485 Schematic (88)Figure 6-28 CAN FD Schematic (89)Figure 6-29 Key Buttons, LEDs and Buzzer Schematic (90)Figure 6-30 SWJ, SWD and ETM Connectors Schematic (91)Figure 6-31 NUC123 VCOM Schematic (92)Figure 6-32 MEMS Digital Microphone Schematic (93)NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User ManualFigure 6-33 MEMS G-Sensor Schematic (94)Figure 6-34 Front PCB Placement of NuMaker-BASE-MA35D1B1 Board (95)Figure 6-35 Rear PCB Placement of NuMaker-BASE-MA35D1B1 Board (96)Figure 6-36 7’’ TFT LCD Daughter Board Schematic (97)List of TablesTable 1-1 Board Part Number and Information (14)Table 3-1 RTC Power Control Pins of MA35D1 (18)Table 3-2 PMIC (U2) Output Voltage (19)Table 3-3 PMIC (U2) Control Pins (19)Table 3-4 eMMC1 NAND Flash Device (U3) Pin Function (20)Table 3-5 RGMII0 PHY (U4) Pin Funciton (20)Table 3-6 RGMII1 PHY (U5) Pin Funciton (21)Table 3-7 SOM Connector 1 (P1) Pin Function (23)Table 3-8 SOM Connector 2 (P2) Pin Function (25)Table 3-9 SOM Connector 1 (CON2) Pin Function (29)Table 3-10 SOM Connector 2 (CON3) Pin Function (31)Table 3-11 QSPI0 Flash (U8) Pin Function (32)Table 3-12 NAND Flash (U4) Pin Function (32)Table 3-13 SD0 Standard-SD Card Slot (CON4) Pin Function (33)Table 3-14 Secure Boot Options (34)Table 3-15 Booting Source QSPI0 and SD/eMMC IO Voltage Options (34)Table 3-16 Booting Source Options (34)Table 3-17 Page Size Options for NAND Flash Booting Source (34)NUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U Table 3-18 ECC Options for NAND Flash Booting Source (35)Table 3-19 Options for SD Card 0/1 or eMMC 0/1 NAND Flash Device Booting Source (35)Table 3-20 4/8-bit Options for eMMC NAND Flash Device Booting Source (35)Table 3-21 1-bit Options for QSPI0 NAND/NOR Flash Booting Source (35)Table 3-22 Options for USBD or USBH Booting Source (36)Table 3-23 USBH Port 0/1 Options for USBH Booting Source (36)Table 3-24 Over-current High/Low-active Detect Options for USBH Booting Source (36)Table 3-25 CCAP0 Connector (CON7) Pin Function (37)Table 3-26 CCAP1 Connector (CON8) Pin Function (38)Table 3-27 EBI Connector (CON10) Pin Function (40)Table 3-28 EADC0 Connector (J6) Pin Function (41)Table 3-29 UART0 Port, Ground VSS and Tamper Pin Connector (J1) Pin Function (41)Table 3-30 UART11 (U21, CON13) Pin Function (41)Table 3-31 UART16 (U22, CON14) Pin Function (42)Table 3-32 UART12 (U23, CON15) Pin Function (42)Table 3-33 UART14 (U24, CON16) Pin Function (42)Table 3-34 CAN1 (U25, CON17) Pin Function (43)Table 3-35 CAN3 (U26, CON18) Pin Function (43)Table 3-36 SWJ Interface (CON19) Pin Function (44)Table 3-37 SWD Interface (J8) Pin Function (44)Table 3-38 ETM Interface (CON20) Pin Function (45)Table 3-39 NUC123 ICE Interface (J9) Pin Function (45)Table 3-40 LCM Connecor (CON9) Pin Function (48)Table 3-41 I2S0 (U18) Pin Function (48)Table 3-42 I2C2 (U18) Pin Function (48)Table 3-43 Audio Codec (U18) Control Pin Function (49)Table 3-44 SC0 SIM Card Connector (CON12) Pin Function (49)Table 3-45 Key Buttons (KEY_1, KEY_2, KEY_3) Pin Function (49)Table 3-46 LEDs (LEDG4, LEDR1) Pin Function (50)Table 3-47 MEMS Digital Mircrophone (U31) Pin Function (50)Table 3-48 MEMS G-Sensor (U32) Pin Function (50)Table 4-1 SD/eMMC Booting Source Configuration on Power-on Setting (54)Table 4-2 SD0 Booting Source Configuration on Power-on Setting (54)NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User Manual1 OVERVIEWThe NuMaker-HMI-MA35D1-S1 is an evaluation board for Nuvoton NuMicro MA35D1 series microprocessors, and consists of three parts: a NuMaker-SOM-MA35D16A81 SOM board, a NuMaker-BASE-MA35D1B1 base board and a 7” TFT-LCD daughter board. The SOM board integrates corecomponents to simplify the system design, based on MA35D16A887C (BGA312 package, and stackinga 256 MB DDR), PMIC power solution, a 16 GB eMMC Flash, and two Gigabit Ethernet PHY. TheNuMaker-HMI-MA35D1-S1 has rich peripherals such as 2 sets of Gigabit Ethernet, USB2.0 high-speedhost and device, 2 sets of CAN FD, and SPI, I2C, UART, RS-485 serial communication ports for usersto facilitate the evaluation in HMI and industrial control, home appliances, 2-wheel cluster, medicaldevice, new energy applications, ML (Machine Learning) or your creative applications.There are two evaluation boards for the MA35D1 series, NuMaker-HMI-MA35D1-S1 and NuMaker-IoT-MA35D1-A1, which are ideal for HMI and edge gateway applications, respectively. For more details onHMI applications, please refer to NuMaker-HMI-MA35D1-S1 User Manual. For more details on edgegateway applications, please refer to NuMaker-IoT-MA35D1-A1 User Manual.The NuMicro MA35D1 series is a heterogeneous multi-core microprocessor targeted to high-end edgeIIoT gateway. It is based on dual 64-bit Arm Cortex-A35 cores with speed up to 1 GHz, and one 180MHz Arm Cortex-M4 core. Based on the high-performance cores, the MA35D1 series facilities the tinyAI/ML for edge computing.The MA35D1 supports 16-bit DDR2 and DDR3/DDR3L SDRAM. For an easy system design andmanufacture, the MA35D1 series also offers LQFP and BGA packages stacked with the DDR2/DDR3LSDRAM and density up to 512 MB, which significantly reduces PCB layer, size and electromagneticinterference (EMI).The MA35D1 series is a trusted system for IoT products' security requirements. It includes severaladvanced security mechanisms such as Nuvoton Trusted Secure Island (TSI) an isolated securehardware unit, TrustZone, secure boot, tamper-detection, built-in cryptographic accelerators, and aTRNG, as well as Key Store and OTP memory. All the security operations are performed in the TSI toprotect sensitive and high-value data. The features also satisfy customers in IEC 62443 certificationNUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U requirements.For high-end edge IIoT gateway requirements, the MA35D1 series provides multiple advanced and high-speed connection interfaces, such as Gigabit Ethernet, SDIO3.0, USB 2.0 HS, and CAN FD, for edgegateway and new energy applications.For HMI applications, the MA35D1 series provides a LCD display controller with the resolution up to1920x1080 at 60 FPS, a 2D graphic engine, a JPEG and a H.264 decoder integrated for better graphicalHMI effects and video playback.Figure 1-1 NuMaker-HMI-MA35D1-S1 Board from SOM SideFigure 1-2 NuMaker-HMI-MA35D1-S1 Board from TFT LCD Side1.1 NuMaker-SOM-MA35D16A81 BoardThe NuMaker-SOM-MA35D16A81 board contains an on-board target chip MA35D16A887C packagedin a MCP type with internal DDR3L 256 MB SDRAM, a PMIC device DA9062-3A to supply the powersto the target chip MA35D16A887C and dedicated peripherals on this SOM board, an eMMC NANDFlash memory device, two Gigabit Ethernet (RGMII) PHY devices, a battery input header and a PMICreset key button.Figure 1-3 NuMaker-SOM-MA35D16A81 BoardNUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U1.2 NuMaker-BASE-MA35D1B1 BoardThe NuMaker-BASE-MA35D1B1 board contains rich peripherals, including two high speed connectorsto connect the NuMaker-SOM-MA35D16A81 board, serial SPI NAND and parallel NAND Flash memorydevices, a Standard-SD memory card slot, two Gigabit Ethernet transformers and RJ45 ports, two HighSpeed USB ports (Host/Device and Host), an audio codec with microphone and headset jack, a 24-bitRGB LCD with touch connector, an External Bus Interface (EBI) connector, two CMOS sensor inputconnectors, eight channels of ADC input, two RS232 COM ports, two RS485 connectors, two CAN FDconnectors, three user key buttons and two user LEDs.NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User ManualFigure 1-4 NuMaker-BASE-MA35D1B1 Board1.3 7’’ TFT LCD Daughter BoardThis daughter board contains a 7’’4-wire resistive touch TFT LCD panel with pixel resolution of1024x600. (TH0701024600NYR50L1 + AN-3748A)Figure 1-5 7’’ TFT LCD Daughter BoardNUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U1.4 Board Part Number and InformationThe following table lists the part number of this evaluation board (EVB) based on the MA35D16A887C microprocessors, and the PCB names of three parts: NuMaker-SOM-MA35D16A81 SOM board, NuMaker-BASE-MA35D1B1 base board and 7” TFT-LCD daughter board.Part Number of EVB SOM Board BASE Board 7” TFT LCD Daughter BoardNuMaker-HMI-MA35D1-S1NuMaker-SOM-MA35D16A81 V2.xNuMaker-BASE-MA35D1B1 V2.xNuMaker TFT-LCD7 Table 1-1 Board Part Number and InformationNUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User Manual2 FEATURES2.1 NuMaker-SOM-MA35D16A81 Features●Target Chip: MA35D16A887C (BGA 312-Ball) MCP package with DDR3L (256 MB), whichcan run up to 800 MHz●Power–DC 5V input from the NuMaker-BASE-MA35D1B1 board through the SOM high speedconnector–PMIC DA9062-3A:◆Four DC/DC: To supply 1.2V Core power, 1.2V CPU power, 1.35V DDR3L Memorypower and 3.3V I/O power◆Four LDO: To supply 3.0V RTC power, 1.8V I/O power, 2.5V PLL power and3.3V/1.8V eMMC NAND Flash power–Battery input header (J48): Independent DC 3.3V input to V BAT for RTC power (Optional)●Memory Devices–An on-board eMMC NAND Flash memory device (16 GB)●Two Gigabit Ethernet (RGMII) PHY devices●Two 120-pin high speed connectors to connect with NuMaker-BASE-MA35D1B1 board●One PMIC reset key button2.2 NuMaker-BASE-MA35D1B1 Features●Power:NUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U –5V/2A Power Jack and Slide Switch●Debug/Trace:–UART0 debug port: USB Virtual COM (VCOM) port–Debug/Trace ports: SWJ (JTAG+SWD), ETM and SWD connectors●Memory Devices–An on-board Quad SPI NAND Flash device (512 MB)–An on-board NAND Flash device (1 GB)–Standard-SD (SD2.0) memory card slot●One power-on setting DIP-Switch for evaluation booting source selection●Two 120-pin high speed connectors to connect with NuMaker-SOM-MA35D16A81 board●Two sets of Gigabit Ethernet ports: Two Gigabit Ethernet transformer devices and two RJ45port connectors●Two sets of high speed USB ports: One Host/Device port and one Host port●Two camera capture (CMOS sensor) header connectors●One LCM connector to connect with 7’’ 1024x600 LCD da ughter board●One audio codec with microphone input and speaker output●One SIM card slot●One External Bus Interface (EBI) header connector●Two sets of UART transceivers and DB9 connectors●Two sets of RS485 transceivers and header connectors●Two sets of CAN FD transceivers and header connectors●One 8-channel ADC header connector●MEMS Mircrophone●MEMS G-Sensor●Three user key buttons●Two user LEDs●One set of buzzer pads2.3 7’’ TFT LCD Daughter Board Features●One LCD FPC connector to connect with 7’’ 1024x600 TFT LCD panel●One 4-wire resistive touch FPC connector●One connector to connect with NuMaker-BASE-MA35D1B1 board NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User ManualNUMAKER-HMI-MA35D1-S1 USER MANUALM-m U3HARDWARE CONFIGURATION3.1NuMaker-SOM-MA35D16A81 Board3.1.1Front ViewFigure 3-1 shows the main components and connectors from the front side of NuMaker-SOM-MA35D16A81 board. ●Target Chip (U1): MA35D16A887C (BGA312) MCP package with DDR3L (256MB).RGMII1 Gigabit PHY(U5, RTL8211FDI-CG)RGMII0Gigabit PHY(U4, RTL8211FDI-CG)Target Chip(U1, MA35D16A887C)eMMC NAND Flash (U3, THGBMJG7C2LBAU8)PMIC(U2, DA9062-3A)Battery Input(J48)PMIC Reset Key(SW1)Figure 3-1 Front View of NuMaker-SOM-MA35D16A813.1.2 Rear ViewFigure 3-2 shows the main components and connectors from the rear side of NuMaker-SOM-MA35D16A81 board.SOMHigh Speed Connector (P2, DF40C-120DP-0.4V (51))SOMHigh Speed Connector (P1, DF40C-120DP-0.4V (51))Figure 3-2 Rear View of NuMaker-SOM-MA35D16A813.1.3Power Input●5V Input (P2.1~6): DC 5V power input for the NuMaker-SOM-MA35D16A81 board that supplied from the base board through the pin 1 to pin 6 of SOM high speed connector P2.3.1.4 RTC Wake-up Control●Battery Input Connector (J48): DC 3V battery input connector to provide an additional optionalpower to keep the RTC power from the V BAT pin of MA35D1 when the system is power off.●RTC Wake-up Control Pins: The RTC_RPWR and RTC_nRWAKE pins of MA35D1 are the RTCwake-up control pins to control the related DC/DC power whether output voltages or not.Pin No. Pin Name of MA35D1 Function DescriptionU1.E7 RTC_RPWR*1RTC wake-up output pin for external DC/DC (forexample, the PMIC device DA9062-3A (U2) on thisNuMaker-SOM-MA35D16A81 board) enable pincontrol.U1.G5 RTC_nRWAKE*2*3RTC wake-up interrupt input with internal pull-high Note *1: This RTC_RPWR output pin of MA35D1 is not wired directly to the SYS_EN input pin (pin30) of PMIC device DA9062-3A (U2) on this NuMaker-SOM-MA35D16A81 board by default. (TheR89 resistor is NC, but R88 resistor is mounted on board by default)Note *2: This RTC_nRWAKE input pin is wired directly to the RTC Wakeup key button (SW3) onNuMaker-BASE-MA35D1B1 board and the R90 resistor is mounted on board by default.Note *3: This RTC_nRWAKE pin is internal pull-high. If user does not use the RTC wake-up interruptfunction, please pull this pin to low (the R90 is mounted on board by default). In this condition, useralso needs to disable the PWRST bit (RTC_PWRCTL[6]) of the RTC Power Control Register byclearing it for saving the RTC power consumption.Table 3-1 RTC Power Control Pins of MA35D13.1.5 PMIC NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User Manual●PMIC Reset Key Button (SW1): Press this key to pull the nRESETREQ (pin 16) of PMIC deviceDA9062-3A (U2) low to reset this PMIC device to supply the output voltages and control thenRESET signal following the default power-on sequence stored in the internal configuredinitialization.●PMIC (U2): After systerm power-on and pull the SYS_EN (pin 30) of the PMIC device DA9062-3A(U2) to high, the PMIC will follows the configured power-on sequence to supply all necessary anddifferent voltages to the target chip MA35D16A887C and dedicated peripherals on this NuMaker-SOM-MA35D16A81 board, and release the nRESET signal from low to high at the last onesequence step.U2.# Pin Name Output Voltage / MAX. CurrentU2.26 VBUCK1 DC 1.2V ~ 1.34V / 2.5AU2.27 VBUCK2 DC 1.2V / 2.5AU2.25 VBUCK3 DC 3.3V / 2AU2.24 VBUCK4*1DC 1.35V or 1.8V / 2AU2.1 VLDO1 DC 3V / 100mAU2.2 VLDO2 DC 1.8V / 300mAU2.9 VLDO3 DC 2.5V / 300mAU2.11 VLDO4*2DC 3.3V or 1.8V / 300mANote *1: The output voltage of VBUCK4 depends on the status of U2.28 pin and to supply the voltageto the internal DDR memory and DDR PHY of the target chip MA35D16A887C (MCP package withDDR3L SDRAM memory). By default, the U2.28 pin is pull-down to force VBUCK4 pin of PMIC tooutput 1.35V on this NuMaker-SOM-MA35D16A81 board.Note *2: No connection (NC) by default. For more detailed information about how to change the outputvoltage on VLDO4, please refer to the PMIC DA9062-3A Application Note on Nuvoton website.Table 3-2 PMIC (U2) Output VoltageU2.# Pin Name GPIO Function / Pin Nameof MA35D1U2.13 SDA PMIC_I2C0_SDA / PD6*1U2.14 SCL PMIC_I2C0_SCL / PD7*2U2.37 nIRQ PMIC_nIRQ / PA15*3U2.30 SYS_EN*4RTC_RPWR*5Note *1: This PD6 pin is dedicated as PMIC_I2C0_SDA function for controlling external PMIC bydefault.Note *2: This PD7 pin is dedicated as PMIC_I2C0_SCL function for controlling external PMIC bydefault.Note *3: This PA15 pin is dedicated as PMIC_nIRQ input function from external PMIC by default.Note *4: This SYS_EN input pin of PMIC device DA9062-3A (U2) is controlled by RTC_RPWR outputof MA35D1 by default. (The R89 resistor is mounted, but R88 resistor is NC by default)NUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U Note *5: This RTC_RPWR output pin state of MA35D1 is controlled by RTC internal logic and theRTC_nRWAKE input pin state of the target chip MA35D16A887C. The RTC_nRWAKE input pin iscontrolled directly by the RTC Wake-up key (SW3) on NuMaker-BASE-MA35D1B1 board by default.(The R90 resistor is NC by default)Table 3-3 PMIC (U2) Control Pins3.1.6 eMMC NAND FlasheMMC1 NAND Flash Memory Device (U3): An on-board eMMC NAND Flash memory device (PTE7A0MI-16GI, 16 GB) for optional booting source. The booting source depends on the Power-on Setting by the status of DIP Switch (SW4) on the NuMaker-BASE-MA35D1B1 board.Function Name GPIO pin of MA35D1eMMC1_DAT4 PJ0eMMC1_DAT5 PJ1eMMC1_DAT6 PJ2eMMC1_DAT7 PJ3- PJ4*- PJ5*eMMC1_CMD PJ6eMMC1_CLK PJ7eMMC1_DAT0 PJ8eMMC1_DAT1 PJ9eMMC1_DAT2 PJ10eMMC1_DAT3 PJ11Note *: No connection (NC) by default.Table 3-4 eMMC1 NAND Flash Device (U3) Pin Function3.1.7 RGMII Gigabit PHY●RGMII0 Gigabit PHY (U4): The RGMII0 MAC of MA35D1 needs an external Gigabit PHY(RTL8211FDI) to transform signal and pass these 4-pair differential signals to the Ethernettransformer on NuMaker-BASE-MA35D1B1 board through the SOM high speed connector P1.Function Name GPIO pin of MA35D1RGMII0_MDC PE0RGMII0_MDIO PE1RGMII0_TXCTL PE2RGMII0_TXD0 PE3RGMII0_TXD1 PE4 NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User ManualRGMII0_RXCLK PE5RGMII0_RXCTL PE6RGMII0_RXD0 PE7RGMII0_RXD1 PE8RGMII0_RXD2 PE9RGMII0_RXD3 PE10RGMII0_TXCLK PE11RGMII0_TXD2 PE12RGMII0_TXD3 PE13Table 3-5 RGMII0 PHY (U4) Pin Funciton●RGMII1 Gigabit PHY (U5): The RGMII1 MAC of MA35D1 needs an external Gigabit PHY(RTL8211FDI) to transform signal and pass these 4-pair differential signals to the Ethernettransformer on NuMaker-BASE-MA35D1B1 board through the SOM high speed connector P1.Function Name GPIO pin of MA35D1RGMII1_MDC PF0RGMII1_MDIO PF1RGMII1_TXCTL PF2RGMII1_TXD0 PF3RGMII1_TXD1 PF4RGMII1_RXCLK PF5RGMII1_RXCTL PF6RGMII1_RXD0 PF7RGMII1_RXD1 PF8RGMII1_RXD2 PF9RGMII1_RXD3 PF10RGMII1_TXCLK PF11RGMII1_TXD2 PF12RGMII1_TXD3 PF13Table 3-6 RGMII1 PHY (U5) Pin Funciton3.1.8 High Speed ConnectorsSOM High Speed Connectors (P1 and P2): Two 120-pin high speed connectors (DF40C-120DP-0.4V (51)) to connect with the NuMaker-BASE-MA35D1B1 board.NUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U Pin No. GPIO of MA35D1 or Function pin Pin No. GPIO of MA35D1 or Function pin1 PL42 nRESET3 PL54 RTC_nRWAKE5 PN146 VSS7 PD15 8 PN159 PN12 10 PK1511 PN13 12 PK1413 PN7 14 PK1315 PN6 16 PK1217 PN5 18 PL319 PN4 20 PL221 PN3 22 PL123 PN2 24 PL025 PN1 26 PJ1527 PN0 28 PJ1429 VSS 30 PJ1331 PN10 32 PJ1233 VSS 34 PL1535 PN11 36 PL1437 VSS 38 PL1339 PD9 40 PL1241 PD8 42 PL1143 PC4 44 PL1045 PC5 46 PD1447 PC0 48 PA1449 VSS50 PA1351 PC1 52 PA1253 VSS 54 PA1155 PC2 56 PA1057 PC3 58 PA9 NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User Manual59 PC7 60 PA861 PC6 62 PA763 VSS 64 PA665 E_MDIP0 66 PA567 E_MDIN0 68 PA469 VSS 70 PA371 E_MDIP1 72 PA273 E_MDIN1 74 PA175 VSS 76 PA077 E_MDIP2 78 PF1479 E_MDIN2 80 E_LED081 VSS 82 E_LED183 E_MDIP3 84 E_LED285 E_MDIN3 86 F_LED087 VSS 88 F_LED189 F_MDIP0 90 F_LED291 F_MDIN0 92 EADC0_CH793 VSS 94 EADC0_CH395 F_MDIP1 96 EADC0_CH697 F_MDIN1 98 EADC0_CH299 VSS 100 EADC0_CH5101 F_MDIP2 102 EADC0_CH1103 F_MDIN2 104 EADC0_CH4105 VSS 106 EADC0_CH0107 F_MDIP3 108 VSS109 F_MDIN3 110 HSUSB0_D+111 VSS 112 HSUSB0_D-113 PE15 114 VSS115 PE14 116 HSUSB1_D+117 HSUSB0_ID 118 HSUSB1_D-119 PF15 120 VSSNUMAKER-HMI-MA35D1-S1 USER MANUAL M-m U Table 3-7 SOM Connector 1 (P1) Pin FunctionPin No. GPIO of MA35D1 or Function pin Pin No. GPIO of MA35D1 or Function pin1 VDD5V2 VDD5V3 VDD5V4 VDD5V5 VDD5V6 VDD5V7 VSS 8 VSS9 PH3 10 PH411 PH2 12 PH513 PH1 14 PH615 PH0 16 PH717 PI15 18 PC1219 PI14 20 PC1321 PI13 22 PC1423 PI12 24 PC1525 PI11 26 PH1227 PI10 28 PH1329 PI9 30 PH1431 PI8 32 PH1533 PB15 34 VSS35 PB14 36 PG1037 PB13 38 VSS39 PB12 40 PG941 PB11 42 PG843 PB10 44 PK445 PB9 46 PK547 PB8 48 PK649 PK3 50 PK751 PK2 52 PM1553 PK1 54 PM1455 PK0 56 PM13 NUMAKER-HMI-MA35D1-S1 USER MANUAL Maker Nu-mbed NUC472 User Manual57 PI7 58 PM1259 PI6 60 VSS61 PI5 62 PL663 PI4 64 VSS65 PI3 66 PG1567 PI2 68 PG1469 PI1 70 PG1371 PI0 72 PG1273 PD13 74 PG1175 PD12 76 PG777 PD11 78 PG679 PD10 80 PG581 PL9 82 PG483 PL8 84 PG385 PL7 86 PG2。

Table of Contents1.0 Introduction 22.0 Specifications 33.0 Checking Package Contents 34.0 Connecting The Hardware 45.0 Operating The Unit 46.0 Troubleshooting 57.0 Limited Warranty 58.0 Regulatory Compliance 69.0 Contacts 6Thanks for purchasing this AP-536 HDMI Audio Extractor from the AV Toolbox division of TV One. The AP-536 is a compact device that allows you to extract embedded audio from an HDMI signal. Some video displays accept an HDMI video signal but do not provide a way to process the embedded audio. The AP-536 will extract, process and present for distribution virtually any of the standard embedded audio formats and provide both optical and analog outputs for connection to your audio amplification system. AV Toolbox offers a wide range of video, audio and multimedia products.1.1 Liability StatementEvery effort has been made to ensure that this product is free of errors. AV Toolbox cannot be held liable for the use of this hardware or any direct or indirect consequential damages arising from its use. It is the responsibility of the user of the hardware to check that it is suitable for his/her requirements and that it is installed correctly. All rights reserved. No parts of this manual may be reproduced or transmitted by any form or means electronic or mechanical, including photocopying, recording or by any information storage or retrieval system without the written consent of the publisher.AV Toolbox reserves the right to revise any of its hardware and software following its policy to modify and/or improve its products where necessary or desirable. This statement does not affect the legal rights of the user in any way.All third party trademarks and copyrights are recognised. The AV Toolbox logo is a trademark of AV Toolbox. All other trademarks are the property of their respective holders.1.2 FeaturesThe AP-536 HDMI Audio Extractor has many features that enable it to perform in a superior manner. Among those features you will find:∙Compliant with HDMI 1.3, HDCP 1.2 and DVI 1.0∙HDMI Sample Rates to 192 kHz∙Audio spectrum Sample Rates to 48kHz∙225 MHz Clock Rate∙Supports High Bit Rate Audio∙Selectable Audio EDID of TV, LPCM 2.0 or Bitstream∙1080p HDMI Cable distance of 15 Meters (50 ft.)∙Simple installation∙Low Power Consumption3.0 CHECKING PACKAGE CONTENTSBefore attempting to use this unit, please check the packaging and make certain the following items are contained in the shipping carton:∙1x AP-536 HDMI Audio Extractor∙1x AC Adapter∙1x Operation ManualNote: Please retain the original packing material should the need ever arise to return the unit. If you find any items are missing, contact your reseller or TV One immediately. Have the Model Number, Serial Number and Invoice available for reference when you call.4.0 CONNECTING THE HARDWAREPlease study the panel drawings below and become familiar with the Signal Input, Outputs, Power connector and On/Off switch plus the Signal adjustment control location.Connect the HDMI output from the source equipment to the HDMI In connector on the AP-536. Next, connect the AP-536’s Optical or L and R outputs to the destination audio equipment. Optionally, connect the HDMI Out to an HDMI display device.Set the audio EDID switch on the right side of the AP-536 to the desired audio support mode (TV Pass-through, Bitstream or 2 Channel LPCM).Note: The Optical output supports Dolby Digital, DTS and LPCM 2.0 sources. The L/R Audio output can only support LPCM 2.0 audio sources.Connect the AC adapter to the AP-536 and to a working AC power socket. You may then turn on the destination equipment and the source equipment.5.0OPERATING THE UNITOther than connecting power, connecting the cables to the source and destination equipment and making the desired audio support selection, there are no operator interventions required.6.0 TROUBLESHOOTINGIn the event that the unit appears to be non-functional, make certain that the AC power outlet is active for the source and destination equipment as well as the AP-536. Next, substitute each cable in use with a known good cable to remove that variable.After trying the above suggestions should the problem still persist, contact your dealer for additional suggestions before contacting AV Toolbox. Should the dealer’s technical personnel be unable to ass ist you, contact AV Toolbox via the TV One support website: . Create a technical support request on the site and our support team will respond within a short period of time.7.0 LIMITED WARRANTYLIMITED WARRANTY – AV Toolbox warrants the original purchaser that the equipment it manufactures will be free from defects in materials and workmanship for a period of one year from the date of purchase. Should this product, in AV Toolbox’s opinion, prove defective within this warrant y period, AV Toolbox, at its option, will repair or replace this product without charge. Any defective parts replaced become the property of AV Toolbox. This warranty does not apply to those products which have been damaged due to accident, unauthorized alterations, improper repair, modifications, inadequate maintenance and care, or use in any manner for which the product was not originally intended. If repairs are necessary under this warranty policy, the original purchaser must obtain a Return Authorization Number from AV Toolbox and return the product to a location designated by AV Toolbox, freight prepaid. After repairs are complete, the product will be returned, freight prepaid.LIMITATIONS - All products sold are "as is" and the above Limited Warranty is in lieu of all other warranties for this product, expressed or implied, and is strictly limited to one year from the date of purchase. AV Toolbox assumes no liability to distributors, dealers or end-users for any loss of use, revenue or profit.AV Toolbox makes no other representation of warranty as to fitness for the purpose or merchantability or otherwise in respect of any of the products sold. The liability of AV Toolbox with respect to any defective products will be limited to the repair or replacement of such products. In no event shall AV Toolbox be responsible or liable for any damage arising from the use of such defective products whether such damages be direct, indirect, consequential or otherwise, and whether such damages are incurred by the reseller, end-user or any third party.8.0 REGULATORY COMPLIANCEThe AP-536 HDMI Audio Extractor has been tested for compliance with appropriate FCC and CE rules and regulations. The Power Adaptor/Supplies have been tested for compliance with appropriate UL, CUL, CE, PSE, GS Rules, Regulations and/or Guidelines. These Products and Power Adapters are RoHS Compliant.9.0 CONTACT INFORMATIONShould you have questions or require assistance with this product in areas not covered by this manual, please contact AV Toolbox at the appropriate location.AV ToolboxA division of TVOne 2791 Circleport Drive Erlanger, KY 41018 USATel 859-647-1077 Fax 859-282-8225******************* AV ToolboxA division of TV One Ltd Continental Approach Westwood Industrial Estate Margate, Kent CT9 4JG, UK Tel +44 (0)1843 873307Fax +44 (0)1843 873312************************** AV Toolbox Latin AmericaA division of TV One L.A.6991 NW 82 Avenue #8 Miami, FL 33166USATel 305-396-6275Fax 305-418-9306***************************** TV One MercosurAv. Diaz Velez 3965 #PB (1200) Capital Federal Buenos Aires, Argentina Tel +54 11 5917-2525Fax +54 11 4032-0281************************ TV One Asia16F-4, NO.75, Sec. 1 Xintai 5th Rd., Xizhi Dist. New Taipei City 22101 Taiwan R.O.C.Tel +886 2 2698-2296 Fax +886 2 2698-2297 ******************** TV One ChinaRm. 1007, Golden Peach Bldg.No. 1900 Shangcheng RoadPudong, ShanghaiChina 200120Tel +86 21 5830-2960Fax +86 21 5851-7949Email:*********************End of Manual。

ip5353外接热敏电阻规格1.引言1.1 概述概述部分的内容可以涵盖以下内容：IP5353是一种常用的外接热敏电阻规格，被广泛应用于各种电子设备中。

本文主要介绍了IP5353热敏电阻的基本性质、特点和规格参数，以及其在实际应用中的作用和意义。

热敏电阻是一种基于电阻值与温度之间关系变化的电子元件，其电阻值会随着温度的变化而变化。

IP5353热敏电阻具有较高的灵敏度和稳定性，能够准确感知环境温度的变化，并将其转化为电阻值的变化。

IP5353热敏电阻规格参数包括温度系数、额定电阻值、额定功率、绝缘电阻和耐压等。

其中，温度系数是衡量热敏电阻对温度变化响应能力的重要指标，一般用ppm/表示。

额定电阻值是指在特定温度条件下的电阻值，常见的有10KΩ、100KΩ等。

额定功率是指热敏电阻所能耗散的功率上限，绝缘电阻是指在一定电压下，热敏电阻之间的绝缘性能，而耐压是指热敏电阻能承受的最大工作电压。

IP5353热敏电阻广泛应用于温度测量、温度补偿、电子温控、电池保护等领域。

它可以通过测量电阻值的变化来判断环境温度的变化情况，从而实现对电子设备的温度控制和保护。

在实际应用中，IP5353热敏电阻的性能和规格参数的正确选择与设置，对于提高设备的可靠性和精确性至关重要。

因此，本文将详细介绍IP5353热敏电阻的规格参数和性能特点，并结合实际应用场景，探讨其在电子设备中的重要作用和具体应用。

通过对IP5353热敏电阻规格的深入了解和应用，我们可以更好地理解和应用该电阻，提升电子设备的质量和可靠性。

1.2 文章结构文章结构是指文章整体的组织架构和内容安排。

一个良好的文章结构可以使文章层次清晰、逻辑紧密，有助于读者理解和把握文章的核心内容。

以下是本文的文章结构：2. 正文2.1 第一个要点2.2 第二个要点文章的正文部分是主体内容，包括对IP5353外接热敏电阻规格的详细介绍和分析。

根据文章大纲中的安排，我们将在正文部分分别阐述第一个要点和第二个要点。

KMM5364005CK/CKG & KMM5364105CK/CKG Fast Page Mode with EDO Mode 4M x 36 DRAM SIMM using 4Mx4 and 16M Quad CAS, 4K/2K, Refresh, 5VThe Samsung KMM53640(1)05CK is a 4Mx36bits Dynamic RAM high density memory module. The Samsung KMM53640(1)05CK consists of eight CMOS 4Mx4bits DRAMs in 24-pin SOJ package and one CMOS 4Mx4 bit Quad CAS with EDO DRAM in 28-pin SOJ package mounted on a 72-pin glass-epoxy substrate. A 0.1 or 0.22uF decoupling capacitor is mounted on the printed circuit board for each DRAM. The KMM53640(1)05CK is a Single In-line Memory Module with edge connections and is intended for mounting into 72 pin edge connector sockets.• Part Identification- KMM5364005CK(4096 cycles/64ms Ref, SOJ, Solder) - KMM5364005CKG(4096 cycles/64ms Ref, SOJ, Gold) - KMM5364105CK(2048 cycles/32ms Ref, SOJ, Solder) - KMM5364105CKG(2048 cycles/32ms Ref, SOJ, Gold)• Fast Page Mode with Extended Data Out • CAS-before-RAS refresh capability • RAS-only and Hidden refresh capability • TTL compatible inputs and outputs • Single +5V ±10% power supply • JEDEC standard PDPin & pinout• PCB : Height(1000mil), single sided componentGENERAL DESCRIPTIONFEATURESPERFORMANCE RANGESpeed t RACt CACt RCt HPC-550ns 13ns 90ns 25ns -660ns15ns110ns30nsPIN NAMESPin Name FunctionA0 - A11Address Inputs(4K Ref)A0 - A10Address Inputs(2K Ref)DQ0 - DQ35Data In/Out W Read/Write Enable RAS0Row Address Strobe CAS0 - CAS3Column Address Strobe PD1 -PD4Presence Detect Vcc Power(+5V)Vss Ground NCNo ConnectionPRESENCE DETECT PINS (Optional)* Pin connection changing availablePin 50NS 60NS PD1PD2PD3PD4Vss NC Vss VssVss NC NC NCPIN CONFIGURATIONSPin 123456789101112131415161718192021222324252627282930313233343536Symbol V SS DQ0DQ18DQ1DQ19DQ2DQ20DQ3DQ21Vcc NC A0A1A2A3A4A5A6A10DQ4DQ22DQ5DQ23DQ6DQ24DQ7DQ25A7A11Vcc A8A9Res(RAS1)RAS0DQ26DQ8Pin 373839404142434445464748495051525354555657585960616263646566676869707172Symbol DQ17DQ35Vss CAS0CAS2CAS3CAS1RAS0Res(RAS1)NC W NC DQ9DQ27DQ10DQ28DQ11DQ29DQ12DQ30DQ13DQ31Vcc DQ32DQ14DQ33DQ15DQ34DQ16NC PD1PD2PD3PD4NC Vss* NOTE : A11 is used for only KMM5364005CK/CKG (4K ref.)SAMSUNG ELECTRONICS CO., LTD. reserves the right to change products and specifications without notice.DQ8DQ17DQ26DQ35FUNCTIONAL BLOCK DIAGRAMDQ0DQ1DQ2DQ3CAS RAS OEWA0-Vcc Vss.1 or .22uF Capacitor for each DRAMTo all DRAMsA11(A10)DQ0DQ1DQ2DQ3CAS RAS OEWA0-A11(A10)DQ0DQ1DQ2DQ3CAS RAS OEWA0-A11(A10)DQ0DQ1DQ2DQ3CAS RAS OEWA0-A11(A10)DQ0DQ1DQ2DQ3CAS RAS OEWA0-A11(A10)DQ0DQ1DQ2DQ3CAS RAS OEWA0-A11(A10)DQ0DQ1DQ2DQ3CAS RAS OEWA0-A11(A10)DQ0DQ1DQ2DQ3CAS RAS OEWA0-A11(A10)DQ0DQ1DQ2DQ3CAS0CAS1CAS2CAS3RAS OE WA0-A11(A10)WA0-A11(A10)DQ31-DQ34DQ27-DQ30DQ22-DQ25DQ18-DQ21DQ13-DQ16DQ9-DQ12DQ4-DQ7DQ0-DQ3U0U1U2U3U4U5U6U7CAS0RAS0CAS1CAS2CAS3U8。