RS206L_DataSheet

PLCC LED Series Datasheet ORH-R36A(IF=20mA)1.Features:⏹Chip material:AlGaInP/GaAs.⏹Emitted Color:Super Orange Red.⏹Lens Appearance:Water Clear.⏹Mono-color type.⏹ 1.6x0.8x0.6mm(0603)standard package.⏹Suitable for all SMT assembly methods.⏹Compatible with infrared and vapor phase reflow solder process.⏹Compatible with automatic placement equipment.⏹This product doesn’t contain restriction substance,comply ROHS standard.2.Applications:⏹Automotive:Dashboards,stop lamps,turn signals.⏹Backlighting:LCDs,Key pads advertising.⏹Status indicators:Comsumer&industrial electronics.⏹General use.ORH-R36A 3..Package Dimensions:NOTES:1).All dimensions are in millimeters(inches).2).Tolerance is±0.10mm(0.004”)unless otherwise specified.3).Specifications are subject to change without notice.4.Absolute Maximum Ratings(Ta=25℃)Parameter Symbol Rating Unit Power Dissipation Pd100mW Forward Current I F30mA Peak Forward Current＊1I FP100mA Operating Temperature Topr-25℃~80℃-Storage Temperature Tstg-30℃~85℃-Soldering Temperature Tsol260℃-＊1Condition for I FP is pulse of1/10duty and0.1msec width.5.Electrical and optical characteristics(Ta=25℃)Parameter Symbol Condition Min.Typ.Max.Unit Forward Voltage Vf I F=20mA 1.6- 2.4V Luminous Intensity Iv I F=20mA63-210mcdORH -R 36AReverse CurrentI R V R =5V--100μAPeak Wave Length λpI F =20mA -630-nmDominant Wave Length λd I F =20mA 618630nmSpectral Line Half-width ΔλI F =20mA -17-nmVeiwing Angle 2θ1/2I F =20mA -120-deg6.Typical Electro-Optical Characteristics CurvesF o rw a rd c u rre n t (m A )R e l a t i v e l u m i n o u s i n t e n s i t y (@20m A )R e l a t i v e r a d i a n t i n t e n s i t yW a v e le n g th (n m )v s. fo rw a rd c u rre n tF o rw a rd v o lta g e (V )F ig.5 R e la tiv e lu m in o u s in te n s ityF ig.3 F o rw a rd c u rre n t v s. fo rw a rd v o lta g eF o r w a r d c u r r e n t (m A )1020304050(N o r m a l i z e d @20m A )R e l a t i v e L u m i n o u s i n t e n s i t y0F ig.6 R a d ia tio n d ia g ra mA m b ie n t te m p e ra tu re T a ( C )0.51.01.5a mb ie n t te m p e ra tu re2.52.03.0F ig.4 R e la tiv e lu m in o u s in te n s ity v s.A m b ie n t te m p e ra tu re T a ( C )F ig.1 R e la tiv e in te n s ity v s. w a v e le n g thR e l a t i v e r a d i a n t i n t e n s i t y0.5F o r w a r d c u r r e n t (m A )201030405060v s. a m b ie n t te m p e ra tu reF ig.2 F o rw a rd c u rre n t d e ra tin g c u rv e1.00.70.80.9000001020ORH-R36A7.Judgment criteria of failure for the reliabilityMeasuring items Symbol Measuring conditions Judgement criteria for failure Forward voltage V F(V)I F=20mA Over Ux1.2Reverse current I R(uA)V R=5V Over Ux2Luminous intensity Iv(mcd)I F=20mA Below SX0.5Note:1).U means the upper limit of specified characteristics.S means initial value.2).Measurment shall be taken between2hours and after the test pieces have been returned to normal ambient conditions after completion of each test.8.Bin LimitsIntensity Bin Limits(At20mA)BIN CODE Min.(mcd)Max.(mcd)P6394Q94140R140210Tolerance for each Bin limit is±15%.Color Bin Limits(At20mA)BIN CODE Min.(nm)Max.(nm)66186257625630Tolerance for each Bin limit is±1nm.V F Bin Limits(At20mA)BIN CODE Min.(v)Max.(v)A 1.6 1.8B 1.8 2.0C 2.0 2.2D 2.2 2.4Tolerance for each Bin limit is±0.05V.ORH -R 36A9.BIN ：xx xV F BI N CO D E Co l o r BI N CO D E In t e n s i t y BI N CO D E10.Tapping and packaging specifications(Units:mm)USER DIRECTION OF FEED 4.0∮0.14.0∮0.1C A T H OD EA N O D E5.3∮0.05START8.0∮0.33.5∮0.05NOTE: 3000 pcs PER REEL1.5!O0.12.0!O0.050.31.75∮0.1FIXING TAPELEADEREND71.0∮1TRAILER13.0∮0.5179∮113.0∮0.50.9∮0.051.75∮0.050.5∮0.0511.Package Method:(unit:mm)VacuumORH-R36A12.Package and Label of Products:(1)Package:Products are packed in one bag of3000pcs(one taping reel)and a label is attached oneach bag.(2)Label:ORIENT LOGOPart No.QuantityBINSealing Datex xx xx xxYear Month DayManufacture LocationORH-R36A13.Reliability TestClassification Test Item Reference Standard Test Conditions ResultEnduranceTest Operation Life MIL-STD-750:1026MIL-STD-883:1005JIS-C-7021:B-1Connect with a power If=20mATa=Under room temperatureTest time=1,000hrs0/20High TemperatureHigh HumidityStorageMIL-STD-202:103BJIS-C-7021:B-11Ta=+65℃±5℃RH=90%-95%Test time=240hrs0/20High TemperatureStorageMIL-STD-883:1008JIS-C-7021:B-10High Ta=+85℃±5℃Test time=1,000hrs0/20 Low TemperatureStorageJIS-C-7021:B-12Low Ta=-35℃±5℃Test time=1,000hrs0/20EnvironmentalTest TemperatureCyclingMIL-STD-202:107DMIL-STD-750:1051MIL-STD-883:1010JIS-C-7021:A-4-35℃~+25℃~+85℃~+25℃60min20min60min20minTest Time=5cycle0/20Thermal Shock MIL-STD-202:107DMIL-STD-750:1051MIL-STD-883:1011-35℃±5℃~+85℃±5℃20min20minTest Time=10cycle0/20Solder ResistanceMIL-STD-202:201AMIL-STD-750:2031JIS-C-7021:A-1Preheating：140℃-160℃,within2minutes.Operation heating：260℃(Max.),within10seconds.(Max.)0/2014.Soldering:1).Manual Of SolderingThe temperature of the iron tip should not be higher than300℃(572℉)and Soldering within3 seconds per solder-land is to be observed.2).Reflow SolderingPreheating:140℃~160℃±5℃,within2minutes.Operation heating:260℃(Max.)within10seconds.(Max)Gradual Cooling(Avoid quenching).ORH -R 36A3).DIP soldering (Wave Soldering):Preheating :120℃~150℃,within 120~180sec.Operation heating :245℃±5℃within 5sec.260℃(Max)Gradual Cooling (Avoid quenching).15.Handling :Care must be taken not to cause to the epoxy resin portion of BRIGHT LEDs while it is exposed to high temperature.Care must be taken not rub the epoxy resin portion of BRIGHT LEDs with hard or sharp article such as the sand blast and the metal hook .16.Notes for designing:Care must be taken to provide the current limiting resistor in the circuit so as to drive the BRIGHT LEDs within the rated figures.Also,caution should be taken not to overload BRIGHT LEDs with instantaneous voltage at the turning ON and OFF of the circuit.When using the pulse drive care must be taken to keep the average current within the rated figures.Also,the circuit should be designed so as be subjected to reverse voltage when turning off the BRIGHT LEDs.TemperatureTimeOVER 2 MIN.4℃ /SEC. MAX. 4℃ /SEC. MAX.10 SEC. MAX.260℃ MAX.140~160℃TemperatureTime120~180 sec.Preheat 245 ±5℃ within 5 sec.Soldering heat Max. 260 ℃120~150℃ORH-R36A17.Storage:In order to avoid the absorption of moisture,it is recommended to solder BRIGHT LEDs as soon as possible after unpacking the sealed envelope.If the envelope is still packed,to store it in the environment as following:(1)Temperature:5℃-30℃(41℉)Humidity:RH60﹪Max.(2)After this bag is opened,devices that will be applied to infrared reflow,vapor-phase reflow,orequivalent soldering process must be:pleted within168hours.b....Stored at less than30%RH.(3)Devices require baking before mounting,if:(2)a or(2)b is not met.(4)If baking is required,devices must be baked under below conditions:48hours at60℃±3℃.。

rl206二极管参数摘要：I.引言A.介绍二极管的基本概念B.阐述二极管在电子学中的重要性II.rl206二极管参数A.参数概述1.正向电压2.反向电压3.正向电流4.反向电流5.耗散功率B.参数意义与作用1.正向电压：决定二极管的工作状态2.反向电压：影响二极管的可靠性3.正向电流：衡量二极管的导通能力4.反向电流：决定二极管的灵敏度5.耗散功率：反映二极管的散热性能III.rl206二极管的应用领域A.电源管理1.稳压器2.开关电源B.通信设备1.无线通信2.光纤通信C.消费电子1.电视机2.音响设备D.工业控制1.自动化系统2.电机驱动IV.结论A.总结rl206二极管的参数特点B.强调二极管在现代电子技术中的重要性正文：rl206二极管是一种常用的半导体元器件，具有多种参数，这些参数对于理解和应用二极管至关重要。

首先，我们来了解一下rl206二极管的参数概述。

rl206二极管的主要参数包括正向电压、反向电压、正向电流、反向电流和耗散功率。

其中，正向电压是指二极管导通时的电压，决定了二极管的工作状态；反向电压则影响了二极管的可靠性，过高会导致二极管损坏；正向电流是衡量二极管导通能力的指标；反向电流决定了二极管的灵敏度，即对反向电压的响应程度；耗散功率则反映了二极管的散热性能，对于高功率应用至关重要。

接下来，我们来探讨一下rl206二极管参数的意义和作用。

正向电压和正向电流是衡量二极管导通性能的关键参数，对于电源管理、通信设备、消费电子和工业控制等领域有着广泛的应用。

反向电压和反向电流则影响了二极管的稳定性和可靠性，对于保护电路和提高系统稳定性具有重要意义。

耗散功率则关乎二极管在高温环境下的性能，对于高功率应用至关重要。

rl206二极管广泛应用于各个领域，如电源管理中的稳压器和开关电源，通信设备中的无线通信和光纤通信，消费电子中的电视机和音响设备，以及工业控制中的自动化系统和电机驱动等。

这些应用场景对二极管的性能提出了不同的要求，因此了解rl206二极管的参数特性对于选择合适的元器件至关重要。

USR-LG206-L-C 产品使用手册目录一、基本说明 (3)1.1结构框图and 数据流向(服务器主动下发模式)....................................................................................................41.2资料下载.....................................................................................................................................................................41.3测试环境.....................................................................................................................................................................41.4测试步骤 (5)1.4.1硬件连接...........................................................................................................................................................51.4.2指示灯状态.......................................................................................................................................................61.4.3设置参数...........................................................................................................................................................61.4.4数据透传测试................................................................................................................................................121.4.5基本测试常见问题. (14)二、常见用法 (14)2.1LG220网线直连电脑通信 (14)2.2LG220连接透传云通信...........................................................................................................................................142.3LG220花生壳内网穿透说明...................................................................................................................................14三、常见问题排查方法. (14)3.1集中器无法连接到服务器或者无法连接到透传云 (14)3.2LoRa 节点无法入网.................................................................................................................................................153.3通信距离近...............................................................................................................................................................153.4同频干扰...................................................................................................................................................................153.5丢包率高...................................................................................................................................................................16四、更新历史..........................................................................................................................................................................17五、联系方式.. (18)目录Content一、基本说明集中器的有工作模式有三种：集中器轮询唤醒、节点主动上报、服务器主动下发，在介绍如可配置之前先分别对这三种模式做简要概述。

LAUREL ELECTRONICS, INC.LTS6 Serial-to-Analog Converter and DIN Rail TransmitterFeatures•Converts serial data to a isolated, scaled 4-20 mA or 0-10V transmitter output•Accepts an RS232 or RS485 serial data, half or full duplex, isolated•Supports Modbus RTU, Modbus ASCII, or Laurel ASCII protocols•Able to retrieve data from long character strings•Serial data rates from 300 to 9,600 baud•Analog transmitter output, isolated•Analog resolution 0.0015% of span (16 bits), accuracy ±0.02% of span•Dual solid state relays for alarm or control, isolated•Universal AC power, 85-264 Vac, or low voltage power, 10-48 Vdc or 12-32 Vac•-X extended operating temperature option for -40°C to 70°CDescriptionThe Laureate LTS6 serial input to analog output transmitteraccepts RS232 or RS485 serial data using the Modbus protocol,Laurel ASCII protocol, or direct ASCII characters, and convertsthis data to an isolated, scalable 4-20 mA, 0-20 mA or 0-10Vanalog output. The unit is housed in transmitter case which isonly 22.5 mm (0.89") thick and fits on a 35 mm DIN rail. It isnormally powered by AC (85-264 Vac), but can optionally bepowered by low voltage AC or DC. All electrical connections arevia detachable screw-clamp plugs.Features include:•Analog transmitter output, 16-bit, scalable and isolated.User selectable 4-20 mA, 0-20 mA or 0-10V levels. A 16-bitdigital-to-analog converter provides ultra-fine resolution of0.0015% and accuracy better than 0.02% of output span.Output isolation from signal, power and serial communicationgrounds is provided by a separate on-board transmitter powersupply, thereby eliminating potential problems caused byground loops. The supply can drive 20 mA into a 500Ω (orlower) load for 10V compliance, or 10V into 5 kΩ (or higher)load for 2 mA compliance.•Serial communications input, isolated. User selectableRS232 or RS485, half or full duplex, Modbus protocol, LaurelASCII protocol, or ASCII characters at data rates up to 19200bps. The RS232 interface is suitable for short cable runs andpoint-to-point communications. The RS485 interface is com-pliant with the EIA/TIA-485 standard and supports multipleaddressable devices on the same data line using the Modbusprotocol or Laurel ASCII Protocol. Modbus implementation isfully compliant with Modbus over Serial Line Specification V1.0(2002) in RTU or ASCII, half-duplex or full-duplex operation,with up to 247 digital addresses.•Ability to extract readings from long ASCII data strings.You can specify character positions, start and stop ASCIIcharacters, how many characters to skip, and how manycharacters to process. Slave operation requires connection toa master. Not applicable to the Modbus protocol.•Dual solid state relays for control or alarm. Rated 120 mAat 130 Vac or 170 Vdc, isolated.•Universal AC power supply for 85-264 Vac.•Optional low voltage power, 10-48 Vdc or 12-32 Vac.Easy Transmitter programming is via Laurel's InstrumentSetup Software, which runs on a PC under MS Windows. Thissoftware can be downloaded from Laurel’s website at no charge.The required cable from the transmitters to a PC com port isavailable from Laurel (P/N CBL04).SpecificationsSerial Communications(standard) Signal Types Data RatesOutput Isolation Serial Protocols Modbus ModesModbus Compliance Digital Addressing RS232 or RS485 (half or full duplex) 300, 600, 1200, 2400, 4800, 9600 baud250V rms working, 2.3 kV rms per 1 min test Modbus RTU, Modbus ASCII, Laurel ASCII RTU or ASCIIModbus over Serial Line Specification V1.0 (2002) 247 Modbus addresses.Up to 32 devices on an RS485 line without a repeater.Analog Output (standard) Output LevelsCompliance, 4-20 mA Compliance, 0-10V Output Resolution Output Accuracy Output Update Rate Output Isolation4-20 mA, 0-20 mA, 0-10 Vdc (selectable) 10V ( 0-500Ω load ) 2 mA ( 5 kΩ load ) 16 bits (65,536 steps) 0.02% of output spanDetermined by input data rate250V rms working, 2.3 kV rms per 1 minute test Dual Relay Output (standard) Relay Type Load Rating Two solid state relays, SPST, normally open, Form A 120 mA at 140 Vac or 180 VdcPower Input Standard Power Low Power Option Power Frequency Power IsolationPower Consumption 85-264 Vac or 90-300 Vdc 10-48 Vdc or 12-32 Vac DC or 47-63 Hz250V rms working, 2.3 kV rms per 1 min test 2W typical, 3W with max excitation outputMechanicalDimensions MountingElectrical Connections 129 x 104 x 22.5 mm case 35 mm rail per DIN EN 50022 Plug-in screw-clamp connectorsEnvironmental Operating Temperature Storage Temperature Relative Humidity Cooling Required0°C to 55°C standard, -40°C to 70°C with -X option -40°C to 85°C95% at 40°C, non-condensingMount transmitters with ventilation holes at top and bottom. Leave 6 mm (1/4") between transmitters, or force air with a fan.PinoutMechanicalOrdering GuideCreate a model a model number in this format: LTS60-X, CBL02, CBL04Transmitter Type LTS6 Serial input transmitter, 4-20 mA, 0-20 mA or 0-10V output. Power 0 85-264 Vac or 90-300 Vdc1 Isolated 12-32 Vac or 10-48 VdcOptions & Accessories-X Extended operating temperature -40°C to 70°C CBL04 RS-232 cable, LTS6 to computer or USB adapter CBL02 USB to RS-232 cable adapter。

MX25L4006E DATASHEETContentsFEATURES (4)GENERAL DESCRIPTION (5)PIN CONFIGURATIONS (5)PIN DESCRIPTION (5)BLOCK DIAGRAM (6)MEMORY ORGANIZATION (7)Table 1. Memory Organization (7)DEVICE OPERATION (8)Figure 1. Serial Peripheral Interface Modes Supported (8)DATA PROTECTION (9)Table 2. Protected Area Sizes (9)HOLD FEATURE (10)Figure 2. Hold Condition Operation (10)Table 3. COMMAND DEFINITION (11)COMMAND DESCRIPTION (12)(1) Write Enable (WREN) (12)(2) Write Disable (WRDI) (12)(3) Read Status Register (RDSR) (13)(4) Write Status Register (WRSR) (14)Table 4. Protection Modes (14)(5) Read Data Bytes (READ) (15)(6) Read Data Bytes at Higher Speed (FAST_READ) (15)(7) Dual Output Mode (DREAD) (15)(8) Sector Erase (SE) (15)(9) Block Erase (BE) (16)(10) Chip Erase (CE) (16)(11) Page Program (PP) (16)(12) Deep Power-down (DP) (17)(13) Release from Deep Power-down (RDP), Read Electronic Signature (RES) (17)(14) Read Identification (RDID) (18)(15) Read Electronic Manufacturer ID & Device ID (REMS) (18)Table 5. ID Definitions (18)(16) Read SFDP Mode (RDSFDP) (19)Read Serial Flash Discoverable Parameter (RDSFDP) Sequence (19)Table a. Signature and Parameter Identification Data Values (20)Table b. Parameter Table (0): JEDEC Flash Parameter Tables (21)Table c. Parameter Table (1): Macronix Flash Parameter Tables (23)POWER-ON STATE (25)ELECTRICAL SPECIFICATIONS (26)ABSOLUTE MAXIMUM RATINGS (26)Figure 3. Maximum Negative Overshoot Waveform (26)CAPACITANCE TA = 25°C, f = 1.0 MHz (26)Figure 4. Maximum Positive Overshoot Waveform (26)Figure 5. INPUT TEST WAVEFORMS AND MEASUREMENT LEVEL (27)Figure 6. OUTPUT LOADING (27)Table 6. DC CHARACTERISTICS (Temperature = -40°C to 85°C, VCC = 2.7V ~ 3.6V) (28)Table 7. AC CHARACTERISTICS (Temperature = -40°C to 85°C, VCC = 2.7V ~ 3.6V) (29)Table 8. Power-Up Timing (30)Timing Analysis (31)Figure 7. Serial Input Timing (31)Figure 8. Output Timing (31)Figure 9. Hold Timing (32)Figure 10. WP# Disable Setup and Hold Timing during WRSR when SRWD=1 (32)Figure 11. Write Enable (WREN) Sequence (Command 06) (33)Figure 12. Write Disable (WRDI) Sequence (Command 04) (33)Figure 13. Read Status Register (RDSR) Sequence (Command 05) (33)Figure 14. Write Status Register (WRSR) Sequence (Command 01) (34)Figure 15. Read Data Bytes (READ) Sequence (Command 03) (34)Figure 16. Read at Higher Speed (FAST_READ) Sequence (Command 0B) (35)Figure 17. Dual Output Read Mode Sequence (Command 3B) (35)Figure 18. Sector Erase (SE) Sequence (Command 20) (36)Figure 19. Block Erase (BE) Sequence (Command 52 or D8) (36)Figure 20. Chip Erase (CE) Sequence (Command 60 or C7) (36)Figure 21. Page Program (PP) Sequence (Command 02) (37)Figure 22. Deep Power-down (DP) Sequence (Command B9) (37)Figure 23. Read Electronic Signature (RES) Sequence (Command AB) (38)Figure 24. Release from Deep Power-down (RDP) Sequence (Command AB) (38)Figure 25. Read Identification (RDID) Sequence (Command 9F) (39)Figure 26. Read Electronic Manufacturer & Device ID (REMS) Sequence (Command 90) (39)Figure 27. Power-up Timing (40)OPERATING CONDITIONS (41)Figure 28. AC Timing at Device Power-Up (41)Figure 29. Power-Down Sequence (42)ERASE AND PROGRAMMING PERFORMANCE (43)DATA RETENTION (43)LATCH-UP CHARACTERISTICS (43)ORDERING INFORMATION (44)PART NAME DESCRIPTION (45)PACKAGE INFORMATION (46)REVISION HISTORY (51)4M-BIT [x 1/x 2] CMOS SERIAL FLASH FEATURESGENERAL• Serial Peripheral Interface compatible -- Mode 0 and Mode 3• 4,194,304 x 1 bit structure or 2,097,152 x 2 bits (Dual Output mode) structure• 128 Equal Sectors with 4K byte each- Any Sector can be erased individually• 8 Equal Blocks with 64K byte each- Any Block can be erased individually• Single Power Supply Operation- 2.7 to 3.6 volt for read, erase, and program operations• Latch-up protected to 100mA from -1V to Vcc +1VPERFORMANCE• High Performance- Fast access time: 86MHz serial clock- Serial clock of Dual Output mode: 80MHz- Fast program time: 1.4ms(typ.) and 5ms(max.)/page (256-byte per page)- Byte program time: 9us- Fast erase time: 60ms(typ.)/sector (4K-byte per sector) ; 0.7s(typ.)/block (64K-byte per block)• Low Power Consumption- Low active read current: 12mA(max.) at 86MHz and 4mA(max.) at 33MHz- Low active programming current: 20mA (max.)- Low active erase current: 20mA (max.)- Low standby current: 25uA (max.)- Deep power-down mode 5uA (typ.)• Minimum 100,000 erase/program cycles• 20 years data retentionSOFTWARE FEATURES• Input Data Format- 1-byte Command code• Block Lock protection- The BP0~BP2 status bit defines the size of the area to be software protected against Program and Erase in-structions• Auto Erase and Auto Program Algorithm- Automatically erases and verifies data at selected sector- Automatically programs and verifies data at selected page by an internal algorithm that automatically times the program pulse widths (Any page to be programed should have page in the erased state first)• Status Register Feature• Electronic Identification- JEDEC 2-byte Device ID- RES command, 1-byte Device ID• Support Serial Flash Discoverable Parameters (SFDP) modeHARDWARE FEATURES• PACKAGE- 8-pin SOP (150mil)- 8-pin SOP (200mil)- 8-pin PDIP (300mil)- 8-land WSON (6x5mm, 0.8mm package height)- 8-land USON (2x3x0.6mm)- All devices are RoHS CompliantGENERAL DESCRIPTIONThe device features a serial peripheral interface and software protocol allowing operation on a simple 3-wire bus. The four bus signals are a clock input (SCLK), a serial data input (SI), a serial data output (SO), and a chip select (CS#). Serial access to the device is enabled by CS# input.When it is in Dual Output read mode, the SI and SO pins become SIO0 and SIO1 pins for data output.The device provides sequential read operation on whole chip.After program/erase command is issued, auto program/erase algorithms which program/erase and verify the speci-fied page or sector/block locations will be executed. Program command is executed on byte basis, or page basis, or word basis for erase command is executes on sector, or block, or whole chip basis.To provide user with ease of interface, a status register is included to indicate the status of the chip. The status read command can be issued to detect completion status of a program or erase operation via WIP bit.When the device is not in operation and CS# is high, it is put in standby mode.The device utilizes Macronix's proprietary memory cell, which reliably stores memory contents even after 100,000 program and erase cycles.PIN CONFIGURATIONSSYMBOL DESCRIPTION CS#Chip SelectSI/SIO0Serial Data Input (for 1 x I/O) / Serial DataInput & Output (for Dual Output mode)SO/SIO1Serial Data Output (for 1 x I/O) / SerialData Output (for Dual Output mode)SCLK Clock InputWP#Write ProtectionHOLD#Hold, to pause the device withoutdeselecting the deviceVCC + 3.3V Power Supply GND GroundPIN DESCRIPTION8-PIN SOP (150/200mil)8-LAND, WSON (6x5mm)8-PIN PDIP (300mil)CS#SO/SIO1WP#GNDVCC HOLD#SCLK SI/SIO0CS#SO/SIO1WP#GNDVCC HOLD#SCLKSI/SIO0CS#SO/SIO1WP#GND VCC HOLD#SCLK SI/SIO08-LAND USON (2x3mm)CS#SO/SIO1WP#GNDVCC HOLD#SCLK SI/SIO0BLOCK DIAGRAMTable 1. Memory OrganizationBlock Sector Address Range712707F000h07FFFFh ::: 112070000h070FFFh611106F000h06FFFFh ::: 96060000h060FFFh59505F000h05FFFFh ::: 80050000h050FFFh47904F000h04FFFFh ::: 64040000h040FFFh36303F000h03FFFFh ::: 48030000h030FFFh24702F000h02FFFFh ::: 32020000h020FFFh13101F000h01FFFFh ::: 16010000h010FFFh01500F000h00FFFFh ::: 3003000h003FFFh 2002000h002FFFh 1001000h001FFFh 0000000h000FFFhMEMORY ORGANIZATIONDEVICE OPERATION1. Before a command is issued, status register should be checked to ensure device is ready for the intended op-eration.2. When incorrect command is inputted to this LSI, this LSI becomes standby mode and keeps the standby mode until next CS# falling edge. In standby mode, SO pin of this LSI should be High-Z. The CS# falling time needs to follow tCHCL spec.3. When correct command is inputted to this LSI, this LSI becomes active mode and keeps the active mode until next CS# rising edge. The CS# rising time needs to follow tCLCH spec.4. Input data is latched on the rising edge of Serial Clock(SCLK) and data shifts out on the falling edge of SCLK. The difference of serial peripheral interface mode 0 and mode 3 is shown as Figure 1.5. For the following instructions: RDID, RDSR, READ, FAST_READ, RDSFDP , DREAD, RES and REMS the shift-ed-in instruction sequence is followed by a data-out sequence. After any bit of data being shifted out, the CS# can be high. For the following instructions: WREN, WRDI, WRSR, SE, BE, CE, PP , RDP and DP the CS# must go high exactly at the byte boundary; otherwise, the instruction will be rejected and not executed.6. During the progress of Write Status Register, Program, Erase operation, to access the memory array is neglect-ed and not affect the current operation of Write Status Register, Program, Erase.Figure 1. Serial Peripheral Interface Modes SupportedSCLKMSBCPHA SI 01CPOL(Serial mode 0)(Serial mode 3)1SO SCLKMSBshift inshift outNote:CPOL indicates clock polarity of serial master, CPOL=1 for SCLK high while idle, CPOL=0 for SCLK low while not transmitting. CPHA indicates clock phase. The combination of CPOL bit and CPHA bit decides which serial mode is supported.DATA PROTECTIONThe device is designed to offer protection against accidental erasure or programming caused by spurious system level signals that may exist during power transition. During power up the device automatically resets the state ma-chine in the standby mode. In addition, with its control register architecture, alteration of the memory contents only occurs after successful completion of specific command sequences. The device also incorporates several features to prevent inadvertent write cycles resulting from VCC power-up and power-down transition or system noise.• Valid command length checking: The command length will be checked whether it is at byte base and completed on byte boundary.• Write Enable (WREN) command: WREN command is required to set the Write Enable Latch bit (WEL) before other command to change data. The WEL bit will return to reset stage under following situation:- Power-up- Write Disable (WRDI) command completion- Write Status Register (WRSR) command completion- Page Program (PP) command completion- Sector Erase (SE) command completion- Block Erase (BE) command completion- Chip Erase (CE) command completion• Deep Power Down Mode: By entering deep power down mode, the flash device also is under protected from writing all commands except Release from deep power down mode command (RDP) and Read Electronic Sig-nature command (RES).I. Block lock protection- Software Protection Mode (SPM): by using BP0-BP2 bits to set the part of Flash protected from data change.- Hardware Protection Mode (HPM): by using WP# going low to protect the BP0-BP2 bits and SRWD bit from data change.Table 2. Protected Area SizesStatus bitProtect level 4Mb BP2 BP1BP00 0 0 0 (none) None0 0 1 1 (1 block) Block 70 1 0 2 (2 blocks) Block 6-70 1 1 3 (4 blocks) Block 4-71 0 0 4 (8 blocks) All1 0 1 5 (All) All1 1 0 6 (All) All1 1 1 7 (All) AllHOLD FEATUREHOLD# pin signal goes low to hold any serial communications with the device. The HOLD feature will not stop the operation of write status register, programming, or erasing in progress.The operation of HOLD requires Chip Select(CS#) keeping low and starts on falling edge of HOLD# pin signal while Serial Clock (SCLK) signal is being low (if Serial Clock signal is not being low, HOLD operation will not start until Serial Clock signal being low). The HOLD condition ends on the rising edge of HOLD# pin signal while Se-rial Clock(SCLK) signal is being low (if Serial Clock signal is not being low, HOLD operation will not end until Serial Clock being low), see Figure 2.Figure 2. Hold Condition OperationThe Serial Data Output (SO) is high impedance, both Serial Data Input (SI) and Serial Clock (SCLK) are don't care during the HOLD operation. If Chip Select (CS#) drives high during HOLD operation, it will reset the internal logic of the device. To re-start communication with chip, the HOLD# must be at high and CS# must be at low.Table 3. COMMAND DEFINITION COMMAND (byte)WREN (write Enable) WRDI(write disable)WRSR (write status register)RDID (read identification) RDSR(read statusregister)READ(read data) Fast Read (fast read data)1st 06 Hex04 Hex01 Hex9F Hex05 Hex03 Hex 0B Hex 2nd AD1AD13rd AD2AD24th AD3AD35th DummyActionsets the (WEL) write enable latch bit reset the (WEL) write enable latch bit to write new status register output the manufacturer ID and 2-byte device IDto read out the status register n bytes read out until CS# goes high n bytes read out until CS# goes highCOMMAND (byte) RDSFDP (Read SFDP)RES (Read Electronic ID)REMS (Read Electronic Manufacturer & Device ID) DREAD(Double Output Mode command)SE(SectorErase)BE (Block Erase)CE(Chip Erase)1st 5A Hex AB Hex 90 Hex 3B Hex 20 Hex 52 or D8 Hex 60 or C7 Hex 2nd AD1x x AD1AD1AD1 3rd AD2x x AD2AD2AD2 4th AD3x ADD(1)AD3AD3AD3 5th Dummy DummyAction Read SFDP mode to read out 1-byte Device ID Output the manufacturer ID and device ID n bytes read out by Dual Output until CS# goeshigh to erase the selected sector to erase the selected blockto erase whole chip(1) ADD=00H will output the manufacturer's ID first and ADD=01H will output device ID first.(2) It is not recommended to adopt any other code which is not in the above command definition table.COMMAND (byte)PP (Page Program)DP (Deep Power Down) RDP (Release from Deep Power-down)1st 02 Hex B9 Hex AB Hex2nd AD13rd AD24th AD35th Actionto program the selected page enters deep power down mode release fromdeep powerdown modeCOMMAND DESCRIPTION(1) Write Enable (WREN)The Write Enable (WREN) instruction is for setting Write Enable Latch (WEL) bit. For those instructions like PP, SE, BE, CE, and WRSR, which are intended to change the device content, should be set every time after the WREN in-struction setting the WEL bit.The sequence is shown as Figure 11.(2) Write Disable (WRDI)The Write Disable (WRDI) instruction is for resetting Write Enable Latch (WEL) bit.The sequence is shown as Figure 12.The WEL bit is reset by following situations:- Power-up- Write Disable (WRDI) instruction completion- Write Status Register (WRSR) instruction completion- Page Program (PP) instruction completion- Sector Erase (SE) instruction completion- Block Erase (BE) instruction completion- Chip Erase (CE) instruction completion(3) Read Status Register (RDSR)The RDSR instruction is for reading Status Register Bits. The Read Status Register can be read at any time (even in program/erase/write status register condition) and continuously. It is recommended to check the Write in Progress (WIP) bit before sending a new instruction when a program, erase, or write status register operation is in progress.The sequence is shown as Figure 13.The definition of the status register bits is as below:WIP bit. The Write in Progress (WIP) bit, a volatile bit, indicates whether the device is busy in program/erase/write status register progress. When WIP bit sets to 1, which means the device is busy in program/erase/write status register progress. When WIP bit sets to 0, which means the device is not in progress of program/erase/write status register cycle.WEL bit. The Write Enable Latch (WEL) bit, a volatile bit, indicates whether the device is set to internal write enable latch. When WEL bit sets to 1, which means the internal write enable latch is set, the device can accept program/ erase/write status register instruction. When WEL bit sets to 0, which means no internal write enable latch; the de-vice will not accept program/erase/write status register instruction.BP2, BP1, BP0 bits. The Block Protect (BP2, BP1, BP0) bits, non-volatile bits, indicate the protected area(as de-fined in table 2) of the device to against the program/erase instruction without hardware protection mode being set. To write the Block Protect (BP2, BP1, BP0) bits requires the Write Status Register (WRSR) instruction to be executed. Those bits define the protected area of the memory to against Page Program (PP), Sector Erase (SE), Block Erase (BE) and Chip Erase(CE) instructions (only if all Block Protect bits set to 0, the CE instruction can be executed)SRWD bit. The Status Register Write Disable (SRWD) bit, non-volatile bit, is operated together with Write Protec-tion (WP#) pin for providing hardware protection mode. The hardware protection mode requires SRWD sets to 1 and WP# pin signal is low stage. In the hardware protection mode, the Write Status Register (WRSR) instruction is no longer accepted for execution and the SRWD bit and Block Protect bits (BP2, BP1, BP0) are read only.bit 7bit 6bit 5bit 4bit 3bit 2bit 1bit 0 SRWD StatusRegister Write Protect 00BP2(the level ofprotectedblock)BP1(the levelof protectedblock)BP0(the levelof protectedblock)WEL (writeenable latch)WIP (write inprogress bit)1= statusregister write disable 00(note 1) (note 1)(note 1)1=writeenable0=not writeenable1=writeoperation0=not in writeoperationNote:1. See the table "Protected Area Sizes".(4) Write Status Register (WRSR)The WRSR instruction is for changing the values of Status Register Bits. Before sending WRSR instruction, the Write Enable (WREN) instruction must be decoded and executed to set the Write Enable Latch (WEL) bit in ad-vance. The WRSR instruction can change the value of Block Protect (BP2, BP1, BP0) bits to define the protected area of memory (as shown in table 2). The WRSR also can set or reset the Status Register Write Disable (SRWD) bit in accordance with Write Protection (WP#) pin signal. The WRSR instruction cannot be executed once the Hard-ware Protected Mode (HPM) is entered.The sequence is shown as Figure 14.The WRSR instruction has no effect on b6, b5, b1, b0 of the status register.The CS# must go high exactly at the byte boundary; otherwise, the instruction will be rejected and not executed. The self-timed Write Status Register cycle time (tW) is initiated as soon as Chip Select (CS#) goes high. The Write in Progress (WIP) bit still can be check out during the Write Status Register cycle is in progress. The WIP sets 1 during the tW timing, and sets 0 when Write Status Register Cycle is completed, and the Write Enable Latch (WEL) bit is reset.Table 4. Protection ModesNote:1. As defined by the values in the Block Protect (BP2, BP1, BP0) bits of the Status Register, as shown in Table2.As the above table showing, the summary of the Software Protected Mode (SPM) and Hardware Protected Mode (HPM). Software Protected Mode (SPM):- When SRWD bit=0, no matter WP# is low or high, the WREN instruction may set the WEL bit and can changethe values of SRWD, BP2, BP1, BP0. The protected area, which is defined by BP2, BP1, BP0, is at software protected mode (SPM).- When SRWD bit=1 and WP# is high, the WREN instruction may set the WEL bit can change the values ofSRWD, BP2, BP1, BP0. The protected area, which is defined by BP2, BP1, BP0, is at software protected mode (SPM).Note: If SRWD bit=1 but WP# is low, it is impossible to write the Status Register even if the WEL bit has previouslybeen set. It is rejected to write the Status Register and not be executed.Hardware Protected Mode (HPM):- When SRWD bit=1, and then WP# is low (or WP# is low before SRWD bit=1), it enters the hardware protected mode (HPM). The data of the protected area is protected by software protected mode by BP2, BP1, BP0 and hardware protected mode by the WP# to against data modification.Note: to exit the hardware protected mode requires WP# driving high once the hardware protected mode is entered.If the WP# pin is permanently connected to high, the hardware protected mode can never be entered; only can use software protected mode via BP2, BP1, BP0.ModeStatus register condition WP# and SRWD bit status Memory Software protectionmode (SPM)Status register can be written in (WEL bit is set to "1") and the SRWD, BP2-BP0 bits can be changed WP#=1 and SRWD bit=0, or WP#=0 and SRWD bit=0, or WP#=1 and SRWD=1The protected areacannotbe program or erase.Hardware protectionmode (HPM)The SRWD, BP2-BP0 of status register bits cannot bechangedWP#=0, SRWD bit=1The protected areacannotbe program or erase.(5) Read Data Bytes (READ)The read instruction is for reading data out. The address is latched on rising edge of SCLK, and data shifts out on the falling edge of SCLK at a maximum frequency fR. The first address byte can be at any location. The address is automatically increased to the next higher address after each byte data is shifted out, so the whole memory can be read out at a single READ instruction. The address counter rolls over to 0 when the highest address has been reached.The sequence is shown as Figure 15.(6) Read Data Bytes at Higher Speed (FAST_READ)The FAST_READ instruction is for quickly reading data out. The address is latched on rising edge of SCLK, and data of each bit shifts out on the falling edge of SCLK at a maximum frequency fC. The first address byte can be at any location. The address is automatically increased to the next higher address after each byte data is shifted out, so the whole memory can be read out at a single FAST_READ instruction. The address counter rolls over to 0 when the highest address has been reached.The sequence is shown as Figure 16.While Program/Erase/Write Status Register cycle is in progress, FAST_READ instruction is rejected without any im-pact on the Program/Erase/Write Status Register current cycle.(7) Dual Output Mode (DREAD)The DREAD instruction enable double throughput of Serial Flash in read mode. The address is latched on rising edge of SCLK, and data of every two bits(interleave on 1I/2O pins) shift out on the falling edge of SCLK at a maxi-mum frequency fT. The first address byte can be at any location. The address is automatically increased to the next higher address after each byte data is shifted out, so the whole memory can be read out at a single DREAD instruc-tion. The address counter rolls over to 0 when the highest address has been reached. Once writing DREAD instruc-tion, the following address/dummy/data out will perform as 2-bit instead of previous 1-bit.The sequence is shown as Figure 17.While Program/Erase/Write Status Register cycle is in progress, DREAD instruction is rejected without any impact on the Program/Erase/Write Status Register current cycle.The DREAD only perform read operation. Program/Erase /Read ID/Read status....operation do not support DREAD throughputs.(8) Sector Erase (SE)The Sector Erase (SE) instruction is for erasing the data of the chosen sector to be "1". A Write Enable (WREN) in-struction must execute to set the Write Enable Latch (WEL) bit before sending the Sector Erase (SE). Any address of the sector (see table 1) is a valid address for Sector Erase (SE) instruction. The CS# must go high exactly at the byte boundary (the latest eighth of address byte been latched-in); otherwise, the instruction will be rejected and not executed.Address bits [Am-A12] (Am is the most significant address) select the sector address.The sequence is shown as Figure 18.The self-timed Sector Erase Cycle time (tSE) is initiated as soon as Chip Select (CS#) goes high. The Write in Progress (WIP) bit still can be check out during the Sector Erase cycle is in progress. The WIP sets 1 during the tSE timing, and sets 0 when Sector Erase Cycle is completed, and the Write Enable Latch (WEL) bit is reset. If the page is protected by BP2, BP1, BP0 bits, the Sector Erase (SE) instruction will not be executed on the page.(9) Block Erase (BE)The Block Erase (BE) instruction is for erasing the data of the chosen block to be "1". A Write Enable (WREN) in-struction must execute to set the Write Enable Latch (WEL) bit before sending the Block Erase (BE). Any address of the block (see table 1) is a valid address for Block Erase (BE) instruction. The CS# must go high exactly at the byte boundary (the latest eighth of address byte been latched-in); otherwise, the instruction will be rejected and not executed.The sequence is shown as Figure 19.The self-timed Block Erase Cycle time (tBE) is initiated as soon as Chip Select (CS#) goes high. The Write in Progress (WIP) bit still can be check out during the Sector Erase cycle is in progress. The WIP sets 1 during the tBE timing, and sets 0 when Sector Erase Cycle is completed, and the Write Enable Latch (WEL) bit is reset. If the page is protected by BP2, BP1, BP0 bits, the Block Erase (BE) instruction will not be executed on the page. (10) Chip Erase (CE)The Chip Erase (CE) instruction is for erasing the data of the whole chip to be "1". A Write Enable (WREN) instruc-tion must execute to set the Write Enable Latch (WEL) bit before sending the Chip Erase (CE). Any address of the sector (see table 1) is a valid address for Chip Erase (CE) instruction. The CS# must go high exactly at the byte boundary( the latest eighth of address byte been latched-in); otherwise, the instruction will be rejected and not ex-ecuted.The sequence is shown as Figure 20.The self-timed Chip Erase Cycle time (tCE) is initiated as soon as Chip Select (CS#) goes high. The Write in Progress (WIP) bit still can be check out during the Chip Erase cycle is in progress. The WIP sets 1 during the tCE timing, and sets 0 when Chip Erase Cycle is completed, and the Write Enable Latch (WEL) bit is reset. If the chip is protected by BP2, BP1, BP0 bits, the Chip Erase (CE) instruction will not be executed. It will be only executed when BP2, BP1, BP0 all set to "0".(11) Page Program (PP)The Page Program (PP) instruction is for programming the memory to be "0". A Write Enable (WREN) instruction must execute to set the Write Enable Latch (WEL) bit before sending the Page Program (PP). The device pro-grams only the last 256 data bytes sent to the device. If the entire 256 data bytes are going to be programmed, A7-A0 (The eight least significant address bits) should be set to 0. If the eight least significant address bits (A7-A0) are not all 0, all transmitted data going beyond the end of the current page are programmed from the start address of the same page (from the address A7-A0 are all 0). If more than 256 bytes are sent to the device, the data of the last 256-byte is programmed at the request page and previous data will be disregarded. If less than 256 bytes are sent to the device, the data is programmed at the requested address of the page without effect on other address of the same page.。

rl206二极管参数
【原创实用版】
目录
1.引言
2.rl206 二极管的基本参数
3.rl206 二极管的稳压参数
4.rl206 二极管的动态响应参数
5.应用场景
6.结论
正文
【引言】
本文将介绍 rl206 二极管的主要参数，包括基本参数、稳压参数和动态响应参数，以及其应用场景。

【rl206 二极管的基本参数】
rl206 二极管是一种常见的二极管，其基本参数包括正向电压、反向电压、正向电流和反向电流。

正向电压是指二极管正向导通时的电压，反向电压是指二极管反向不导通时的电压，正向电流是指二极管正向导通时的电流，反向电流是指二极管反向不导通时的电流。

【rl206 二极管的稳压参数】
rl206 二极管的稳压参数包括稳压电压、稳压电流和动态稳压范围。

稳压电压是指二极管在稳定电压下的电压值，稳压电流是指二极管在稳定电压下的电流值，动态稳压范围是指二极管能提供的稳定电压范围。

【rl206 二极管的动态响应参数】
rl206 二极管的动态响应参数包括动态响应时间和动态响应电压。

动
态响应时间是指二极管从稳压状态到达稳压状态所需的时间，动态响应电压是指二极管在动态响应时间内能提供的电压。

【应用场景】
rl206 二极管广泛应用于电源稳压、限幅和整流等电路中。

其稳定的电压和快速的动态响应使其成为这些应用的理想选择。

【结论】
总的来说，rl206 二极管是一种参数稳定、动态响应快、应用广泛的二极管。

ECONOLINEDC/DC-Converterwith 3 year WarrantyRSO E-95REV:1/2011EN-60950-1 Certified EN-60601-1 CertifiedDescriptionHigh-power-density, an industrial temperature range of -40°C to +85°C and extra features like On-Off-control are just some of the characteristics of this converter, ideal for highly sophisticated industrial-designs. The RSO series is available with isolation of 2kV or 3kV by chosing option "/H2"or "/H3" in which case it is also ideal for medical applications which additionally require EN-60601-1 certification. The standard version offers 2:1 input voltage range, while the “Z” version features 4:1input voltage range, which includes an input voltage range covering both 5V and 12V supplies.1 WattSIP8 Isolated Single &Dual Output●2:1 and 4:1 Wide Input Voltage Ranges ●1kVDC, 2kVD or 3kVDC Isolation ●UL94V-0 Package Material●Certified for Medical Applications ●Continuous Short Circuit Protection ●Low Noise●No External Capacitor needed ●Efficiency to 83%FeaturesRegulated ConvertersSelection GuidePart NumberInput Rated Output Output Current Efficiency Max Voltage Range Voltage typ.CapacitiveSIP8(VDC)(VDC)(mA)(%)Load (1)RSO-xx3.3S* 4.5-9**, 9-18 3.330068-723300µF18-36, 36-7270RSO-xx05S* 4.5-9**, 9-18520073-751200µF18-36, 36-7275-78RSO-xx09S* 4.5-9**, 9-18911174-78680µF18-36, 36-7278-81RSO-xx12S* 4.5-9**, 9-18128375-80680µF18-36, 36-7280-83RSO-xx15S* 4.5-9**, 9-18156775-80680µF18-36, 36-7280-83RSO-xx3.3D* 4.5-9**, 9-18±3.3±15068-72±1500µF18-36, 36-7270RSO-xx05D* 4.5-9**, 9-18±5±10073-75±470µF18-36, 36-7275-76RSO-xx09D* 4.5-9**, 9-18±9±5674-78±470µF18-36, 36-7278RSO-xx12D* 4.5-9**, 9-18±12±4275-79±330µF18-36, 36-7279-80RSO-xx15D* 4.5-9**, 9-18±15±3475-79±330µF18-36, 36-7279-80RSO-xx3.3SZ*9-36 3.330068-703300µF18-7270RSO-xx05SZ* 4.5-18**, 9-36520073-781200µF18-7275RSO-xx09SZ* 4.5-18**, 9-36911175-81680µF18-7278RSO-xx12SZ* 4.5-18**, 9-36128377-83680µF18-7280RSO-xx15SZ* 4.5-18**, 9-36156778-83680µF18-7280RSO-xx3.3DZ*9-36±3.3±15070-74±1500µF18-7270RSO-xx05DZ* 4.5-18**, 9-36±5±10073-77±470µF18-7275RSO-xx09DZ* 4.5-18**, 9-36±9±5674-78±470µF18-7278RSO-xx12DZ* 4.5-18**, 9-36±12±4275-80±330µF18-7280RSO-xx15DZ* 4.5-18**, 9-36±15±3475-80±330µF18-7280No suffix is standard isolation (1kVDC) e.g, RSO-0505S*add suffix /H2 or /H3 for 2kVDC or 3kVDC isolation, e.g, RSO-0505S/H2, RSO-0505DZ/H3** derate to 75% if Vin<5V, 12V 4:1 input also requires an external 10µF input capacitor.Refer to Application NotesRoHS2002/95/EC6/6O u t p u t P o w e r (%)100602040Operating Temperature °C80Derating-Graph(Ambient T emperature)2:1Input 4:1Input (RS0-S/D) (RSO-SZ/DZ)xx = 4.5-9Vin = 05 xx = 4.5-18Vin = 12xx = 9-18Vin = 12 xx = 9-36Vin = 24 xx = 18-36Vin = 24 xx = 18-72Vin = 48xx = 36-72Vin = 48/E-96REV: 1/2011R S 0Input Voltage Range 2:1 and 4:1Output Voltage Accuracy ±2% typ.Line Voltage Regulation 2:1±0.2% max.4:1±0.5% max.Load Voltage Regulation 2:1±0.4% max.(10% to 100% full load)4:1±0.5% typ.Minimum Load0%Output Ripple and Noise (20MHz limited)50mVp-p max.Operating Frequency 2:1200kHz min. / 500kHz max.4:1100kHz min. / 800kHz max.Efficiency at Full Load See Selection GuideQuiescent Current RSO-05xxS_D, SZ_DZ 40mA typ.Nominal input Voltage RSO-12xxS_D32mA typ.(Standard, /H2 and /H3)RSO-24xxS_D, SZ_DZ 25mA typ.RSO-48xxS_D, SZ_DZ15mA typ.CTRL Pin drive current /see Notes)3mA typ, 6mA max.Quiescent Input Current when Converter is OFF 10mA max.Isolation Voltage Standard (tested for 1 second)1000VDC(rated for 1 minute)500VAC / 60Hz/H2 Version (tested for 1 second)2000VDC(rated for 1 minute)1000VAC / 60Hz/H3 Version (tested for 1 second)3000VDC(rated for 1 minute)1500VAC / 60HzIsolation Capacitance Standard 2:1 Single 10pF min. / 40pF typ. / 60pF max.Isolation Capacitance /H2 and /H32:1 Single 5pF min. / 30pF typ. / 60pF max.Isolation Capacitance Standard 2:1 Dual 120pF min. / 170pF typ. / 250pF max.Isolation Capacitance /H2 and /H32:1 Dual 5pF min. / 30pF typ. / 60pF max.Isolation Capacitance Standard 4:1 Single/Dual 200pF max.Isolation Capacitance /H2 and /H34:1 Single/Dual 30pF max.Isolation Resistance >1G Ωmin.Short Circuit ProtectionContinuousOperating Temperature Range (free air convection)-40°C to +85°C (see Graph)Storage Temperature Range -55°C to +125°CRelative Humidity 95% RH Package Weight 4.7gPacking Quantity 22 pcs per TubeMTBF (+25°C)using MIL-HDBK 217F 1685 x 103 hours (+85°C)using MIL-HDBK 217F254 x 103 hoursSpecifications (Core Operating Area)measured at T A = 25°C, nominal input voltage, full load and after warm-up time unless otherwise specifiedTypical ApplicationE f f i c i e n c y %100040%0%100%40Efficiency / Load 60%80%20%206080Total Output current (%)RSO-24xxS}Detailed Information seeApplication Notes chapter "MTBF"-Vin-Vout+Vout+VinE f f i c i e n c y %100040%0%100%40Efficiency / Load 60%80%20%206080Total Output current (%)RSO-1205SZ/RSO E-97REV:1/20113rd angleprojection8 PIN SIP PackageXX.X ± 0.5 mm XX.XX ± 0.25 mmPin 8 (NC*)This pin is used internally and must have no external connection.Pin 5 (NC)Not connected internally.Pin 3 (CTRL)This pin provides an Off function which puts the converter into a low power mode. When the pin is ‘high’ the converter is OFF and when the pin is high ‘Z’ the converter is ON. There is no allowed low state for this pin.Package Style and Pinning (mm)Single Output Recommended Footprint DetailsPin Connections Pin #SingleDual1 –Vin –Vin2 +Vin +Vin 3CTRL CTRL 5NC NC 6+Vout +Vout7 –Vout C om8NC*–VoutNC = No ConnectionNC* = NC, but no external Connection allowed.CTRL Examples+VoutCtrlTTL Remote CTRL CircuitVoltage to be applied via a limiting resistor with a recom-mended value of 1K for RSO-05xx; 3.3K for RSO-12xx;4.7K for RSO-24xx and 10K for RSO-48xx.Control Pin Input Current: 10mA Voltage Set Point Accuracy with external input/outputcapacitors refer to typ. ± 1%recommended test circuit: max. ±2%Control Pin (CTRL) Input Current, control voltage applied via 1K resistor,output voltage must typ. 3mA reduce to 0V: max. 6mA+VoutIsolated Remote CTRL CircuitNotes Note 1Maximum capacitive load is defined as the capacitive load that will allow start up in under 1 second without damage to the converterCertifications EN General Safety Report: IL-R7109EN60950-1:2001 + A11:2004EN Medical SafetyReport: PS071001601EN60601-1:1990 + A11:1996/分销商库存信息:RECOM-POWERRSO-0505S RSO-0505D RSO-2412DZ RSO-2405SZ/H3RSO-243.3S RSO-1212S RSO-2412D RSO-2415D RSO-0505S/H2 RSO-2405SZ/H2RSO-2405DZ RSO-0505S/H3 RSO-2412SZ/H3RSO-1205DZ RSO-1212DZ RSO-2415DZ/H3RSO-2412DZ/H3RSO-4812SZ/H3 RSO-4805SZ/H3RSO-4812DZ/H3RSO-4815DZ/H3 RSO-2409S RSO-1209S RSO-1215S RSO-123.3S RSO-2415S RSO-2412S RSO-2405S RSO-0509S RSO-0512S RSO-053.3S RSO-2409SZ RSO-2412SZ RSO-2415SZ RSO-243.3SZ RSO-4805S RSO-4809S RSO-4812S RSO-4815S RSO-483.3S RSO-1205S RSO-0509D RSO-0509S/H2RSO-0512D RSO-0512S/H2 RSO-0515D RSO-0515S/H2RSO-053.3D RSO-053.3S/H2RSO-2409DZ RSO-2409SZ/H2 RSO-2412SZ/H2RSO-2415DZ RSO-2415SZ/H2 RSO-243.3DZ RSO-243.3SZ/H2RSO-1205S/H3 RSO-1209S/H3RSO-1212S/H3RSO-1215S/H3 RSO-123.3S/H3RSO-2405S/H2RSO-2409S/H2 RSO-2412S/H2RSO-2415S/H2RSO-243.3S/H2 RSO-2405D RSO-2409D RSO-243.3D RSO-2405D/H2RSO-2409D/H2RSO-2412D/H2 RSO-2415D/H2RSO-243.3D/H2RSO-1205S/H2 RSO-1209S/H2RSO-1212S/H2RSO-1215S/H2 RSO-123.3S/H2RSO-1205D RSO-1209D RSO-1212D RSO-1215D RSO-123.3D RSO-0515S RSO-2405SZ RSO-1209SZ RSO-1215SZ RSO-123.3SZ RSO-0509S/H3 RSO-0512S/H3RSO-0515S/H3RSO-053.3S/H3 RSO-1205D/H2RSO-1209D/H2RSO-1212D/H2 RSO-1215D/H2RSO-123.3D/H2RSO-2409SZ/H3 RSO-2415SZ/H3RSO-243.3SZ/H3RSO-1205SZ/H2 RSO-1209DZ RSO-1209SZ/H2RSO-1212SZ/H2 RSO-1215DZ RSO-1215SZ/H2RSO-123.3DZ RSO-123.3SZ/H2RSO-4805SZ RSO-4809SZ RSO-4812SZ RSO-4815SZ RSO-483.3SZ RSO-2409S/H3RSO-2412S/H3RSO-2415S/H3 RSO-243.3S/H3RSO-2405D/H3RSO-2409D/H3 RSO-2412D/H3RSO-2415D/H3RSO-243.3D/H3 RSO-4805D RSO-4805S/H2RSO-4809D RSO-4809S/H2RSO-4812D RSO-4812S/H2 RSO-4815D RSO-4815S/H2RSO-483.3D。

Product data sheetCharacteristicsRSL1PVBURSL接口继电器,24 V AC/DC - 6 A - 螺钉接线主要信息产品系列Harmony Electromechanical Relays 系列号接口继电器产品类型Pre-assembled plug-in relay with socket产品短名RSL 触点类型1 C/O 触点动作标准控制回路电压24 V AC/DC 额定负载电流 壳体内 [Ithe]6 A 在…上 -40…55 °CLED 状态有针脚类型平 (PCB 类型)补充信息固定模式塑料压缩弹簧平均电阻3390 Ω 电网: DC 在…上 23 °C +/- 10 %额定绝缘电压 [Ui]250 V 符合 IEC 277 V 符合 cUL 额定冲击耐受电压 [Uimp]6 KV 符合 IEC 触点材料银合金(AgSnO2)额定工作电流 [Ie]6 A 1 C/O (AC-1/DC-1) 符合 IEC/UL 最小开关电流100 MA 最大开关电压277 V 最小开关电压12 V最大开关能力1500 VA 150 W最小开关能力120 mW工作额定值<=18000次/小时 无负荷 <=360次/小时 欠载机械寿命10000000 次电气寿命60000 周期 适用 阻性（负载） 量, 6 A 在…上 250 V, AC-1动作时间5 ms 复位 12 ms标识CE保护种类RT III测试水平A 级 group mounting操作位置任何位置高度78.6 Mm宽度6.2 Mm深度95 MmT h e i n f o r m a t i o n p r o v i d e d i n t h i s d o c u m e n t a t i o n c o n t a i n s g e n e r a l d e s c r i p t i o n s a n d /o r t e c h n i c a l c h a r a c t e r i s t i c s o f t h e p e r f o r m a n c e o f t h e p r o d u c t s c o n t a i n e d h e r e i n .T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s .I t i s t h e d u t y o f a n y s u c h u s e r o r i n t e g r a t o r t o p e r f o r m t h e a p p r o p r i a t e a n d c o m p l e t e r i s k a n a l y s i s , e v a l u a t i o n a n d t e s t i n g o f t h e p r o d u c t s w i t h r e s p e c t t o t h e r e l e v a n t s p e c i f i c a p p l i c a t i o n o r u s e t h e r e o f .N e i t h e r S c h n e i d e r E l e c t r i c I n d u s t r i e s S A S n o r a n y o f i t s a f f i l i a t e s o r s u b s i d i a r i e s s h a l l b e r e s p o n s i b l e o r l i a b l e f o r m i s u s e o f t h e i n f o r m a t i o n c o n t a i n e d h e r e i n .ISO n°1端子(A1-A2)CO(11-12-14)OC每件单独销售数量10净重0.029 Kg负载电流6 A 在…上 250 V AC 0.5 mm 安装距离平均消耗，单位为W0.17 W, DC压降阀值>= 0.05 Uc接触端点布置单独接线能力螺钉连接器, 1 x 0.2...1 x 2.5 mm² (AWG 24...AWG 14) 软线 带接线端子螺钉连接器, 1 x 0.2...1 x 2.5 mm² (AWG 24...AWG 14) 硬线 不带接线端子紧固扭矩< 0.5 N.m 适用 M2.5 螺钉安全可靠的数据B10d = 60000控制类型无按钮安装方式35 mm DIN 导轨设备简介产品（非零部件）环境输入电压24 V AC/DC (输入电压极限: 21.6...28.8 V)绝缘性能1000 V AC 触头之间4000 V AC 线圈和触头之间符合标准CSA C22.2 No 14UL 508IEC 61810-1产品认证UL[RETURN]GOST[RETURN]CSA贮存环境温度-40…85 °C抗振动10 gn, 振幅 = +/- 1 mm (f = 10…150 Hz)10个周期，非工作中 符合 IEC 60068-2-65 gn, 振幅 = +/- 1 mm (f = 10…150 Hz)工作中，10次循环 符合 IEC 60068-2-6 IP 保护等级IP40 conforming to IEC 60529抗冲击10 gn (持续时间 = 11 ms) 适用 运行期间 符合 IEC 60068-2-275 gn (持续时间 = 11 ms) 适用 非运行 符合 IEC 60068-2-27环境温度-40…55 °C包装单位Unit Type of Package 1PCENumber of Units in Package 11Package 1 Height0.7 CmPackage 1 Width8 CmPackage 1 Length9.8 CmPackage 1 Weight29 GUnit Type of Package 2BB1Number of Units in Package 210Package 2 Height7.3 CmPackage 2 Width8.7 CmPackage 2 Length10.6 CmPackage 2 Weight313 GUnit Type of Package 3S03Number of Units in Package 3300Package 3 Height30 CmPackage 3 Width30 CmPackage 3 Length40 CmPackage 3 Weight9.918 Kg可持续性产品类型Green Premium 产品REACh法规REACh 声明REACh（不含 SVHC）是欧盟ROHS指令主动合规性（超出欧盟 RoHS 法定范围的产品）欧盟ROHS声明无有毒重金属是无汞是中国 ROHS 管理办法中国 ROHS 声明RoHS 豁免信息是环境披露产品环境文件流通资料产品使用寿命终期信息WEEE该产品必须经特定废物回收处理后弃置于欧盟市场，绝不可丢弃于垃圾桶中。

rl206二极管参数【原创版】目录1.引言2.rl206 二极管的基本参数3.rl206 二极管的应用领域4.结论正文【引言】rl206 二极管是一种常见的电子元件，广泛应用于各种电子设备中。

了解 rl206 二极管的参数对于电子工程师来说至关重要。

本文将为您详细介绍 rl206 二极管的参数及其应用领域。

【rl206 二极管的基本参数】rl206 二极管是一种硅材料制作的二极管，具有以下基本参数：1.正向电压（Vf）：正向电压是指二极管正向导通时的电压。

对于rl206 二极管，正向电压一般在 0.7V 左右。

2.反向电压（Vr）：反向电压是指二极管反向截止时的电压。

对于rl206 二极管，反向电压一般在 1000V 左右。

3.正向电流（If）：正向电流是指二极管正向导通时的电流。

对于rl206 二极管，正向电流一般在 100mA 左右。

4.反向漏电流（Ir）：反向漏电流是指二极管反向截止时流过的电流。

对于 rl206 二极管，反向漏电流一般在 100nA 左右。

【rl206 二极管的应用领域】rl206 二极管广泛应用于以下领域：1.电源管理：rl206 二极管可用于整流、限幅等电源管理电路，提高电源的稳定性和可靠性。

2.信号处理：rl206 二极管可用于放大、开关、调制等信号处理电路，实现信号的传输和变换。

3.保护电路：rl206 二极管可用于过压保护、过流保护等保护电路，保护电子设备免受损坏。

4.其他领域：rl206 二极管还应用于场效应管、光电二极管等其他电子元件的制作。

【结论】总之，rl206 二极管作为一种常用的电子元件，具有稳定的参数和广泛的应用领域。

180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Featuresn Wide 3.6V to 32V Input Voltage Range n0.22V FB adjustable LED drive current n Directly drive 11 Series 1W LED at VIN>=12Vn Fixed 180KHz Switching Frequencyn Max. 5A Switching Current Capabilityn Up to 94% efficiencyn Excellent line and load regulationn EN PIN TTL shutdown capability & With PWM Dimming Functionn Internal Optimize Power MOSFETn Built in Soft-Start Functionn Built in Frequency Compensationn Built in Thermal Shutdown Functionn Built in Current Limit Functionn Available in TO252-5L package Applicationsn LED Lightingn Boost constant current drivern Monitor LED Backlightingn7’ to 15’ LCD Panels General DescriptionThe XL6005 regulator is fixed frequency PWM Boost (step-up) LED constant current driver, capable of driving Series 1W/3W/5W LED units with excellent line and load regulation. The regulator is simple to use because it includes internal frequency compensation and a fixed-frequency oscillator so that it requires a minimum number of external components to work.The XL6005 could directly drive 11 Series 1W LED units at VIN>12V .The PWM control circuit is able to adjust the duty ratio linearly from 0 to 95%. An enable function, an over current protection function is built inside. An internal compensation block is built in to minimize external component count.Figure1. Package Type of XL6005180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 Pin ConfigurationsFigure2. Pin Configuration of XL6005 (Top View)Table 1 Pin DescriptionPin Number Pin Name Description1 GND Ground Pin.2 EN Enable Pin. Drive EN pin low to turn off the device, drive it high to turn it on. Floating is default high.3 SW Power Switch Output Pin (SW).4 VIN Supply V oltage Input Pin. XL6005 operates from a 3.6V to 32V DC voltage. Bypass Vin to GND with a suitably large capacitor to eliminate noise on the input.5 FB Feedback Pin (FB). The feedback threshold voltage is 0.22V.180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 Function BlockFigure3. Function Block Diagram of XL6005Typical Application CircuitFigure4. XL6005 Typical Application Circuit180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Ordering InformationPart Number Marking ID Lead Free Lead Free Packing Type XL6005E1 XL6005E1 Tube PackageTemperature RangeXL6005TRE1XL6005E1Tape & ReelXLSEMI Pb-free products, as designated with “E1” suffix in the par number, are RoHS compliant.Absolute Maximum Ratings （Note1）ParameterSymbol Value Unit Input VoltageVin -0.3 to 36 V Feedback Pin Voltage V FB -0.3 to Vin V EN Pin VoltageV EN -0.3 to Vin V Output Switch Pin Voltage V Output -0.3 to 60 V Power DissipationP D Internally limitedmW Thermal Resistance (TO252-5L)(Junction to Ambient, No Heatsink, Free Air) R JA 50 ºC/W Operating Junction Temperature T J -40 to 125 ºC Storage TemperatureT STG -65 to 150 ºC Lead Temperature (Soldering, 10 sec) T LEAD 260 ºC ESD (HBM)>2000VNote1: Stresses greater than those listed under Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operation is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 XL6005 Electrical CharacteristicsT a = 25℃;unless otherwise specified.Symbol Parameter Test Condition Min. Typ. Max. Unit System parameters test circuit figure4VFB FeedbackV oltageVin = 5V to 12V, V out=24VIload=100mA209 220 231 mVEfficiency ŋVin=12V ,V out=24VIout=1A- 92 - %Electrical Characteristics (DC Parameters)Vin = 12V, GND=0V, Vin & GND parallel connect a 100uf/50V capacitor; Iout=100mA, T a = 25℃; the others floating unless otherwise specified.Parameters Symbol Test Condition Min. Typ. Max. Unit Input operation voltage Vin 3.6 32 V Shutdown Supply Current I STBY V EN=0V 70 100 uAQuiescent Supply Current I q V EN =2V,V FB =Vin2.5 5 mAOscillator Frequency Fosc 144 180 216 Khz Switch Current Limit I L V FB =0 5 AOutput Power NMOS Rdson Vin=12V,I SW=4A110 120 mohmEN Pin Threshold V EN High (Regulator ON)Low (Regulator OFF)1.40.8VI H V EN =2V (ON) 3 10 uA EN Pin Input LeakageCurrent ILV EN =0V (OFF) 3 10 uA Max. Duty Cycle D MAX V FB=0V 90 %180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Schottky Diode Selection TableCurrent SurfaceMountThrough Hole VR (The same as system maximum input voltage)20V 30V 40V 50V60V1A √1N5817 1N5818 1N5819√ 1N5820 1N5821 1N5822√ MBR320 MBR330 MBR340 MBR350 MBR360 √ SK32 SK33 SK34SK35SK36 √ 30WQ03 30WQ04 30WQ05 √ 31DQ03 31DQ04 31DQ05 3A√SR302SR303SR304SR305SR306√ 1N5823 1N5824 1N5825 √ SR502 SR503 SR504 SR505 SR506 √ SB520 SB530 SB540SB550SB560 5A√50WQ0350WQ04 50WQ05Typical System Application for VIN=12V to driver 11 x 1W series LED unitsFigure5. XL6005 System Parameters Test Circuit (12V ~11 x 1W LED)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 Typical System Application for VIN>=12V to driver 6 x 3W series LED unitsFigure6. XL6005 System Parameters Test Circuit (12V ~ 6 x 3W LED)Typical System Application for VIN>=24V to driver 11 x 3W series LED unitsFigure7. XL6005 System Parameters Test Circuit (24V ~ 11 x 3W LED)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Typical System Application for VIN>=12V to driver 11 series x 40 parallelWhite LED ArrayFigure8. XL6005 System Parameters Test Circuit (12V ~ 11 x 40 White LED) Typical System Application for SEPIC Buck-Boost LED DriverFigure9. XL6005 System Parameters Test Circuit (Buck-Boost LED Driver)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Typical System Application for VIN>=12V to driver 6 x 3W series LED units With Dimming FunctionFigure10. XL6005 System Parameters Test Circuit (12V ~ 6 x 3W LED with Dimming Function)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Package InformationTO252-5L。

One Stanton Street | Marinette, WI 54143-2542, USA | +1-715-735-7411 | © 2018 Johnson Controls. All rights reserved. All specifications and other information shown were current as of document revision date and are subject to change without notice. | Form No. F-99073-11LVS Liquid AgentFire Suppression SystemFeaturesn V ersatility – Stand-alone liquid agent system or in a Twin-Agent concept with dry chemicaln W et Chemical Agent – A blend of organic and inorganic saltscoupled with surface active ingredientsn P re-mixed 3 gal (11.4 L) and 5 gal (18.9 L) containers – Allowsfor convenient filling of the agent tankn E ffective on Class A and Class B firesn W ide temperature operating range of –40 °F to 140 °F(–40 °C to 60 °C), CE temperature rating is –22 °F to 140 °F (–30 °C to 60 °C)n D oes not require annual agent replacementn L VS Agent shelf life may exceed 20 years when stored inoriginal plastic containern F ield-proven cooling agent – LVS Agent has been used inANSUL Twin-Agent Systems around the globe since 1998n R ugged constructionn E ase of maintenance and recharge n M ild steel agent tanks in multiple sizesn R igid seismic ring mounting brackets for LVS-15 andLVS-30 tanksn L VS-3, LVS-5, and LVS-10 tanks can be mounted horizontallyor verticallyn P roven external pressurization cartridge – Provides constantnozzle pressure and full discharge pattern throughout dura-tion of dischargen 1/2 in. Brass Discharge Nozzles with 45° discharge pattern n U tilizes standard SAE 100 R1 or 100 R5 hose; or stainless steeltube meeting ATM A213 or ASME SA 213, 316L tubing speci-ficationsn F lexible design and installation parameters n M ultiple detection and actuation options n C E Marked n F M Approved n A S 5062 Compliant009597ApplicationLVS Liquid Agent Fire Suppression System: The ANSUL ® LVSLiquid Agent stand-alone fire suppression system can protect the following types of equipment:On-Road Vehicles Non-Road Vehicles/Equipment Public transportation Landfill equipment Waste management Forestry vehicles Over-the-road trucking Construction equipment Cargo transport Mining equipment –Intermodal above ground and sub-surface:Haul trucks Specialty Vehicles Wheeled loaders Slag carriers Dozers Pot carriersScooptrams Iron/steel slab carriers Shuttle carsTunnel boring machinesThe system suppresses fires and helps to secure hazard areas by various means:n T he LVS wet chemical agent formulation, sprayed into fire hazard areas, interrupts the chemical reaction that supports combustionn T he liquid agent can flow into areas where flammable liquidsalso flown T he LVS agent formulation forms a film over flammable fuels,which also minimizes reflash potentialn T he LVS wet chemical solution cools the fuel and thesurrounding super-heated surfaces, reducing the possibility for fire re-ignitionApplication (Continued)Twin-Agent System: The fire suppression system can alsobe used as a dry chemical/liquid agent twin-agent systemfor the protection of large non-road construction and mining equipment.Off-road Vehicles/ Specialty andEquipment Underground MiningLarge excavators/shovels Slag, pot, and/or slab carriers Draglines Tunnel boring machinesHaul trucks Waste management equipment Wheeled loaders Forestry vehiclesWhen the LVS liquid agent system is used in a twin-agent system, the dry chemical portion is primarily responsible for quick fire knockdown and suppression. And although the LVS wet chemical system has similar fire suppression capabilities, the wet chemical solution utilized in a twin-agent concept is primarily intended for cooling.DescriptionThe LVS Liquid Agent Fire Suppression System is either a stand-alone fire suppression system or a Twin-Agent System when combined with an ANSUL A-101 Dry Chemical System. The LVS Liquid Agent system is designed for fire suppression and/or surface area cooling in the protected hazard areas.LVS Liquid Agent Fire Suppression System: The liquid agentis a pre-mixed proprietary solution of LVS wet chemical. The agent discharges through hydraulic hose or stainless steel tube arranged in certain straight-line configurations, depending on tank size.LVS System Parameters per Tank SizeAvg. Noz. Single Nozzle Agent Qty. Max. Discharge Coverage Area Tank gal (L) Noz. Time-Sec. ft2 (m2) LVS-3 3 (11.4) 6 20 3 (0.28) LVS-5 5 (18.9) 4 30 7 (0.65) LVS-10 10 (37.9) 8 40 7 (0.65) LVS-15 15 (56.8) 10 60 7 (0.65) LVS-30 30 (113.6) 20 60 7 (0.65) The system is designed to operate within a temperature range of –40 °F to 140 °F (–40 °C to 60 °C), CE temperature rating is–22 °F to 140 °F (–30 °C to 60 °C).The LVS wet chemical can be stored at temperatures as low as –60 °F (–51 °C).Twin-Agent System: The fire suppression system consists of both dry chemical and liquid agent. The dry chemical portion of the system is the ANSUL A-101/LT-A-101 or LT-A-101-50/125/250 system and the liquid agent portion of the system consists of an LVS-3, LVS-5, LVS-10, LVS-15, or LVS-30 tank(s).The twin-agent system, consisting of dry chemical and liquid agent, is designed to operate within a temperature range of–40 °F to 140 °F (–40 °C to 60 °C), CE temperature rating is –22 °F to 140 °F (–30 °C to 60 °C).Wet Chemical: LVS wet chemical is a unique blend of organic and inorganic salts, coupled with surface active agents. This blend provides a strong measure of freeze protection along with the foaming properties associated with conventional Class B liquid agents.The wet chemical is shipped in 3 gal (11.4 L) or 5 gal (18.9 L) plastic containers.Tank: The LVS tank is constructed of steel, finished with a red corrosion-resistant paint. A nitrogen cartridge equipped witha pneumatic actuator supplies the required expellant gas. The LVS-3, LVS-5 and LVS-10 tanks are capable of vertical or hori-zontal mounting.Nozzles: The 9.5 nozzle is a non-aspirating nozzle, constructed of brass, with a blue rubber blow-off cap that differentiates the LVS nozzles from dry chemical nozzles when used in a twin-agent system.Detection and Control: The detection and control system utilized with the LVS system is the approved ANSUL CHECKFIRE Electric Detection and Actuation System. The system is composed of components which are combined to provide automatic fire detection and actuation. The system is particularly suited for protection of equipment that is subjected to extreme environ-mental and physical c onditions.Ordering InformationPart No. Description438821 L VS-30 Shipping Assembly Consisting of: (438839)* LVS-30 Tank55 ft3 (1.6 m3) Nitrogen Cartridge with PneumaticActuatorExpellant Gas HoseTwo 1/4 in. Street Elbows438775 L VS-15 Shipping Assembly Consisting of: (438838)* LVS-15 Tank23 ft3 (0.7 m3) Nitrogen Cartridge with PneumaticActuatorExpellant Gas HoseTwo 1/4 in. Street Elbows439361 LVS-10 Shipping Assembly Consisting of:LVS-10 TankBracket435876 LVS-5 Shipping Assembly Consisting of:LVS-5 TankBracketNote: LVS-10 and LVS-5 require LT-A-101-30 Nitrogen Cartridge, Bracket, and Electric-Pneumatic Actuator Shipping Assembly, Part No. 24883 (41735)*441774 LVS-3 Shipping Assembly Consisting of:LVS-3 TankBracketNote: LVS-3 requires LT-30-R Nitrogen Cartridge, Bracket, and Electric-Pneumatic Actuator, Part No. 442586 (442587)*24883 LT-A-101-30 Nitrogen Cartridge, Bracket, and Electric- (431735)* P neumatic Actuator Shipping Assembly(LVS-5/LVS-10)433325 9.5 Nozzle Assembly (1/2 in. NPT) Consisting of:Nozzle with Blow-Off Cap“L” Mounting BracketTwo Lockwashers438835 Distribution Manifold Block (4 outlets)438834 Distribution Manifold Block (2 outlets on2 opposing sides)428405 Mounting Ring (for LVS-30)428404 Mounting Ring (for LVS-15)433685 LT-A-101-50/LVS-5 Bracket433294 9.5 Nozzle (1/2 in. NPT) with Blow-Off Cap (Single) 434403 9.5 Nozzle Blow-Off Cap (Package of 50)441775 LVS Wet Chemical, 3 gal (11.4 L) Pail426961 LVS Wet Chemical, 5 gal (18.9 L) Pail428061 55 ft3 (1.6 m3) Nitrogen Cartridge (for LVS-30) 428060 23 ft3 (0.7 m3) Nitrogen Cartridge (for LVS-15) 423491 LT-A-101-30 Nitrogen Cartridge (for LVS-5/LVS-10) (428442)*423425 LT-30-R Nitrogen Cartridge (for LVS-3)(428441)*16511 Fill Cap Spanner Wrench (LVS-5/LVS-10)428363 Sealed Burst Disc Assembly Package (15 Discs) 427560 System Blow-Down Kit427109 M anual: Installation, Operation, Design, Maintenance, and Recharge53081 Owner’s Manual*CE Version Part No. in parenthesesSpecifications1.0 General1.1 Requirements1.1.1 T he equipment to be protected shall utilize a [freeze-protected stand-alone liquid agent system] [twin-agent fire suppression system incorporating botha dry chemical and a wet chemical system] and anapproved automatic detection system.1.1.2 T he fire detection/suppression system shall consistof the following ANSUL com p onents or approvedequal:n[LVS liquid agent fire suppression system (wetchemical only)]n[LVS liquid agent/LT-A-101 dry chemical firesuppression system (twin-agent system)]n C HECKFIRE electric detection and actuationsystem1.1.3 A s backup to the fire detection/suppression system,the equipment shall contain a minimum of two 20 lbhand portable fire extinguishers.1.1.3.1 E ach hand portable extinguisher shall be aRED LINE cartridge-operated dry chemicalmodel or approved equal.2.0 Products2.1 T he [liquid agent] [twin-agent] fire detection/suppressionsystem shall be supplied as a pre-engineered system,requiring specific design (by trained and authorized person-nel) for the vehicle intended to be protected. The pre-engineered system shall consist of components includingagent storage tanks, expellant gas cartridges/containers,discharge nozzles, agent distribution lines, actuation andexpellant gas lines, an ANSUL CHECKFIRE control module, manual/automatic and manual-only actuators, and a detec-tion network that may include thermal detection alone orcombined with infra-red (IR³) flame detection.2.1.1 T he ANSUL CHECKFIRE control module shallrespond to electrical input from the detectionnetwork and initiate an output(s) for alarm, vehicleshutdown, and fire suppression system a ctuationfunctions. The control module power source shallbe provided from a 12 to 24 VDC source (by others)and/or a replaceable internal lithium battery that willsupply power for one year under normal operatingconditions. The control module shall be program-mable for alarm-to-shutdown and shutdown-to-discharge delays. The module cover shall containaudible and visual status indicators for power,alarm, detection, and release circuits.2.1.2 T he system shall provide both a manual and auto-matic means to pneumatically a ctuate the firesuppression systems.2.1.3 T he system shall provide heat detection using[linear detection wire] [spot detectors] [IR3 detec-tion] when minimal detection response times areessential.2.1.4 A gent storage shall consist of one or more steelpressure vessels each capable of being easilyinspected for agent condition and fill level withoutrequiring d epressurization.2.1.5 E ach wet chemical storage tank shall be pressur-ized upon actuation from a separate steel nitrogencylinder meeting [DOT 3AA-1800] [DOT-3AA-2015][Transport Canada] [CE] specifications.2.1.6 E ach dry chemical storage tank shall be pressurizedfrom a separate steel nitrogen cartridge meeting[DOT-3AA-1800] [DOT-3AA-2015] [Transport Canada][CE] specifications.2.1.7 T he wet chemical and dry chemical agents shallbe distributed through [SAE 100 R1] [SAE 100 R5]minimum rated hydraulic hoses or stainless steeltube meeting ATM A213 or ASME SA 213, 316Ltubing specifications, and brass n ozzles that arepermanently installed in the hazard areas. Thenozzles shall employ blow-off caps that shall beeasily displaced upon agent discharge.2.1.8 T he wet chemical shall be a blend of inorganicsalts s uitable for Class A and B fires and is freezeprotected to and can be stored at –60 °F (–51 °C).2.1.9 T he dry chemical shall be monoammonium phos-phate suitable for Class A, B, and C fires.2.1.10 T he liquid agent system shall be capable of operat-ing within a temperature range of –40 to 140 °F(–40 to 60 °C), CE temperature rating is –22 °F to140 °F (–30 °C to 60 °C).2.1.11 T he dry chemical system shall be capable of operat-ing within a temperature range of –65 to 210 °F(–54 to 99 °C).2.2 T he hand portable fire extinguisher shall consist of a mildsteel pressure vessel capable of being easily inspectedfor agent condition and fill level without requiring depres-surization. Upon operation, it shall be pressurized from aseparate steel nitrogen cartridge meeting [DOT 3A-2100][DOT 3E-1800] [Transport Canada] [CE] specifications. Theextinguishing agent shall be mono a mmonium phosphatedry chemical suitable for Class A, B, and C fires.Safety Data Sheets (SDS) are available at Note: The converted values in this document are provided for dimensional reference only and do not reflect an actual measurement.ANSUL and the product names listed in this material are marks and/or registered marks. Unauthorized use is strictly prohibited.。

Eaton 198996Eaton Moeller® series Rapid Link - Speed controllers, 5.6 A, 2.2 kW, Sensor input 4, Actuator output 2, PROFINET, HAN Q4/2General specificationsEaton Moeller® series Rapid Link Speed controller1989964015081970544157 mm 270 mm 220 mm 3.44 kg IEC/EN 61800-5-1 UL 61800-5-1 RoHS UL approval CEProduct NameCatalog NumberEANProduct Length/Depth Product Height Product Width Product Weight Certifications Catalog Notes 3 fixed speeds and 1 potentiometer speedcan be switched over from U/f to (vector) speed control Connection of supply voltage via adapter cable on round or flexible busbar junction Diagnostics and reset on the device and via PROFINET integrated PTCParameterization: drivesConnectParameterization: KeypadParameterization: FieldbusParameterization: drivesConnect mobile (App)PTC thermistor monitoringControl unitKey switch position AUTO2 Actuator outputsInternal DC linkIGBT inverterKey switch position HANDThermo-click with safe isolationPC connectionKey switch position OFF/RESETTwo sensor inputs through M12 sockets (max. 150 mA) for quick stop and interlocked manual operationSelector switch (Positions: REV - OFF - FWD)3 fixed speeds1 potentiometer speed NEMA 12IP651st and 2nd environments (according to EN 61800-3)IIISpeed controllerPROFINET IOC1: for conducted emissions onlyC2, C3: depending on the motor cable length, the connected load, and ambient conditions. External radio interference suppression filters (optional) may be necessary.2000 VAC voltagePhase-earthed AC supply systems are not permitted. Center-point earthed star network (TN-S network)Vertical15 g, Mechanical, According to IEC/EN 60068-2-27, 11 ms, Half-sinusoidal shock 11 ms, 1000 shocks per shaftResistance: According to IEC/EN 60068-2-6Resistance: 57 Hz, Amplitude transition frequency on accelerationResistance: 6 Hz, Amplitude 0.15 mmResistance: 10 - 150 Hz, Oscillation frequency Max. 2000 mAbove 1000 m with 1 % performance reduction per 100 m -10 °C40 °C-40 °C70 °CFeatures Fitted with:Functions Degree of protectionElectromagnetic compatibility Overvoltage categoryProduct categoryProtocolRadio interference classRated impulse withstand voltage (Uimp) System configuration typeMounting position Shock resistance Vibration AltitudeAmbient operating temperature - min Ambient operating temperature - max Ambient storage temperature - min Ambient storage temperature - max Climatic proofing< 95 %, no condensationIn accordance with IEC/EN 50178Current limitation0.5 - 5.6 A, motor, main circuitAdjustable, motor, main circuitDelay time< 10 ms, Off-delay< 10 ms, On-delayEfficiency98 % (η)Input current ILN at 150% overload5.3 ALeakage current at ground IPE - max3.5 mAMains current distortion120 %Mains switch-on frequencyMaximum of one time every 60 secondsMains voltage - min380 VMains voltage - max480 VMains voltage tolerance380 - 480 V (-10 %/+10 %, at 50/60 Hz)Operating modeSensorless vector control (SLV)U/f controlSynchronous reluctance motorsPM and LSPM motorsBLDC motorsOutput frequency - min0 HzOutput frequency - max500 HzOverload currentFor 60 s every 600 sAt 40 °COverload current IL at 150% overload8.4 A45 Hz66 Hz5.6 A at 150% overload (at an operating frequency of 8 kHz and an ambient air temperature of +40 °C)2.2 kW480 V AC, 3-phase400 V AC, 3-phase0.1 Hz (Frequency resolution, setpoint value)200 %, IH, max. starting current (High Overload), For 2 seconds every 20 seconds, Power section50/60 Hz8 kHz, 4 - 32 kHz adjustable, fPWM, Power section, Main circuitAC voltagePhase-earthed AC supply systems are not permitted.Center-point earthed star network (TN-S network)3 HP≤ 0.6 A (max. 6 A for 120 ms), Actuator for external motor brakeAdjustable to 100 % (I/Ie), DC - Main circuit10 kAType 1 coordination via the power bus' feeder unit, Main circuit 24 V DC (-15 %/+20 %, external via AS-Interface® plug)PROFINET, optionalPlug type: HAN Q4/2Max. total power consumption from AS-Interface® power supply unit (30 V): 250 mASpecification: S-7.4 (AS-Interface®)Number of slave addresses: 31 (AS-Interface®)Rated frequency - minRated frequency - maxRated operational current (Ie)Rated operational power at 380/400 V, 50 Hz, 3-phase Rated operational voltageResolutionStarting current - maxSupply frequencySwitching frequencySystem configuration type Assigned motor power at 460/480 V, 60 Hz, 3-phase Braking currentBraking torqueRated conditional short-circuit current (Iq)Short-circuit protection (external output circuits) Rated control voltage (Uc)Communication interfaceConnectionInterfacesCable length10.2.2 Corrosion resistanceC3 ≤ 25 m, maximum motor cable length C1 ≤ 1 m, maximum motor cable length C2 ≤ 5 m, maximum motor cable length Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.10.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strength10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.The panel builder is responsible for the temperature risecalculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Is the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.Generation change RAMO4 to RAMO5Generation change from RA-SP to RASP 4.0Generation change from RA-MO to RAMO 4.0Generation Change RASP4 to RASP5Electromagnetic compatibility (EMC)Generation Change RA-SP to RASP5Connecting drives to generator suppliesConfiguration to Rockwell PLC for Rapid LinkRapid Link 5 - brochureDA-SW-drivesConnect USB Driver DX-COM-PCKITDA-SW-USB Driver PC Cable DX-CBL-PC-1M5DA-SW-drivesConnectDA-SW-drivesConnect - installation helpDA-SW-Driver DX-CBL-PC-3M0DA-SW-drivesConnect - InstallationshilfeDA-SW-USB Driver DX-COM-STICK3-KITMaterial handling applications - airports, warehouses and intra-logisticsProduct Range Catalog Drives EngineeringProduct Range Catalog Drives Engineering-ENDA-DC-00003964.pdfDA-DC-00004184.pdfDA-DC-00004514.pdfDA-DC-00004508.pdfeaton-bus-adapter-rapidlink-speed-controller-dimensions-002.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions-003.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions.epseaton-bus-adapter-rapidlink-speed-controller-dimensions-004.eps ETN.RASP5-5420PNT-4120000S1.edzIL034093ZU10.10 Temperature rise10.11 Short-circuit rating10.12 Electromagnetic compatibility10.13 Mechanical functionApplication notesBrochuresCataloguesCertification reportsDrawingseCAD modelInstallation instructionsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaRapid Link 5MN040003_EN MN034004EN MZ040046_EN DA-MN-MZ040045EN rasp5_v35.stp ramo5_v35.dwgInstallation videos Manuals and user guides mCAD model。

rl206二极管参数摘要：一、rl206 二极管简介1.rl206 二极管的定义2.rl206 二极管的分类二、rl206 二极管参数1.正向电压2.反向电压3.正向电流4.反向电流5.功率6.频率7.温度三、rl206 二极管的应用领域1.电源2.通信3.汽车电子4.家电四、rl206 二极管的选购与使用注意事项1.选购时的参数对比2.安装与使用环境3.参数测量方法正文：rl206 二极管是一种半导体器件，具有单向导通的特性。

它由p 型半导体、n 型半导体以及连接两者的pn 结构组成。

rl206 二极管广泛应用于各种电子设备中，实现对电流的控制和调节。

在了解rl206 二极管之前，我们需要了解一些基本参数。

这些参数主要包括正向电压、反向电压、正向电流、反向电流、功率、频率和温度等。

正向电压是指二极管正向导通时所加的电压，一般为0.7-1V。

正向电压是二极管正常工作所需的最小电压，当电压达到正向电压时，二极管开始导通。

反向电压是指二极管在反向接入时所能承受的最大电压。

rl206 二极管的反向电压一般为50V 左右。

反向电压过高会导致二极管击穿，从而损坏设备。

正向电流是指二极管正向导通时的电流。

rl206 二极管的正向电流一般在1A 左右。

正向电流过大可能导致二极管过热，影响其寿命。

反向电流是指二极管在反向接入时流过的电流。

rl206 二极管的反向电流一般为1μA 以下。

反向电流越小，二极管的抗干扰能力越强。

功率是指二极管在导通状态下所能承受的最大功率。

rl206 二极管的功率一般为1W 左右。

功率过大可能导致二极管过热，影响其性能。

频率是指二极管所能承受的信号频率。

rl206 二极管的频率一般为1MHz 以上。

高频信号下，二极管的性能会受到影响。

温度是指二极管工作时的环境温度。

rl206 二极管的工作温度一般为-40℃至+85℃。

在极端温度下，二极管的性能可能会受到影响。

rl206 二极管广泛应用于电源、通信、汽车电子和家电等领域。

SERIAL NUMBER: PCB Issue D, 010-0206-001 1309XXXXX and higherREVISION: August 2013pn 888-0206-002Model 206LHigh Efficiency Cabinet Power SupplyOperations ManualTable of ContentsSection 1 Glossary (1)Section 2 General (1)Section 3 General Characteristics (1)Section 4 Installation (1)Section 5 Adjustments (1)Section 6 Theory of Operation (1)6.1 System Description (1)6.2 Circuit Operation (2)6.3 Specifications (2)Section 7 Maintenance (2)7.1 Trouble Analysis (3)7.2 Wave Forms (3)Section 8 Technical Information (4)8.1 Schematics (4)8.2 Bill of Materials (6)8.3 Assembly Drawing (9)8.4 Connector (10)SECTION 2 GENERALThe Model 206L Cabinet Power Supply is a rack mounted high efficiency switching power supply that provides a single regulated +24VDC output for a PDA #2 or PDA #3 assembly commonly found in a 332 or 336 style cabinet. The Model 206L is plug-in compatible with a Caltrans Model 206 Cabinet Power Supply.SECTION 3 GENERAL CHARACTERISTICSThe Model 206L provides full output regulation across changes in AC Line voltage and output load over the full operating temperature range of -34C to +74C. Power Factor Correction is also provided reducing peak AC Line input current and associated stress on wiring. The AC Line input is rated for 80 to 270 Vac operation at 50 or 60 Hz. SECTION 4 INSTALLATIONThe Model 206L is a rack mounted device that requires no adjustments or programming when installed. The Model 206L requires no maintenance or periodic adjustments. SECTION 5 ADJUSTMENTSThe Model 206L requires no adjustments or programming. Test jacks are provided to measure the 24VDC output.SECTION 6 THEORY OF OPERATION6.1 SYSTEM DESCRIPTION400Vdc AC FilterRectifier Output FilterPower FactorCorrection &400VDC OutputInternal 17 VdcSupply DC to DC Convertor24VDC Output 24VDC Output6.2 CIRCUIT OPERATIONThe internal 17Vdc supply is a buck type integrated switching supply used to generate the 17Vdc voltage which supplies operating power to both the PFC and 24VDC output controller circuits. The integrated controller (U6) uses rectified AC from C28 and down converts it to 17 Vdc (VCC). The front panel LED (DS1) indicates the AC Line is applied and the 17 Vdc output is active.The AC Filter and Rectifier circuit converts the incoming AC Line voltage to a rectified voltage at T1.2. Filter network C11, R45, R46, T3, and C27 prevent high frequency switching noise from being coupled back into the AC Line. The AC input is fused for over-current protection with a 3 Amp slow blow fuse.The integrated PFC controller (U1) converts this rectified voltage to a 400 Vdc value (HV+) stored in C29. Comparator circuit U2-A is used to shut down the PFC controller during low AC Line conditions. Caution: Internal LED DS3 is used to warn a service technician that high voltage is present on C29 (HV+).DC to DC Controller (U5) down converts the 400 Vdc to create an isolated and regulated +24 Vdc output at C8, C9, and C10. Components L1, C6, and C7 filter out switching noise to the output. The front panel LED DS2 indicates that the 24Vdc output is active. Signal PFC_RDY is used to shut down the DC to DC Controller (U5) during low AC Line conditions.The output is fused for over-current protection with an 8A slow blow fuse. The output is protected against voltage transients by a 1500 Watt suppressor (Z1).6.3 SPECIFICATIONSAC Operating Voltage Minimum ...................................................................... 80 Vac AC Operating Voltage Maximum ................................................................... 270 Vac AC Operating Frequency ......................................................................... 45 to 65 Hz Power Factor (120 Vac at full load) ....................................................................... 0.98 Efficiency (120 Vac at full load) ............................................................................ 86% DC Output Voltage ................................................................................ 24 Vdc +/- 2% DC Output Current Maximum........................................................................... 5 Amps DC Output Ripple Maximum ....................................................................... 200 mVpp Note: Ripple is measured at 20MHz of bandwidth using a 12" twisted pair-wireterminated with a 0.1uf & 47uf capacitor.Minimum Holdup Time (5 Amp load) ................................................... 50 milliseconds Height ......................................................................................................... 6.0 inches Width ........................................................................................................... 5.5 inches Depth (excluding handle & connector pins) .............................................. 7.35 inches Storage Temperature Range ................................................................. -45 to +85 o C Operating Temperature Range .............................................................. -34 to +74 o C Humidity (non-condensing) ............................................................. 0 to 95% Relative SECTION 7 MAINTENANCEA green LED indicator is provided to display AC Line input status and fuse integrity. A separate green LED indicator is provided to display output status and fuse integrity for the 24VDC output.The Model 206L requires no adjustments or programming. Test jacks are provided to measure the 24VDC output.7.1 TROUBLE ANALYSIS1) AC Line indicator DS1 is not illuminated:a. Check that AC Line input fuse (F2) is not blown. Replace with 3A SB fuse.b. Check that AC Line voltage is greater than 80 Vac.c. Check that internal 17Vdc supply is operating (VCC).2) DC Output indicator DS2 is not illuminated:a. Check that internal 17Vdc supply is operating.b. Check that DC output fuse (F1) is not blown. Replace with 8A SB fuse.c. Check that PFC Controller is providing 400 Vdc at HV+, DS3 should beilluminated.3) DC Output is not active:a. Check that the DC to DC controller has not shut down because of anoutput load that exceeds the maximum value. Once the overload isremoved a power cycle will reset the operation of the controller.7.2 WAVE FORMSInternal VCC Supply, U6 pin 3 PFC Supply: C h 1 = U1 pin 7Ch 2 = Q1 drainXDC to DC Supply: Ch 1 = U5 pin 10Ch 2 = T2 pin 5Model 206L Cabinet Power Supply Operations ManualEberle Design Inc. Page 98.3 ASSEMBLY DRAWINGModel 206L Cabinet Power SupplyOperations Manual8.4 CONNECTORConnector intermates with Beau S-5406 or equivalent:Eberle Design Inc. Page 10。