IGCM20F60GA datasheet preliminary_20100405

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CMBV-150-MFT 商品数据清单

CMBV-150-MFT 商品数据清单

Basic Non Fail-Safe multifunction technologyactuator for controlling dampers in typicalcommercial HVAC applications.• Torque motor 18 in-lb [2 Nm]• Nominal voltage AC/DC 24 V• Control modulating, communicative• Position feedback 2...10 VTechnical dataElectrical data Nominal voltage AC/DC 24 VNominal voltage frequency50/60 HzNominal voltage range AC 19.2...28.8 V / DC 19.2...28.8 VPower consumption in operation 1.5 WPower consumption in rest position 1 WTransformer sizing 2 VAConnection supply / control cable 3 ft. [1 m], 4 x 0.34 mm²Electrical Connection18 GA plenum cable, 1 mOverload Protection electronic throughout full rotation Data bus communication Communicative control MP-BusFunctional data Torque motor18 in-lb [2 Nm]Pipe diameter6" [DN 150]Operating range Y 2...10 VInput impedance100 kΩOperating modes optional modulatingPosition feedback U 2...10 VPosition feedback U note Max. 0.5 mAPosition feedback U variable VDC variableManual override disengage with magnetRunning Time (Motor)70 sNoise level, motor35 dB(A)Position indication Mechanical, pluggable (with integrated magnetfor gear train disengagement)Airtightness Class 2 (DIN EN 1751)Safety data Fire behaviour group Damper blade RF3 (CH)Protection class IEC/EN III, Safety Extra-Low Voltage (SELV)Power source UL Class 2 SupplyDegree of protection IEC/EN IP00Degree of protection NEMA/UL NEMA 1Enclosure UL Enclosure Type 1EMC CE according to 2014/30/EUCertification IEC/EN IEC/EN 60730-1 and IEC/EN 60730-2-14Agency Listing cULus acc. to UL60730-1A/-2-14, CAN/CSAE60730-1:02, CE acc. to 2014/30/EUQuality Standard ISO 9001UL 2043 Compliant Suitable for use in air plenums per Section300.22(C) of the NEC and Section 602 of theIMCType of action Type 1••••Mode of operationConverter for sensorsParametrisable actuatorsApplicationSimple direct mountingManual overrideAdjustable angle of rotation High functional reliabilitySafety dataRated impulse voltage supply / control 0.8 kV Pollution degree 2Ambient humidity Max. 95% RH, non-condensing Ambient temperature 32...122°F [0...50°C ]Storage temperature -40...176°F [-40...80°C]Servicingmaintenance-free Weight Weight0.97 lb [0.44 kg]MaterialsHousing material UL94-5VASafety notesThe device must not be used outside the specified field of application, especially not in aircraft or in any other airborne means of transport.Only authorized specialists may carry out installation. All applicable legal or institutional installation regulations must be complied during installation.The device may only be opened at the manufacturer's site. It does not contain any parts that can be replaced or repaired by the user.Cables must not be removed from the device.Product featuresConventional operation:The actuator is connected with a standard control signal of 0...10 V and drives to the position defined by the control signal. The measuring voltage U serves for the electrical display of the actuator position 0.5...100% and as control signal for other actuators.Operation on Bus:The actuator receives its digital control signal from the higher level controller via the MP-Bus and drives to the position defined. Connection U serves as communication interface and does not supply an analogue measuring voltage.Connection option for a sensor (active sensor or switching contact). The MP actuator serves as an analog/digital converter for the transmission of the sensor signal via MP-Bus to the higher level system.The factory settings cover the most common applications. Single parameters can be modified with the Belimo Service Tools MFT-P or ZTH EU.Variable volumetric flow with a modulating reference variable, e.g. room temperature controller direct digital control or bus system, enables demand-related, energy-saving ventilation of individual rooms or zones. The input for the operating range V̇m in … V̇m ax can be adapted at thereference controller (mode switching).The actuator is mounted directly on the damper shaft (ø6...12.7 mm) with a universal shaft clamp and then secured with the anti-rotation clip, to prevent it from rotating.Manual override with magnet possible (the gear train is disengaged as long as the magnet adheres to the magnet symbol). The magnet for gear train disengagement is integrated in the position indication.Adjustable angle of rotation with mechanical end stops.The actuator is overload protected, requires no limit switches and automatically stops when the end stop is reached.Tools connectionGatewaysDescriptionType Gateway MP to BACnet MS/TP UK24BAC Gateway MP to Modbus RTUUK24MOD ToolsDescriptionType Belimo PC-Tool, Software for adjustments and diagnosticsMFT-P Connecting cable 16 ft [5 m], A: RJ11 6/4 ZTH EU, B: free wire end for connection to MP/PP terminalZK2-GEN Service Tool, with ZIP-USB function, for programmable andcommunicative Belimo actuators, VAV controller and HVAC performance devicesZTH USElectrical installationSupply from isolating transformer.Parallel connection of other actuators possible. Observe the performance data.Wiring diagramsConnection of active sensorsConnection of external switching contactA) additional MP-Bus nodes (max. 8)• Supply AC/DC 24 V• Output signal DC 0...10 V (max. DC 0...32 V)• Resolution 30 mVA) additional MP-Bus nodes (max. 8)• Switching current 16 mA @ 24 V• Start point of the operating range must be parametrised on the MP actuator as ≥ 0.5 VFunctionsFunctions when operated on MP-Bus Connection on the MP-BusMP-Bus Network topologyA) additional MP-Bus nodes(max. 8)There are no restrictions for the network topology (star, ring, tree or mixed forms are permitted).Supply and communication in one and the same 3-wire cable • no shielding or twisting necessary• no terminating resistors requiredServiceThe actuator can be configured by ZTH EU via terminal connection.For extended configuration the PC tool can be connected.。

HS8916_V0.6_Datasheet Preliminary

HS8916_V0.6_Datasheet Preliminary

QUAD-BAND GSM/GPRS/EDGE W Multi-Mode Transmit Module with Fourteen Linear TRx Switch Ports andDual-Band TD-SCDMA B34/39 and TDD LTE B39HS8916 Preliminary DatasheetVersion 0.62016-03-21HS8916 Front-end ModuleProduct Features ApplicationsG N DG N DG N DG N DG N DC P LG NDN CTRX10ANT TRX9TRX8GND GNDGND TRX11TRX12TRX13TRX14•LGA: 5.5 mm x 5.3 mm x 0.85 mm Max•Fully programmable MIPI RFFE control •Fourteen low -insertion-loss TRx ports (fiveultra-low loss) with enhanced linearity, for state-of-the-art 4G performance and GPS /•Cellular handsets encompassing Quad -Band GSM/EDGE, Dual-Band TD-SCDMA, and TDD LTE- Class 4 GSM850/900 - Class 1 DCS1800/PCS1900Product DescriptionThe HS8916 is a high-power, high-efficiency Front-End Module for GSM850/900, DCS1800, PCS1900 operation. The FEM supports Class.12 General Packet Radio Service (GPRS), EDGE multi-slot operation, and TD-SCDMA and TDD LTE linear transmission.The module provides 50 ohm impedance at input and output ports, consists of a CMOS Controller, a SP16T RF switch, a power amplifier supporting GSM850/900, DCS1800/PCS1900, TD-SCDMA bands 34/39, and TDD LTE band 39. The module integrated Tx low pass harmonic filtering can achieve best harmonic performance.The HS8916 provides high-power and high-efficiency Pout for GSM850/900, DCS1800, PCS1900 operation mode. In EDGE and TD-SCDMA / TDD LTE linear modes, VRAMP voltage and MIPI-based bias settings optimize PA linearity and efficiency.Absolute Maximum RatingsMIPI RFFE REGISTER MAP (1 OF 2)MIPI RFFE REGISTER MAP (2 OF 2)Electrical Specifications – TX GSM850/900 Band, GSMK ModeElectrical Specifications – TX GSM850/900 Band, EDGE ModeElectrical Specifications – TX DCS1800/1900 Band, GMSK ModeElectrical Specifications – TX DCS1800/1900 Band, EDGE ModeElectrical Specifications – TX TD-SCDMA B39 BandElectrical Specifications – TX TDD LTE B39 BandElectrical Specifications – TX TD-SCDMA B34 BandElectrical Specifications – Ports TRx1 to TRx14 ModePin-Out DiagramT R X 7T R X 6T R X 5G N DT R X 1T R X 2T R X 3T R X 4HS8916 Application CircuitT R X 7T R X 6T R X 5G N DR X 1T R X 2T R X 3T R X 4Package DrawingThe HS8916 is encapsulated in a 5.5×5.3×0.85mm Land Grid Array (LGA) package on a laminate substrate. The HS8916 is RoHS compliant.。

IGCM20F60GA_icpdf

IGCM20F60GA_icpdf

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ᆘᔬ᧣IGBT࿰ᘤ
1990: ᗹ创ᑤ᯵ᴭṞ (NPT) IGBT ࿠᳔竞䖜对ᗌᜐ1996-99᦮ᱣᲇᓨ关产ᶦ
1995: ᗹ创ີ压 IGBTs (3.3kV)
1998: ᗹ创600V᧣IGBTs, ሆᠭᑤ᯵ᴭṞ฿၃ (NPT)࿔100µm᱅ጥᩁᵡ ࿰术 ࿠᳔竞䖜对ᗌᜐ2001-02᦮ᱣᲇᓨ关产ᶦ
Copyright © Infineon Technologies 2007. All rights reserved.
Page 15
኷录
$*1045. 4*-฿䀒 Ꮷ装࿰术
ໍᖰ࿣ฒ࿰术 驱䕃*$࿰术 $*104*.ኦ䀜软ฒ 䎦ວ测试线ᆪᵄ
Copyright © Infineon Technologies 2007. All rights reserved.
CIPOSTM 䕏现ࡾ૬驱䕃䕧计த简单ࣕཧ ૝తํҊ,ߋू߹驱䕃IC,IGBT,ೋ极؅, 热හ䕚્‫ࣗٴ‬举䕚࿏
The whole is more than the sum of it's parts ((AArriissttootteelleess))
Copyright © Infineon Technologies 2007. All rights reserved.
CIPOSTM
Control Integrated Power System = CIPOSTM 传㹎ኦᕾṞ(Transfer-molded) ᭽ᕧኦ䟦 - ᓈᓨᝂ䕇IGBTs࿔驱䕃IC, 当ᬊᵹᷤ᫓䣉ᡯฒ: 热ጊ䕚᪩, ᥦ举䕚ᆪᬊ᧣䕚᪩࿔ᤍᧅ໴ ᤼体ặ᧣ DCB/PCB 产ᶦຉᅾ : 8A, 12A, 17A, 22A (ᓝ䙺᷀᧣DC䕚ᇥ࠽) Ꮷ装ᯠᱏ : 50.4 x 30.2 x 6.0 mm3 产ᶦ䎦ວ᠒ᆪ : /cipos

MBI6024 Preliminary Datasheet V2.00-EN

MBI6024 Preliminary Datasheet V2.00-EN

6F-4, No.18, Pu-Ting Rd., Hsinchu, Taiwan 30072, R.O.C.Sink Driver for LED StripsFeaturesz 3x4-channel constant-current sink driver for LED strips z Constant current range: 3~45mAz 3 groups of output current, each group is set by an external resistor z Sustaining voltage at output channels: 17V (max.) z Supply voltage 3V~5.5VzEmbedded 16-bit PWM generator- Gray scale clock generated by the embedded oscillator - S-PWM patented technologyz Two selectable modes to trade off between image quality and transmission bandwidth- 16-bit gray scale mode (with optional 8-bit dot correction) - 10-bit gray scale mode (with optional 6-bit dot correction)z Reliable data transmission- Daisy-chain topology- Two-wire transmission interface - Phase-inversed output clock- Built-in buffer for long distance transmission zFlexible PWM reset modes - Auto-synchronization mode - Manual-synchronization mode z RoHS-compliant packagesApplicationz LED strips z Mesh display z Architectural lightingProduct DescriptionMBI6024 is a 3x4-channel, constant-current, PWM-embedded sink driver for LED strips. MBI6024 provides constant current ranging from 3mA to 45mA for each output channel and are adjustable with three corresponding external resistors. Besides, MBI6024 can support both 3.3V and 5V power systems and sustain 17V at output channels.With Scrambled-PWM (S-PWM) technology, MBI6024 enhances pulse width modulation by scrambling the “on” time into several “on” periods to increase visual refresh rate at the same gray scale performance. Besides, the gray scale clock (GCLK) is generated by the embedded oscillator. Moreover, MBI6024 provides two selectable gray scale modes to trade off between image quality and transmission: 16-bit gray scale mode and 10-bit gray scale mode. The 16-bit gray scale mode provides 65,536 gray scales for each LED to enrich the color. Subject to the 16-bit gray scale mode, the 8-bit dot correction may adjust each LED by 256-step gain to compensate the LED brightness. Furthermore, the 10-bit gray scale mode provides 1,024 gray scales. Subject to the 10-bit gray scale mode, 6-bit dot correction may adjust each LED by 64-step gain.In addition, MBI6024 features a two-wire transmission interface to make cluster-to-cluster connection easier. To improve the transmission quality, MBI6024 provides phase-inversed output clock to eliminate the accumulation of signal pulse width distortion. MBI6024 is also flexible for either manual-synchronization or auto-synchronization. The manual-synchronization is to maintain the synchronization of image frames between ICs. The auto-synchronization is to achieve accurate gray scale, especially when using the built-in oscillator.2413V R-EXTA R-EXTCOUTAn OUTBnMBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsSymbo l tSU tHD tPHL1 tPHL2 tPHL3 tPHL4 tPHL5 tPHL6 tPLH3 tPLH4 tPLH5 tPLH6 tw(I) tWDM tOR tOR1 tOF tOF1 FCKI FOSC VLED=4V VDS=1.0V VIH=VDD VIL=GND IOUT=20mA RL=150Ω CL=10pF C1=4.7uF C2=0.1uF C3=4.7uF CCKO=8pF CSDO=8pFSwitching Characteristics (VDD=3.3V, Ta=25°C)Characteristics Setup Time Hold Time SDI–CKI↓ CKI↓–SDI CKI↑–CKO↓ CKI↓–SDO↑↓ GCLK↑– OUTB0 , OUTA1 , Propagatio n Delay Time (“H” to “L”)OUTB2 ↓ConditionMin. 7.5 7.5 32 40 48 56 32 40 48 56 20 38 3.0 12.0 3.0 30.0 0.2 -Typ. 50 38 40 48 56 64 40 48 56 64 6.0 18.0 6.0 35.0 24.0Max. 48 56 64 72 48 56 64 72 9.0 24.0 9.0 40.0 10 -Unit ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns MHzGCLK↑– OUTC1 , OUTA3 ,OUTC3↓ ↓GCLK↑– OUTA0 , OUTC0 ,OUTA2GCLK↑– OUTB1 , OUTC2 , OUTB3 ↓ GCLK↑– OUTB0 , OUTA1 ,OUTB2 ↑Propagatio n Delay Time (“L” to “H”)GCLK↑– OUTC1 , OUTA3 ,OUTC3↑ ↑GCLK↑– OUTA0 , OUTC0 ,OUTA2GCLK↑– OUTB1 , OUTC2 , OUTB3 ↑ Pulse Width Minimum Pulse Width of PWM Rise Time CKI*OUTAn ~ OUTCnCKO/SDOOUTAn ~ OUTCnFall TimeCKO/SDOOUTAn ~ OUTCnCKI* Frequency Internal Oscillator*The maximum frequency may be limited by different application conditions. Please refer to the application note for details.- 11 -October 2011, V2.00MBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsTest Circuit for Electrical / Switching Characteristics- 12 -October 2011, V2.00MBI6024Timing WaveformPWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsSignal Input and Output with Phase-inversed Output ClockOutput Timing- 13 -October 2011, V2.00MBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsPrinciple of OperationMBI6024 provides SPI-like interface (CKI, SDI), a two-wire transmission interface, to address the data, so that MBI6024 receives the data directly without a latch command. The sequence of operation should follow the steps below: Step 1. Set the configuration register Step 2. Send the dot correction data Step 3. Send the gray scale data MBI6024 receives the data packet containing targeted gray scale (GS) data from the controller, and turns on the output channels according to the gray scale data. The gray scale clock of PWM generator, GCLK, is generated by the embedded oscillator.Control Interface: SPI-Like Interface (CKI, SDI)MBI6024 adopts the SPI-like interface (CKI/SDI). By SPI-like interface, MBI6024 samples the data (SDI) at the falling edge of the clock (CKI).The following waveforms is the example of the SPI-like interface.Phase-inversed Output Clock MBI6024 enhances the capability of cascading MBI6024 by phase-inversed output clock function. By phase-inversed output clock, the clock phase will be inversed from CKI to CKO to eliminate the accumulation of the pulse width deviation. This improves the signal integrity of data transmission. The following chart illustrates the phase-inversed output clock results.Original: CKI1 Original: CKO1 Phase-Inverse Clock I:CKO2 Phase-Inverse Clock II: CKO3- 14 -October 2011, V2.00MBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsThe Structure of Data PacketMBI6024’s data packet contains three parts: 1. Prefix: The prefix is a symbol of “Silent-to-Reset”, i.e. a time period for MBI6024 to distinguish two data packets. During the prefix, both CKI and SDI should be tied-low and stop for more than 172 CKI cycles. 2. Header: The header defines the cascaded IC numbers and also contains a command to decide the data type. 3. Data: This is the data for each IC. It may be gray scale data, dot correction data, or configuration data. Structure of a data packet:PrefixHeaderData- 15 -October 2011, V2.00MBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsSetting the Data Types by the CommandMBI6024 provides six kinds of commands and input data types shown as the table below: Command H[5:0] 6’b11 1111 6’b10 1011 6’b11 0011 6’b10 0111 6’b10 0011 6’b11 0111 Data Type 16-bit gray scale data 10-bit gray scale data 8-bit dot correction data 6-bit dot correction data 16-bit configuration data 10-bit configuration dataOnce MBI6024 receives the SDI=1 (1’b1), MBI6024 will start to check if the data is a valid command or not. If the 6-bit data is a valid command, the driver will latch the specific data according to the protocol. If the 6-bit data is not a valid command, MBI6024 will wait for another SDI=1 (1’b1) to check the validity of the next command. Time-Out Reset for Transmission Abort Time-out reset is to prevent ICs from misreading during the data transmission. If the CKI is tied-low for more than 95 CKI cycles, MBI6024 may identify the wires as disconnection. To prevent from misreading, MBI6024 will ignore the present input data and continuously show the previous image data until the next image data is correctly recognized. The Prefix in the Beginning of a Data Packet MBI6024 identifies the data as a new data packet after time-out, so the prefix in the beginning of a data packet should be more than 172 CKI cycles. If both CKI and SDI are tied-low and stop for more than the setting of CKI time-out period, MBI6024 will start to check the valid command of the next data packet. The prefix between two data packets helps MBI6024 identify the data packet correctly. The following timing diagram illustrates the interval between two data packets in 16-bit gray scale mode.The prefix > 172 CKI cycles- 16 -October 2011, V2.00MBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsDefinition of Configuration RegisterMBI6024 provides two configuration register sections: configuration register 1 (CF1) and configuration register 2 (CF2) as defined in the tables below.Configuration Register 1 (CF1):MSB Bit Default Value 9 10 8 7 0 6 11 5 4 1 3 1 2 11 1 LSB 0 0Note: Bit [15:10] should be set as “0” to avoid signal misjudgment. Bit Definition Value 11 9:8 GCLK frequency 10 (default) 01 00 7 6:5 4 Dot correction mode Reserved PWM counter reset PWM data synchronization Phase-inversed output clock Parity check 0 (default) 1 11 (default) 1 (default) 0 1 (default) 0 11 (default) 1 0 (default) Function GCLK=frequency of internal oscillator, i.e. 24MHz (typical). GCLK=oscillator frequency divided by two, i.e. 12MHz (typical). GCLK=oscillator frequency divided by four, i.e. 6MHz (typical). GCLK= oscillator frequency divided by eight, i.e. 3MHz (typical). enable dot correction, bypass dot correction Must fill in ‘11’ Reset PWM counter after programming configuration register Do not reset PWM counter after programming configuration register Automatic synchronization Manual synchronization The waveform is inversed from CKI to CKO; please set the two bits as 2b’11. Other combinations are reserved for internal tests. Enable Disable32:10- 17 -October 2011, V2.00MBI6024GCLK FrequencyPWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsMBI6024 provides four kinds of internal GCLK frequency, which is the internal oscillator frequency divided by 1, 2, 4, and 8, for different applications according to the bits of CF1[9:8]. The internal oscillator frequency is 24MHz (typ.); e.g. if the internal oscillator frequency is divided by 8, the GCLK frequency is 3MHz. Higher GCLK frequency provides higher visual refresh rate, but also higher EMI. If the output current is larger than 40mA, the GCLK frequency is suggested to be lower than 8MHz to keep good linearity at low gray scale level. Dot Correction Mode MBI6024 also provides 8-bit or 6-bit dot correction in 16-bit or 10-bit gray scale mode respectively. Dot correction control helps compensate LED brightness and reduces the loading of calculation in controllers. In addition, with the built-in multiplier, MBI6024 operates dot correction without sacrificing the visual refresh rate. PWM Counter Reset MBI6024 can optionally reset the PWM counter by setting the bit of CF1[4] after programming configuration register. The default setting is to reset the PWM counter to start a new PWM cycle to align the PWM output data for new setting. PWM Data Synchronization MBI6024 is also flexible for either manual-synchronization or auto-synchronization by setting the bit of CF1[3]. For auto-synchronization, the bit of CF1[3] is set to “1” (default). MBI6024 will automatically process the synchronization of previous data and next data for PWM counting. The next image data will be updated to output buffers and start PWM counting when the previous data finishes one internal PWM cycle. For manual-synchronization, the bit of CF1[3] is set to “0”. Once the next input data is correctly recognized, MBI6024 will stop the present PWM cycle and restart a new PWM cycle to show the new data immediately. The advantage of manual-synchronization is to maintain the synchronization of image frames between ICs, but the PWM cycle may not be finished, so the gray scale accuracy is slightly affected. Since S-PWM scrambles the 16-bit PWM cycle into 64 small periods, the gray scale accuracy remains good. For better gray scale performance, auto-synchronization keeps accurate gray scale especially when using the built-in oscillator, but the drawback is the synchronization of image frames between ICs. Parity Check Parity check is to check the data in the header for any error, especially to prevent the configuration register and dot correction register from miswriting.- 18 -October 2011, V2.00MBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsConfiguration Register 2 (CF2):Default Value MSB Bit Value 2 1 111 LSB 0Note: Bit [15:3] should be set as “0” to avoid signal misjudgment. Bit 2 1:0 Definition Reserved Reserved Value 1 (default) 11 (default) Function Must fill in ‘1’ Must fill in ‘11’16-bit Configuration DataFor 16-bit configuration data, each word is 16 bits. Each MBI6024 needs 3 words (3x16=48 bits) for the configuration data. However, each configuration data has only 10 bits, and the MSB 6 bits of each word are invalid. Prior to the configuration data, there is a 48-bit header. MBI6024 provides parity check function to check the count of bit to prevent the data transmission error. The data format is shown below:Prefix Both CKI and SDI should be tied-low and stop for more than 172 CKI cycles. 48-bits header Bit Definition 47:42 H[5:0] 41:32 A[9:0] 31:26 25:16 H[5:0] L[9:0]Value 100011 0000000000 100011 N-1 N=Number of IC in seriesFunction The command of 16-bit configuration data Address data. Always send 10’b 0000000000 Double check the command. It should be the same as the prior H[5:0], otherwise the data packet will be ignored. Set the number of IC in series P[3:0] are parity check bits, If it is incorrect, the data packet will be ignored. P[0] is the parity check bit of L[9:0] P[0]=1 if the count of “1” within L[9:0] is odd; P[0]=0 if the count of “1” within L[9:0] is even.15:12P[3:0]0000~1111P[1] is the parity check bit of A[9:0] P[1]=1 if the count of “1” within A[9:0] is odd; P[1]=0 if the count of “1” within A[9:0] is even. P[2] is the parity check bit of H[5:0] P[2]=1 if the count of “1” within H[5:0] is odd; P[2]=0 if the count of “1” within H[5:0] is even. - 19 October 2011, V2.00MBI6024PWM-Embedded 3x4-Channel Constant-Current Sink Driver for LED StripsP[3] is the parity check bit of P[2:0] P[3]=1 if the count of “1” within P[2:0] is odd; P[3]=0 if the count of “1” within P[2:0] is even.11:10 9:0X1[1:0] L[9:0]XX N-1 N=Number of IC in seriesDon’t care. The value is suggested to be “0”. Double check the number of IC in series48-bit configuration data Bit Definition Value Function X2[5:0] are “don’t care” bits. The value is suggested to be “0”. CF1N[9:0] are 10 bits data of configuration register 1 (CF1). The 2nd 47:0 X2[5:0]~CF1N[9:0]~ X2[5:0]~CF1N[9:0]~ X3[12:0]~CF2N[2:0] CF1[9:0] double checks the data of configuration register bank 1 48b’0~48b’1 (CF1). It should be the same as the 1st CF1N[9:0]; otherwise the data will not be written into register. X3[12:0] are “don’t care” bits. The value is suggested to be “0”. CF2N[2:0] are 3 bits data of configuration register 2 (CF2) The configuration data of the last IC is sent first, followed by the previous ICs, and the first IC’s configuration data is sent in the end of the packet.- 20 -October 2011, V2.00PrefixBoth CKI and SDI should be tied-low and stop for more than 172 CKI cycles.30-bit headerBit Definition Value FunctionThe command of 10-bit configuration dataBoth CKI and SDI should be tied-low and stop for more than 172 CKI cycles. 48-bit headerBit DefinitionBoth CKI and SDI should be tied-low and stop for more than 172 CKI cycles. Bit DefinitionAccording to the above equation, the following table shows the examples:The ratio of output turn-on time1/256 x gray scale data2/256 x gray scale dataAccording to the above equation, the following table shows the examples:The ratio of output turn-on time1/64 x gray scale data2/64 x gray scale dataBoth CKI and SDI should be tied-low and stop for more than 172 CKI cycles. Bit DefinitionBoth CKI and SDI should be tied-low and stop for more than 172 CKI cycles. 30-bits headerBit DefinitionMBI6024GP Outline DrawingMBI6024GFN Outline Drawing (Max) (Max)Note 1: The unit for the outline drawing is mm.DisclaimerMacroblock reserves the right to make changes, corrections, modifications, and improvements to their products and documents or discontinue any product or service. Customers are advised to consult their sales representative for the latest product information before ordering. All products are sold subject to the terms and conditions supplied at the time of order acknowledgement, including those pertaining to warranty, patent infringement, and limitation of liability. Macroblock’s products are not designed to be used as components in device intended to support or sustain life or in military applications. Use of Macroblock’s products in components intended for surgical implant into the body, or other applications in which failure of Macroblock’s products could create a situation where personal death or injury may occur, is not authorized without the express written approval of the Managing Director of Macroblock. Macroblock will not be held liable for any damages or claims resulting from the use of its products in medical and military applications.Related technologies applied to the product are protected by patents. All text, images, logos and information contained on this document is the intellectual property of Macroblock. Unauthorized reproduction, duplication, extraction, use or disclosure of the above mentioned intellectual property will be deemed as infringement.。

Schneider Electric 产品数据手册:ABLM1A12010 调节电源供应,100-2

Schneider Electric 产品数据手册:ABLM1A12010 调节电源供应,100-2

T 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 .Product data sheetCharacteristicsABLM1A12010Regulated Power Supply, 100-240V AC, 12V 1A, single phase, ModularMainRange of product Modicon Power Supply Product or component typePower supplyPower supply type Regulated switch mode Variant option Modular Enclosure material PlasticNominal input voltage 100...240 V AC single phase 100...240 V AC 2 phases Input voltage limits 90...264 V AC Kw Rating 12 W Output voltage 12 V DC Power supply output current1 AComplementaryNominal network frequency 50…60 Hz Network system compatibilityTN TT ITMaximum leakage current 0.25 mA 240 V ACInput protection typeIntegrated fuse (not interchangeable) 3.15 AExternal protection (recommended) 20 A Curve B External protection (recommended) 20 A Curve C External protection (recommended) 2 A Curve B External protection (recommended) 2 A Curve C Inrush current 15 A 115 V 30 A 230 V Power factor 0.51 at 115 V AC 0.40 at 230 V AC Efficiency80 % 115 V AC 80 % 230 V AC Power dissipation in W 3 WCurrent consumption < 0.4 A 115 V AC < 0.25 A 230 V AC Turn-on time < 2 sHolding time> 10 ms 115 V AC > 60 ms 230 V AC Startup with capacitive loads 3000 µF Residual ripple< 100 mV Expected capacitor life time 10 year(s)Meantime between failure [MTBF]3000000 H at 77 °F (25 °C), full load 1000000 h at 131 °F (55 °C), 80 % loadOutput protection typeAgainst overload and short-circuits, protection technology: automatic reset Against over temperature, protection technology: manual reset Against overvoltage, protection technology: manual resetConnections - terminalsScrew connection 0.5...1.5 mm², AWG 20...AWG 16) without wire end ferrule input/outputScrew connection 0.5...1 mm², AWG 20...AWG 18) with wire end ferrule input/output Line and load regulation < 0.5 %line < 1 %loadStatus LED Output voltage 1 LED Green)Depth2.19 in (55.6 mm)Height 3.58 in (91 mm)Maximum Width0.71 in (18 mm)Net Weight0.22 lb(US) (0.101 kg)Output coupling SerialMounting support Top hat type TH35-15 rail conforming to IEC 60715Top hat type TH35-7.5 rail conforming to IEC 60715Double-profile DIN railPanel mountingEnvironmentStandards EN 62368-1EN/IEC 61010-1EN 61010-2-201EN/IEC 61204-3EN 61000-6-1EN 61000-6-2EN 61000-6-3EN 61000-6-4EN 61000-3-2EN 61000-3-3UL 62368-1UL 61010-1UL 61010-2-201CSA C22.2 No 62368-1CSA C22.2 No 61010-1CSA C22.2 No 61010-2-201Product certifications CECUL listedCUL recognizedRCMCB SchemeEACKCNEC class 2Operating altitude< 6561.68 ft (2000 m) overvoltage category III2000 m...5000 m overvoltage category IIShock resistance100 m/s² for 11 msIP degree of protection IP20Ambient air temperature for operation-13…131 °F (-25…55 °C) without current derating)131…158 °F (55…70 °C) with current derating of 2.67 % per °C)Ambient air temperature for storage-40…185 °F (-40…85 °C)Relative humidity0…95 % without condensationOvervoltage category IIElectrical shock protection class Class II without PE connectionPollution degree2Vibration resistance 3 mm 2…9 Hz)IEC 60721-3-310 m/s² 9…200 Hz)IEC 60721-3-3Electromagnetic immunity Immunity to electrostatic discharge - test level: 6 kV (contact discharge)conforming to EN/IEC 61000-4-2Immunity to electrostatic discharge - test level: 9 kV (air discharge) conforming toEN/IEC 61000-4-2Electromagnetic field immunity test 10 V/m 80 MHz...2 GHz) EN/IEC 61000-4-3Electromagnetic field immunity test 5 V/m 2...2.7 GHz) EN/IEC 61000-4-3Electromagnetic field immunity test 3 V/m 2.7...6 GHz) EN/IEC 61000-4-3Immunity to fast transients - test level: 4 kV (on input-output) conforming to EN/IEC 61000-4-4Surge immunity test - test level: 3 kV (between power supply and earth)conforming to EN/IEC 61000-4-5Surge immunity test - test level: 1.5 kV (between phases) conforming to EN/IEC61000-4-5Immunity to conducted disturbances 10 Vrms 0.15...80 MHz) EN/IEC 61000-4-6Immunity to magnetic fields - test level: 30 A/m (50...60 Hz) conforming to EN/IEC 61000-4-8Immunity to voltage dips 100 % 1 cycle) EN/IEC 61000-4-11Immunity to voltage dips 60 % 10 cycles) EN/IEC 61000-4-11Immunity to voltage dips 30 % 25 cycles) EN/IEC 61000-4-11Disturbing field emission conforming to EN 55016-2-3Limits for harmonic current emissions conforming to EN 61000-3-2Conducted disturbance emission conforming to EN 55016-1-2Conducted disturbance emission conforming to EN 55016-2-1Electromagnetic emission Conducted emissions conforming to EN 61000-6-3Radiated emissions conforming to EN 61000-6-4Dielectric strength3000 V AC input/outputOrdering and shipping detailsCategory22525 - ABL8 AND ABL7 POWER SUPPLIEDiscount Schedule CP12GTIN00785901699200Nbr. of units in pkg.1Package weight(Lbs)1 lb(US) (0.45 kg)Returnability YesOffer SustainabilitySustainable offer status Green Premium productCalifornia proposition 65WARNING: This product can expose you to chemicals including: Lead andlead compounds, which is known to the State of California to cause cancerand birth defects or other reproductive harm. For more information go toREACh Regulation REACh DeclarationEU RoHS Directive Pro-active compliance (Product out of EU RoHS legal scope)EU RoHSDeclarationMercury free YesRoHS exemption information YesChina RoHS Regulation China RoHS DeclarationEnvironmental Disclosure Product Environmental ProfileCircularity Profile End Of Life InformationWEEE The product must be disposed on European Union markets following specificwaste collection and never end up in rubbish bins.Dimensions DrawingsElectrical Safety●If the unit is use in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.●For means of disconnection a switch or circuit breaker, located near the product, must be included in the installation. A marking asdisconnecting device for the product is required.●The device has an internal fuse. The unit is tested and approved with branch circuit protective device up to 20A. This circuit breaker canbe used as disconnecting device.●The power supply is only suitable for audio, video, information, communication, industrial and control equipment.DimensionsSide and Rear ViewConnections and SchemaConnections and SchemaSeries Connection(1) :V out1(2) :V out2(3) : 2 x Diode, V RRM > 2 x V out1/2, I F > 2 x I nom1/2(4) :V Load = 2 x V out (5) :LoadConnections and Schema(1) :AmbientPerformance CurvesPerformance CurveX :Ambient Temperature (ºC)Y :Percentage of Max Load (%)1 :Mounting A & B, altitude 2000M 2 :Mounting A & B, altitude 5000MMounting and ClearanceMountingMounting Position AMounting Position BIncorrect Mounting。

IGCM10F60GA datasheet_Ver1.5_20111012

IGCM10F60GA datasheet_Ver1.5_20111012

Data Sheet
2/15
Oct. 2011
CIPOS™ IGCM10F60GA Table of Contents
CIPOS™ Control Integrated POwer System.................................................................................................. 4 Features ........................................................................................................................................................ 4 Target Applications ..................................................................................................................................... 4 Description ................................................................................................................................................... 4 System Configuration .........................................................................................

IGCM15F60GA datasheet_Ver1.3_20110307

IGCM15F60GA datasheet_Ver1.3_20110307

F o r P o w e r M a n a g e m e n t A p p l i c a t i o nControl Integrated POwer System (CIPOS™)I G C M 15F 60G AD a t a S h e e t , M ar. 2011CIPOS™ IGCM15F60GARevision History:2011-03 Ver.1.3Authors: Junho Lee, Junbae Lee and Daewoong ChungEdition 2010-07Published byLS Power Semitech Co., Ltd. Seoul, Korea© LS Power Semitech Co., Ltd.All Rights Reserved.Attention please!The information given in this data sheet shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, LS Power Semitech Co., Ltd. hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of non-infringement of intellectual property rights of any third party.InformationFor further information on technology, delivery terms and conditions and prices please contact your nearest LS Power Semitech Co., Ltd. office or representatives ().WarningsDue to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest LS Power Semitech Co., Ltd. office or representatives.LS Power Semitech Co., Ltd. components may only be used in life-support devices or systems with the express written approval LS Power Semitech Co., Ltd., if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.CIPOS™ IGCM15F60GA Table of ContentsCIPOS™ Control Integrated POwer System (4)Features (4)Target Applications (4)Description (4)System Configuration (4)Pin Configuration (5)Internal Electrical Schematic (5)Pin Assignment (6)Pin Description (6)HIN(U,V,W) and LIN(U,V,W) (Low side and high side control pins, Pin 7 - 12) (6)VFO (Fault-output and NTC, Pin 14) (7)ITRIP (Over current detection function, Pin 15) (7)VDD, VSS (Low side control supply and reference, Pin 13, 16) (7)VB(U,V,W) and VS(U,V,W) (High side supplies, Pin 1, 2, 3, 4, 5, 6) (7)NU, NV, NW (Low side emitter, Pin 17, 18, 19) (7)P (Positive bus input voltage, Pin 23) (7)Absolute Maximum Ratings (8)Module Section (8)RC-IGBT Section (8)Control Section (8)Recommended Operation Conditions (9)Static Parameters (10)Dynamic Parameters (11)Bootstrap Parameters (11)Thermistor (12)Mechanical Characteristics and Ratings (12)Circuit of a Typical Application (13)Switching Times Definition (13)Package Outline (14)CIPOS™ IGCM15F60GACIPOS™C ontrol I ntegrated PO wer S ystem Dual In-Line Intelligent Power Module3Φ-bridge 600V / 15AFeaturesFully isolated Dual In-Line molded module•Infineon reverse conducting IGBTs with monolithic body diode•Rugged SOI gate driver technology with stability against transient and negative voltage •Allowable negative VS potential up to -11V for signal transmission at VBS=15V•Integrated bootstrap functionality•Over current shutdown•Temperature monitor•Under-voltage lockout at all channels•Low side emitter pins accessible for all phase current monitoring (open emitter)•Cross-conduction prevention•All of 6 switches turn off during protection •Lead-free terminal plating; RoHS compliantTarget Applications•Dish washers•Refrigerators•Washing machines•Air-conditioners•Fans•Low power motor drives DescriptionThe CIPOS™ module family offers the chance for integrating various power and control components to increase reliability, optimize PCB size and system costs.It is designed to control three phase AC motors and permanent magnet motors in variable speed drives for applications like air conditioning, refrigerator and washing machine. The package concept is specially adapted to power applications, which need good thermal conduction and electrical isolation, but also EMI-save control and overload protection. The features of Infineon reverse conducting IGBT are combined with an optimized SOI gate driver for excellent electrical performance.System Configuration• 3 half bridges with reverse conducting IGBT•3Φ SOI gate driver•Thermistor•Pin-to-heasink creepage distance typ. 1.6mmCIPOS™ IGCM15F60GAPin ConfigurationBottom View(1) VS(U)(2) VB(U)(3) VS(V)(4) VB(V)(5) VS(W)(6) VB(W)(7) HIN(U)(8) HIN(V)(9) HIN(W)(10) LIN(U)(11) LIN(V)(12) LIN(W)(13) VDD (14) VFO (15) ITRIP (16) VSS(23) P(22) U(21) V(20) W(19) NU(18) NV(17) NW(24) NCFigure 1: Pin configurationInternal Electrical SchematicNW (17)NV (18)W (20)V (21)U (22)P (23)(2) VB(U)(15) ITRIP (14) VFO (16) VSS(13) VDD (4) VB(V)(6) VB(W)(7) HIN(U)(8) HIN(V)(1) VS(U)(3) VS(V)(5) VS(W)NU (19)NC (24)Figure 2: Internal schematicCIPOS™ IGCM15F60GAPin AssignmentPin DescriptionHIN(U,V,W) and LIN(U,V,W) (Low side and high side control pins, Pin 7 - 12)These pins are positive logic and they are responsible for the control of the integrated IGBT. The Schmitt-trigger input threshold of them are such to guarantee LSTTL and CMOS compatibility down to 3.3V controller outputs. Pull-down resistor of about 5k Ω is internally provided to pre-bias inputs during supply start-up and a zener clamp is provided for pin protection purposes. Input schmitt-trigger and noise filter provide beneficial noise rejection to short input pulses.The noise filter suppresses control pulses which are below the filter time t FILIN . The filter acts according to Figure 4. Figure 3: Input pin structureCIPOS™ IGCM15F60GAIt is recommended for proper work of CIPOS™ not to provide input pulse-width lower than 1us.The integrated gate drive provides additionally a shoot through prevention capability which avoids the simultaneous on-state of two gate drivers of the same leg (i.e. HO1 and LO1, HO2 and LO2, HO3 and LO3). When two inputs of a same leg are activated, only former activated one is activated so that the leg is kept steadily in a safe state.A minimum deadtime insertion of typ 380ns is also provided by driver IC, in order to reduce cross-conduction of the external power switches.VFO (Fault-output and NTC, Pin 14)The VFO pin indicates a module failure in case of under voltage at pin VDD or in case of triggered over current detection at ITRIP. A pull-up resistor is externally required to bias the NTC.The same pin provides direct access to the NTC, which is referenced to VSS. An external pull-up resistor connected to +5V ensures, that the resulting voltage can be directly connected to the microcontroller.ITRIP (Over current detection function, Pin 15) CIPOS™ provides an over current detection function by connecting the ITRIP input with the motor current feedback. The ITRIP comparator threshold (typ 0.47V) is referenced to VSS ground.A input noise filter (typ: t ITRIPMIN = 530ns) prevents the driver to detect false over-current events.Over current detection generates a shut down of all outputs of the gate driver after the shutdown propagation delay of typically 1000ns.The fault-clear time is set to typical 65us.VDD, VSS (Low side control supply and reference, Pin 13, 16)VDD is the low side supply and it provides power both to input logic and to low side output power stage. Input logic is referenced to VSS ground.The under-voltage circuit enables the device to operate at power on when a supply voltage of at least a typical voltage of V DDUV+ = 12.1V is present. The IC shuts down all the gate drivers power outputs, when the VDD supply voltage is below V DDUV- = 10.4V. This prevents the external power switches from critically low gate voltage levels during on-state and therefore from excessive power dissipation.VB(U,V,W) and VS(U,V,W) (High side supplies, Pin 1, 2, 3, 4, 5, 6)VB to VS is the high side supply voltage. The high side circuit can float with respect to VSS following the external high side power device emitter voltage.Due to the low power consumption, the floating driver stage is supplied by integrated bootstrap circuit.The under-voltage detection operates with a rising supply threshold of typical V BSUV+= 12.1V and a falling threshold of V DDUV- = 10.4V.VS(U,V,W) provide a high robustness against negative voltage in respect of VSS of -50V transiently. This ensures very stable designs even under rough conditions.NU, NV, NW (Low side emitter, Pin 17, 18, 19) The low side emitters are available for current measurements of each phase leg. It is recommended to keep the connection to pin VSS as short as possible in order to avoid unnecessary inductive voltage drops.P (Positive bus input voltage, Pin 23)The high side IGBT are connected to the bus voltage. It is recommended that the bus voltage does not exceed 400 V.CIPOS™ IGCM15F60GAAbsolute Maximum Ratings(V DD = 15V and T C = 25°C, if not stated otherwise) Module SectionRC-IGBT SectionControl SectionCIPOS™ IGCM15F60GARecommended Operation ConditionsAll voltages are absolute voltages referenced to V SS -potential unless otherwise specified.Figure 6: T C measurement pointCIPOS™ IGCM15F60GAStatic Parameters(V DD = 15V and T C = 25°C, if not stated otherwise)Dynamic Parameters(V DD = 15V and T C = 25°C, if not stated otherwise)Bootstrap Parameters(T C = 25°C, if not stated otherwise)1R BS2 and R BS3 have same values to R BS1.ThermistorMechanical Characteristics and RatingsFigure 7: Flatness measurement positionCircuit of a Typical ApplicationFigure 8: Application circuitSwitching Times DefinitionHIN LINi CU , i CV , i v CEU , v CEV ,Figure 9: Switching times definitionPackage Outline。

英飞凌IGBT及DIODE简介

英飞凌IGBT及DIODE简介

Vbrces 650V @ 25°C Low Qg Low Coss / Eoss High Softness (H5) Co-pak diode robustness, low Qrr, high dI/dt, dV/dt
•Higher design margin •Cosmic radiation robustness in Solar •Low driving losses „cheap“ driver possible •High efficiency at light load •Low losses in resonant topology smaller resonant tank •low Rgon=Rgoff, Plug&Play replacement (H5) , easy of use. •Low EMI High Reliability in resonant topologies (ZVS/LLC) concerning hard commutation capability of anti-parallel diode
9/16/2013 Copyright © Infineon Technologies 2010. All rights reserved.
Turn-off controllability
Double Pulse characterization Turn-off
0.40
Vce=400V, Tc=25°C, Vge=15V, Ic=20A
25° C
Trade-off previous generation
150° C
TRENCHSTOP™5
TRENCHSTOP™5
At 150°C junction temperature the TRENCHSTOPTM5 offers: The same Vce(sat) value as the TRENCHSTOPTM family

IXER60N120;中文规格书,Datasheet资料

IXER60N120;中文规格书,Datasheet资料

644Features•NPT 3 IGBT- low saturation voltage- positive temperature coefficient for easy paralleling - fast switching- short tail current for optimized performance in resonant circuits•ISOPLUS 247TM package - isolated back surface- low coupling capacity between pins and heatsink - high reliability- industry standard outline Applications•single switchesand with complementary free wheeling diodes •choppers•phaselegs, H bridges, three phase bridges e.g. for- power supplies, UPS - AC, DC and SR drives - induction heatingIGBT Symbol Conditions Maximum RatingsV CES T VJ = 25°C to 150°C1200VV GES ± 20V I C25T C = 25°C 95A I C90T C = 90°C 60At SCV CE = 900 V; V GE = ±15 V; R G = 22 Ω; T VJ = 125°C 10µs (SCSOA)non-repetitiveP totT C = 25°C375W Symbol ConditionsCharacteristic Values(T VJ = 25°C, unless otherwise specified)min.typ.max.I C25=95AV CES=1200V V CE(sat) typ.= 2.1VNPT 3 IGBTin ISOPLUS 247TMG C EG = GateC = CollectorE = EmitterIsolated BacksideISOPLUS 247TME153432a su644Component Symbol ConditionsMaximum Ratings T VJ -55...+150°C T stg -55...+125°C V ISOL I ISOL ≤ 1 mA; 50/60 Hz 2500V~F Cmounting force with clip 20 (120)NSymbol ConditionsCharacteristic Values min.typ.max.C p coupling capacity between shorted 30pF pins and mounting tab in the case Weight6gEquivalent Circuits for SimulationConductionIGBT (typ. at V GE = 15 V; T J = 125°C)V 0 = 0.99 V; R 0 = 25 m ΩThermal ResponseIGBT (typ.)C th1 = 0.13 J/K; R th1 = 0.06 K/W C th2 = 0.32 J/K; R th2 = 0.27 K/Wp h a se - o ut644012340204060801001200123420406080100120V CEV I CV CEA V A4681012144080120160V V GEA I CV GE 01002003004005005101520nC Q GVV GEFig. 1Typ. output characteristics Fig. 2Typ. output characteristicsFig. 3Typ. transfer characteristicsFig. 4Typ. turn on gate chargeph- out64420400481216200.00010.0010.010.1110200400600800100012001400E onV CEts VmJE onFig. 5Typ. turn on energy and switching times versus collector currentFig. 9Reverse biased safe operating area Fig. 10Typ. transient thermal impedanceRBSOA分销商库存信息: IXYSIXER60N120。

IT-140G datasheet-201410

IT-140G datasheet-201410
Industrial Approval
UL 94 V-0 IPC-4101C Spec /24/ 127 RoHS Compliant
REV 09-14
ITEQ
Property
Laminate/ Prepreg : IT-140GTC/IT-140GBS
IPC-4101A Spec / 24 / 127
X/Y Axis CTE (40℃ to 125℃)
Z-Axis CTE A. Alpha 1 B. Alpha 2 C. 50 to 260 Degrees C
Thermal Resistance A. T260 B. T288
CAF Resistance Halogen Content, maximum
V-0 140 minimum 310 minimum
--
--
35
60 maximum
--
230
300 maximum
--
3.1
4.0 maximum
--
>60
--
--
>60
--
--
Pass
AABUS
900 900 1500
<900 <900 <1500
900 900 1500
Units Metric (English)
2.4.8 2.4.8.2 2.4.8.3
2.5.17.1
2.5.17.1 2.6.2.1 2.5.6
2.5.5.9 2.5.5.13
2.5.5.9 2.5.5.13
2.4.4
2.5.1 2.4.13.1 2.5.6.2
UL94 2.4.25 2.4.24.6 (5% wt loss) 2.4.24 2.4.24

NCE20N60T data sheet 规格书

NCE20N60T data sheet 规格书

NCE N-Channel Enhancement Mode Power MOSFETV DS @T jmax 650 V R DS(ON)190m ΩI D 20 AGeneral DescriptionThe series of devices use advanced super junction technology and design to provide excellent R DS(ON) with low gate charge. This super junction MOSFET fits the industry’s AC-DC SMPS requirements for PFC, AC/DC power conversion, and industrial power applications.Features●New technology for high voltage device ●Low on-resistance and low conduction losses●Ultra Low Gate Charge cause lower driving requirements ●100% Avalanche TestedApplication● Power factor correction (PFC ) ● Switched mode power supplies(SMPS) ● Uninterruptible Power Supply (UPS )Package Marking And Ordering InformationDeviceDevice PackageMarkingNCE20N60T TO-247 NCE20N60Table 1.Absolute Maximum Ratings (TC =25℃)Parameter Symbol NCE20N60T UnitDrain-Source Voltage (V GS=0V ) V DS600 V Gate-Source Voltage (V DS=0V) V GS±30 V Continuous Drain Current at Tc=25°C I D (DC) 20 A Continuous Drain Current at Tc=100°C I D (DC)12.5 A Pulsed drain current (Note 1)I DM (pluse) 60 A Drain Source voltage slope, VDS = 480 V, ID = 20 A, Tj = 125 °Cdv/dt 50 V/nsMaximum Power Dissipation(Tc=25℃) Derate above 25°CP D208 1.67 WW/°CSingle pulse avalanche energy (Note 2)E AS 690mJAvalanche current(Note 1)I AR20 ASchematic diagramTO-247Parameter Symbol NCE20N60T UnitRepetitive Avalanche energy ,t AR limited by T jmax(Note 1)E AR 1 mJ Operating Junction and Storage Temperature Range T J ,T STG-55...+150 °C * limited by maximum junction temperatureTable 2. Thermal CharacteristicParameter Symbol NCE20N60T UnitThermal Resistance ,Junction-to-Case (Maximum ) R thJC 0.6 °C /WThermal Resistance ,Junction-to-Ambient (Maximum )R thJA62 °C /WTable 3. Electrical Characteristics (TA=25℃unless otherwise noted)Parameter Symbol ConditionMin Typ Max UnitOn/off statesDrain-Source Breakdown VoltageBV DSSV GS =0V I D =250μA 600 V Zero Gate Voltage Drain Current(Tc=25℃) I DSS V DS =600V,V GS =0V 0.05 1 μAZero Gate Voltage Drain Current(Tc=125℃) I DSS V DS =600V,V GS =0V 100 μA Gate-Body Leakage Current I GSS V GS =±30V,V DS =0V ±100nA Gate Threshold VoltageV GS(th) V DS =V GS ,I D =250μA 2.5 3 3.5 V Drain-Source On-State Resistance R DS(ON)V GS =10V, I D =10A 155 190 m ΩDynamic CharacteristicsForward Transconductance g FS V DS = 20V, I D = 10A17.5SInput Capacitance C lss 2300 PF Output CapacitanceC oss 95 PFReverse Transfer Capacitance C rssV DS =100V,V GS =0V,F=1.0MHz7 PF Total Gate Charge Q g 55 114 nCGate-Source Charge Q gs 11 nCGate-Drain Charge Q gdV DS =480V,I D =20A,V GS =10V22 nC Switching timesTurn-on Delay Time t d(on) 10 nSTurn-on Rise Time t r 5 nS Turn-Off Delay Time t d(off) 67 100 nSTurn-Off Fall Timet fV DD =380V,I D =20A, R G =3.6Ω,V GS =10V 4 12 nSSource- Drain Diode CharacteristicsSource-drain current(Body Diode) I SD 20 APulsed Source-drain current(Body Diode) I SDM T C =25°C60 A Forward on voltage V SD Tj =25°C,I SD =20A,V GS =0V 0.9 1.3 VReverse Recovery Time t rr 500 nSReverse Recovery ChargeQ rr Tj=25°C,I F =20A,di/dt=100A/μs11 uCNotes 1.Repetitive Rating: Pulse width limited by maximum junction temperature2. Tj=25℃,VDD=50V,VG=10V, R G =25ΩTYPICAL ELECTRICAL AND THERMAL CHARACTERISTICS (curves) Figure1. Safe operating area for NCE20N60T Figure2. Source-Drain Diode Forward VoltageFigure3. Output characteristics Figure4. Transfer characteristicsFigure5. Static drain-source on resistance Figure6. R DS(ON) vs Junction TemperatureFigure7. BV DSS vs Junction Temperature Figure8. Maximum I D vs Junction TemperatureFigure9. Gate charge waveforms Figure10. CapacitanceFigure11. Transient Thermal ImpedanceTest circuit1) Gate charge test circuit & Waveform2)Switch Time Test Circuit:3)Unclamped Inductive Switching Test Circuit & WaveformsTO-247 Package InformationDimensions In Millimeters Dimensions In Inches SymbolMin.Max.Min.Max.A 4.850 5.150 0.191 0.200A1 2.200 2.600 0.087 0.102b 1.000 1.400 0.039 0.055b1 2.800 3.200 0.110 0.126 b2 1.800 2.200 0.071 0.087c 0.500 0.700 0.020 0.028c1 1.900 2.100 0.075 0.083D 15.45015.750 0.608 0.620E1 3.500 REF 0.138 REFE2 3.600 REF 0.142 REF41.300 1.610 1.626L 40.900L1 24.800 25.100 0.976 0.988 L2 20.300 20.600 0.799 0.811 Φ7.100 7.300 0.280 0.287e 5.450 TYP 0.215 TYPH 5.980 REF 0.235 REFPb-Free ProductATTENTION:■ Any and all NCE products described or contained herein do not have specifications that can handle applications that requireextremely high levels of reliability, such as life-support systems, aircraft's control systems, or other applications whose failure can be reasonably expected to result in serious physical and/or material damage. Consult with your NCE representative nearest you before using any NCE products described or contained herein in such applications.■ NCE assumes no responsibility for equipment failures that result from using products at values thatexceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all NCE products described or contained herein.■ Specifications of any and all NCE products described or contained herein stipulate the performance, characteristics, andfunctions of the described products in the independent state, and are not guarantees of the performance, characteristics, and functions of the described products as mounted in the customer’s products or equipment. To verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer’s products or equipment.■ NCE Power Semiconductor CO.,LTD. strives to supply high-quality high-reliability products. However, any and allsemiconductor products fail with some probability. It is possible that these probabilistic failures could give rise to accidents or events that could endanger human lives, that could give rise to smoke or fire, or that could cause damage to other property. When designing equipment, adopt safety measures so that these kinds of accidents or events cannot occur. Such measures include but are not limited to protective circuits and error prevention circuits for safe design, redundant design, and structural design.■ In the event that any or all NCE products(including technical data, services) described or contained herein are controlledunder any of applicable local export control laws and regulations, such products must not be exported without obtaining the export license from the authorities concerned in accordance with the above law.■ No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, includingphotocopying and recording, or any information storage or retrieval system, or otherwise, without the prior written permission of NCE Power Semiconductor CO.,LTD.■ Information (including circuit diagrams and circuit parameters) herein is for example only ; it is not guaranteed for volumeproduction. NCE believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use or any infringements of intellectual property rights or other rights of third parties.■ Any and all information described or contained herein are subject to change without notice due toproduct/technology improvement, etc. When designing equipment, refer to the "Delivery Specification" for the NCE product that you intend to use.■ This catalog provides information as of Mar. 2010. Specifications and information herein are subject to change without notice.。

SD20M60ACDatasheet_1.2

SD20M60ACDatasheet_1.2

Three independent negative DC terminal for inverter current
detection;
Alarm signal: for low-side under voltage and short circuit
protections;
Package in DBC design with low thermal resistance;
Symbol
VPN VPN(Surge)
VCES IC ICP PC
VCC VBS VIN VFO
HANGZHOU SILAN MICROELECTRONICS CO.,LTD
http: //
Rating
450 500 600 20 40 69
20 20 -0.3~17 -0.3~VCC+0.3
tOFF
tC(OFF)
trr
ICES
VCE=VCES
Min. -
--
-
Typ. -
0.85 0.20 0.63 0.15 0.06 0.50 0.20 0.25 0.15 0.06
-
Max. 2.2
2.2 -
1
Unit V
V μs μs μs μs μs μs μs μs μs μs
mA
Fig.1 Switching definition
Unit mA V
V
C C C/W C/W Vrms
N.m A A
Ratings Typ. 300 15 15
-
-
Max. 400 16.5 16.5
1
VCC 0.6
20 4
Unit

FR605G中文资料

FR605G中文资料
Symbols FR 601G FR 602G
@25
unless otherwise specified
FR 604G FR 605G FR 606G FR 607G Units
FR 603G
Maximum repetitive peak reverse voltage Maximum RMS voltage Maximum DC blocking voltage Average forward rectified current at TA=75 Peak forward surge current 8.3mS single half sine-wave Maximum instantaneous forward voltage IFM=6.0A; TA=25 (Note 1) Maximum DC reverse current at rated DC blocking voltage Maximum reverse recovery time at IF=0.5A, IR=1.0A, Irr=0.25A Typical junction capacitance Measured at 1.0MHz, VR=4.0V TA=25 TA=55
Mechanical Data
Case: Molded plastic, R-6 Terminals: Axial leads, solderable per MIL-STD-202, method 208 Polarity: Band denotes cathode Mounting Position: Any Weight: 0.074 ounce, 2.105 grams
VRRM VRMS VDC I(AV) IFSM VF IR Trr CJ TJ, TSTG

格恩半导体产品规格书

格恩半导体产品规格书

格恩半导体产品规格书English Answer:Product Specification for Geon Semiconductor.Introduction:Hello everyone! Today, I am going to provide you with the detailed specifications of our Geon Semiconductor products. Geon Semiconductor is a leading semiconductor company that specializes in the design and manufacturing of high-quality electronic components. Our products are known for their exceptional performance, reliability, and advanced features. Let's dive into the specifications!1. Product Name: Geon Semiconductor.Model: GS-1000。

Type: Integrated Circuit (IC)。

2. Electrical Specifications:Operating Voltage: 3.3V.Current Consumption: 50mA.Frequency Range: 1MHz to 100MHz.Output Power: 10dBm.Input Impedance: 50 Ohms.Operating Temperature: -40°C to 85°C.3. Features:High-speed data transmission.Low power consumption.Wide frequency range.Stable performance.Compact size.Easy integration with existing systems.4. Applications:Our Geon Semiconductor products find applications in various industries, including telecommunications, automotive, consumer electronics, and industrial automation. Here are a few examples:Telecommunications: Our ICs are used in mobile phones, routers, and base stations to enable fast and reliable data transfer.Automotive: Geon Semiconductor components areintegrated into vehicle navigation systems, entertainment systems, and engine control units for enhanced performance and connectivity.Consumer Electronics: Our products are found in smart TVs, gaming consoles, and wearable devices, providing seamless connectivity and improved user experience.Industrial Automation: Geon Semiconductor ICs are utilized in factory automation systems, robotics, and control panels to ensure efficient and reliable operation.中文回答:格恩半导体产品规格书。

FGB20N60SF;中文规格书,Datasheet资料

FGB20N60SF;中文规格书,Datasheet资料
源自600--
V
-
0.6
-
V/oC
-
-
250
μA
-
-
±400
nA
4.0
5.0
6.5
V
-
2.2
2.8
V
-
2.4
-
V
-
940
-
pF
-
110
-
pF
-
40
-
pF
-
13
-
ns
-
16
-
ns
-
90
-
ns
-
24
48
ns
-
0.37
-
mJ
-
0.16
-
mJ
-
0.53
-
mJ
-
12
-
ns
-
16
-
ns
-
95
-
ns
-
28
-
ns
-
0.4
Dynamic Characteristics
Cies Coes Cres
Input Capacitance Output Capacitance Reverse Transfer Capacitance
VCE = 30V, VGE = 0V, f = 1MHz
Switching Characteristics
Device Marking
FGB20N60SF
Device
FGB20N60SF
Package
TO-263AB/D2-PAK
Rel Size
13” Dia
Tape Width

MLX90620ESF-BAB-000;中文规格书,Datasheet资料

MLX90620ESF-BAB-000;中文规格书,Datasheet资料

(1) Supply Voltage B = 3V
(3) Package options: A = reserved B = 60° FOV C = reserved D = 40° FOV
Example: MLX90620ESF-BAB-000-TU
Functional diagram
Digital Active Thermopile Array
16x4 IR array
General Description (continued)
The results of the infrared sensor measurements are stored in RAM: • 16-bit result of IR measurement for each individual sensor (64 words) • 16-bit result of PTAT sensor Depending on the application, the external microcontroller can read the different RAM data and, based on the calibration data stored in the EEPROM memory, compensate for difference between sensors to build up a thermal image, or calculate the temperature at each spot of the imaged scene. These constants are accessible by the user microcontroller through the I2C bus and have to be used for external post processing of the thermal data. This post processing includes: • Ta calculation • Pixel offset cancelling • Pixel to pixel sensitivity difference compensation • Object emissivity compensation • Object temperature calculation The result is an image with NETD better than 0.5K at 1Hz refresh rate. The refresh rate of the array is programmable by means of register settings or directly via I2C command. Changes of the refresh rate have a direct impact on the integration time and noise bandwidth (faster refresh rate means higher noise level). The frame rate is programmable in the range 0,5Hz…512Hz and can be changed to achieve the desired trade off between speed and accuracy. The MLX90620 requires a single 3V supply (±0,6V). The customer can choose between 3 operating modes: • Normal. In this mode the device is free running under control of the internal state machine. Depending on the selected refresh rate Fps (Frame per second) the chip is constantly measuring both IR and PTAT and is refreshing the data in the RAM with specified refresh rate; • Step. This mode is foreseen for synchronization with an external micro-controller. The internal state machine is halted. If the command ‘StartMeas’ is received via the I2C bus, a single measurement of all IR and PTAT sensors will be done, then the chip will return in wait state. When in wait state the data in RAM can be read. The MLX90620 is factory calibrated in wide temperature ranges: • -40…85 ˚C for the ambient temperature sensor • -50…300 ˚C for the object temperature. Each pixel of the array measures the average temperature of all objects in its own Field Of View (called nFOV). It is very important for the application designer to understand that the accuracy of the temperature measurement is very sensitive to the thermal equilibrium isothermal conditions (there are no temperature differences across the sensor package). The accuracy of the thermometer can be influenced by temperature differences in the package induced by causes like (among others): Hot electronics behind the sensor, heaters/coolers behind or beside the sensor or by a hot/cold object very close to the sensor that not only heats the sensing element in the thermometer but also the thermometer package. This effect is especially relevant for thermometers with a small FOV as the energy received by the sensor from the object is reduced

IPM自举电路

IPM自举电路
大程度地保证电路的可靠性。
MTU23.TGRD = 1900;/*设定占空比*/ MTU24.TGRC = 1900;/*设定占空比*/ MTU24.TGRD = 1900;/*设定占空比*/
pwm_calc();/*占空比更新函数*/ }
由上述程序可知,通过程序预定的方式给定直流无刷电机的换相 顺序,使得 U、V、W 三相进行错位充电,即每一次只给某一相的自ቤተ መጻሕፍቲ ባይዱ
举电容充电并依次循环直到三相都充满。 该控制程序的优点在于上臂被禁止输出,所以不存在上下臂直通 的危险,且只要占空比小于0.056时就对自举电容充电,能保证自举 电容能充满。通过将初始充电控制语句放在 PWM 更新函数里,保证了 初始充电的实时性,很好地解决了实现自举的关键问题。
3.2 自举电压波形及分析 图3是实测的自举电压波形。由图3分析可知,初始充电近似阶跃 函数。在0.1 s 时,就能充电到14 V,即上述初始充电程序能快速完
IPM 自举电路设计难题探讨
2011-10-31 18:00:06
实现自举有两个关键问题:一是自举电容的初始充电;二是自举电容 充完电后,当下臂关断后上臂并未立即导通,而在从下臂关断到上臂 导通期间,电容会放电,因此必须保证少量放电后电容电压仍有驱动 能力。如果以上两个问题未能处理好,将导致即使 PWM 波形正常,IPM
输出可达到输入电压的两倍。 2 自举电路设计中的关键问题研究 本项目的 IPM 型号选用 IGCM20F60GA[2]。图2是 IPM 自举电路原 理图。由图2可知,自举元件一端接电路的输入部分,另一端接到同 相位的输出电路部分,借输入、输出的同相变化,把自己抬举起来, 即自举元件引入的是正极性的反馈。
也不能工作,因为自举电压不足以驱动上臂导通。 本文介绍了 IPM 自举电路的基本拓扑结构和原理,并重点研究了 自举电容初始充电问题,通过在控制程序中执行简单的初始充电语 句,很好地解决了上述关键问题,并在项目中取得良好的充电效果。

IKCM30F60GA datasheet_Ver1.1_20111012(0)

IKCM30F60GA datasheet_Ver1.1_20111012(0)
Data Sheet, Oct. 2011
Control Integrated POwer System (CIPOS™)
IKCM30F60GA

For Power Management Application
CIPOS™ IKCM30F60GA
Revision History: Previous Version: Page 8
2011-10 Datasheet Ver. 1.1 Subjects (major changes since last revision) Inverter section : Ratings of VPN, VPN(surge) are added
Veee, Bumseung Jin, Junbae Lee and Daewoong Chung Edition 2010-07 Published by LS Power Semitech Co., Ltd. Seoul, Korea © LS Power Semitech Co., Ltd. All Rights Reserved. Attention please! The information given in this data sheet shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, LS Power Semitech Co., Ltd. hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of non-infringement of intellectual property rights of any third party. Information For further information on technology, delivery terms and conditions and prices please contact your nearest LS Power Semitech Co., Ltd. office or representatives (). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest LS Power Semitech Co., Ltd. office or representatives. LS Power Semitech Co., Ltd. components may only be used in life-support devices or systems with the express written approval LS Power Semitech Co., Ltd., if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.

PZ-G Series Instruction Manual

PZ-G Series Instruction Manual

PZ-G SeriesInstruction ManualRead this manual thoroughly before using the product.Keep this manual readily available for future reference.■Safety precautions•Avoid running the PZ-G cable along with power and high voltage lines, as this may causeinterference and/or permanent damage.•When using a commercially available switching regulator, ground its chassis grounding andearth grounding terminals.•Do not use in locations where direct ambient light or external light directly shines on the lightreceiving surface.•With retro-reflective type sensors, when detecting highly reflective materials (such as mirroredsurfaces), stabilization may be difficult. To correct this, change the angle of the sensor head, oradjust the sensitivity.•Avoid using power which exceeds the specifications for ripple (10% max)•Avoid using excess force when rotating the operation mode selector switch (Light-on, Dark-on)and the sensitivity adjustment trimmer.•This product is just intended to detect the object(s). Do not use this product for the purpose toprotect a human body or a part of human body.•This product is not intended for use as explosion-proof product. Do not use this product in ahazardous location and/or potentially explosive atmosphere.■UL CertificateThis product is an UL/C-UL Listed product.•UL File No. E301717•Category NRKH,NRKH7•Enclosure Type 1 (Based on UL50)Be sure to consider the following specifications when using this product as an UL/C-UL ListedProduct.•Use the power supply with Class 2 output defined in NFPA70 (NEC: National Electrical Code).•Power supply/ Control input/ Control output circuits shall be connected to a single Class 2source only.•Use with the over current protection device which is rated 30V or more and not more than 1A.●PZ-G5xN/G5xP●PZ-G5xB●PZ-G4xN/G4xP/G10xN/●PZ-G4xB/G10xB/G6xBG10xP/G6xN/G6xP*GxxEx) is the pigtail quick disconnect type.■Side Mounting(Prepare M3 screws)Tightening torque: 0.5 N·m or less Tightening torque: 0.5 N·m or less■Mounting with the M18 nut (includes nut type)The M18 nut is also available separately as OP-84225 (2 pcs. supplied).Tightening torque:1.0 N·m or less•Mount the M18 nut (supplied) straight in. If mounted at an angle it cannot betightened properly.•When tightening the M18 nut (supplied), firmly hold the main body down. Thecase of the main body may be damaged if held in place with a tool such as pliers.•When tightening the M18 nut (supplied), if excess force is applied to the nut with atool such as pliers, it may bend it out of shape. Therefore, do not apply excess force.■Operation mode selector switchWith the operation mode selector switch, you can select either the LIGHT-ON mode (L) or theDARK-ON (D) mode.■Reflective type (PZ-G41/G42/G101/G102/G10R/G10G/G10BSeries)To use the sensor in DARK-ON mode, adjust the mode selector switch to "D".■Thrubeam type (PZ-G51/G52 Series) / Retro-reflective type (PZ-G61/G62Series)To use the sensor in LIGHT-ON mode, adjust the mode selector switch to "L".*The pin numbers represent those of the connector type / pigtail quick disconnect type.The model name with "C" (PZ-GxxCx) is the connector type, and the model name with "E"(PZ-GxxEx) is the pigtail quick disconnect type.Precautions on Regulations and StandardsPart NamesMounting MethodSelf-containedPhotoelectric Sensor(green)(red)(red)« Receiver side »indicator(green)indicator(green)indicator(green)Sensitivity Adjustment MethodI/O Circuit Diagram●PZ-G5xN/G5xP/G5xB(Transmitter side)●PZ-G5xN (Receiver side)/G4xN/G10xN/G6xN●PZ-G5xP (Receiver side)/●PZ-G5xB (Receiver side)/φ18.5 ± 0.2 mmPanel cut sizeNoteReferenceReferencePZ-GxxCN/GxxCP........................................................M8 connectorPZ-GxxCB/GxxEN/GxxEP............................................M12 connector96M112271PZ-G-IM-E2 PZ-G-IM-E■IndicatorsThe following describes each ON/OFF condition of indicator when LIGHT-ON (L) is set.When the DARK-ON (D) is set, the output indicator ON/OFF will reverse.■Mutual interference•For reflective type / retro-reflective type sensors, mutual interference protection can be set for up to 2 units. However, when the sensors are mounted facing each other, change the angle of the sensor head to prevent light being emitted into each unit.(The mark detection type does not include the mutual interference function.)•Mutual interference prevention can be set when mounting a polarizing filter attachment (optional with thrubeam type sensors) (If operation is unstable even after mounting thepolarizing filter, slightly lower the sensitivity.)•For more detailed information about mutual interference or attachment, see the PZ-G Series catalog or contact your nearest KEYENCE office.*1 The detection distance is measured with the maximum sensitivity.*2 The cable for the connector type / pigtail quick disconnect type is sold separately. The reflector for the retro-reflective type is sold separately.KEYENCE products are strictly factory-inspected. However, in the event of a failure, contact your nearest KEYENCE office with details of the failure.1. WARRANTY PERIODThe warranty period shall be for one year from the date that the product has been delivered to the location specified by the purchaser.2. WARRANTY SCOPE(1)If a failure attributable to KEYENCE occurs within the abovementioned warranty period, we willrepair the product, free of charge. However, the following cases shall be excluded from the warranty scope.•Any failure resulting from improper conditions, improper environments, improper handling, or improper usage other than described in the instruction manual, the user’s manual, or the specifications specifically arranged between the purchaser and KEYENCE.•Any failure resulting from factors other than a defect of our product, such as the purchaser’s equipment or the design of the purchaser’s software.•Any failure resulting from modifications or repairs carried out by any person other than KEYENCE staff.•Any failure that can certainly be prevented when the expendable part(s) is maintained or replaced correctly as described in the instruction manual, the user’s manual, etc.•Any failure caused by a factor that cannot be foreseen at a scientific/technical level at the time when the product has been shipped from KEYENCE.•Any disaster such as fire, earthquake, and flood, or any other external factor, such as abnormal voltage, for which we are not liable.(2)The warranty scope is limited to the extent set forth in item (1), and KEYENCE assumes noliability for any purchaser’s secondary damage (damage of equipment, loss of opportunities, loss of profits, etc.) or any other damage resulting from a failure of our product.3. PRODUCT APPLICABILITYKEYENCE products are designed and manufactured as general-purpose products for general industries.Therefore, our products are not intended for the applications below and are not applicable to them. If, however, the purchaser consults with us in advance regarding the employment of our product, understands the specifications, ratings, and performance of the product on their own responsibility, and takes necessary safety measures, the product may be applied. In this case, the warranty scope shall be the same as above.•Facilities where the product may greatly affect human life or property, such as nuclear power plants, aviation, railroads, ships, motor vehicles, or medical equipment •Public utilities such as electricity, gas, or water services•Usage outdoors, under similar conditions or in similar environmentsE 1040-1ReferenceSpecificationsType Thrubeam Reflective Retro-reflective Mark detectionNormal High-power Diffuse-reflectiveLong-detectingdistanceDiffuse-reflectiveShort-detectingdistanceNarrow-viewreflectiveDefinitereflectiveLong detectingdistance(with P.R.O. function)Transparent targetdetection(without P.R.O. function)Red Green BlueConfiguration Cable shape Output modeRectangularCableNPN PZ-G51N PZ-G52N PZ-G41N PZ-G42N PZ-G101N PZ-G102N PZ-G61N PZ-G62N-PNP PZ-G51P PZ-G52P PZ-G41P PZ-G42P PZ-G101P PZ-G102P PZ-G61P PZ-G62PM8 connectorNPN PZ-G51CN PZ-G52CN PZ-G41CN PZ-G42CN PZ-G101CN PZ-G102CN PZ-G61CN PZ-G62CN PZ-G10RCN PZ-G10GCN PZ-G10BCN PNP PZ-G51CP PZ-G52CP PZ-G41CP PZ-G42CP PZ-G101CP PZ-G102CP PZ-G61CP PZ-G62CP PZ-G10RCP PZ-G10GCP PZ-G10BCP M12 pigtail quickdisconnectNPN PZ-G51EN PZ-G52EN PZ-G41EN PZ-G42EN PZ-G101EN PZ-G102EN PZ-G61EN PZ-G62EN-PNP PZ-G51EP PZ-G52EP PZ-G41EP PZ-G42EP PZ-G101EP PZ-G102EP PZ-G61EP PZ-G62EPNutCable Bipolar(NPN+PNP)PZ-G51B PZ-G52B PZ-G41B PZ-G42B PZ-G101B PZ-G102B PZ-G61B PZ-G62B M12 connector PZ-G51CB PZ-G52CB PZ-G41CB PZ-G42CB PZ-G101CB PZ-G102CB PZ-G61CB PZ-G62CBDetecting distance*120 m40 m1 m(30 × 30 cmwhite mat paper)300 mm(10 × 10 cmwhite mat paper)200 mm 5 to 45 mm0.1 to 4.2 m(when R-2Lreflector is used)0.1 to 1 m(when R-2Lreflector is used)8 to 15 mmSpot diameter----Approx. φ 5 mm(when the detectingdistance is 100 mm)Approx. φ 2 mm(when the detectingdistance is 40 mm)--Approx. 1.5 × 4 mm(when the detecting distance is 10 mm)Light source (LED)Red LED Infrared LED × 2Red LED Infrared LED Red LED Green LED Blue LED Sensitivity adjustment1-turn trimmer (230 degrees)Response time500 μs50 μsOperation mode LIGHT-ON/DARK-ON, trimmer-selectableIndicator (LED)Transmitter: power (orange)Receiver: output (orange),stable operation (green),light (red)Output (orange), stable operation (green)Control output Open-collector 100 mA max. (30 V max.), Residual voltage 1 V max. Protection circuit Reverse-polarity protection, over-current protection, output surge absorberRatingsPower voltage10 to 30 VDC, Ripple (P-P): ±10% max, Class 2. Current consumptionTransmitter: 20 mAmax.Receiver: 28 mA max.Transmitter: 25 mAmax.Receiver: 28 mA max.34 mA max.Environmental resistanceEnclosure rating IEC,JEM: IP67 / NEMA: 4X,6,12 / DIN: IP69KAmbient light Incandescent lamp: 5,000 (lx) max, Sunlight: 20,000 (lx) max. Ambient temperature-20 °C to +55°C (No freezing)Relative humidity35 to 85 % RH (No condensation)Vibration resistance10 to 55 Hz, 1.5 mm double amplitude in X, Y, Z directions, 2 hours each Shock resistance1000 m/s2 in X, Y, Z directions, 6 times eachInterference prevention2 units(when polarizing filter attachment is used)2 units (with the automatic different cycle function)-MaterialCase, M18 nut (nut type only): reinforced glass polybutylene terephthalate (PBT), Trimmer: reinforced glass polyamide (PA)Cable (Cable type / pigtail quick disconnect type only): Polyvinyl chloride (PVC), Screw (Case connection): Steel, zinc-nickel plated, Packing (Case connection): Nitrile-butadiene rubber (NBR)Connector (pigtail quick disconnect type only): Brass-nickel plated, Polybutyleneterephtalate (PBT), Polyvinyl chloride (PVC)Lens cover Polyarylate (PAR)Acrylic plastic(PMMA)Polyarylate (PAR)Tightening torque Rectangular type (side screw part): 0.5 N·m max. Nut type (front M18 part): 1.0 N·m max., (side slot part): 0.5 N·m max.Accessory*2Instruction manual, M18 nut x 2 (nut thrubeam type), M18 nut x 1 (other nut types)Weight Rectangular cable type: Approx. 60 g (Approx. 50 g for thrubeam transmitter), Rectangular M8 connector type: Approx 10 g, rectangular M12 pigtail quick disconnect type: Approx. 30 g Nut type cable type: Approx. 65 g (Approx. 55 g for thrubeam transmitter), Nut type M12 connector type: Approx 15 gWARRANTY。

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Ver.0.3
Authors: Junho Song, Junbae Lee and Daewoong Chung Edition 2010-04 Published by LS Power Semitech Co., Ltd. Seoul, Korea © LS Power Semitech Co., Ltd. All Rights Reserved. Attention please! The information given in this data sheet shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, LS Power Semitech Co., Ltd. hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of non-infringement of intellectual property rights of any third party. Information For further information on technology, delivery terms and conditions and prices please contact your nearest LS Power Semitech Co., Ltd. office or representatives (). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest LS Power Semitech Co., Ltd. office or representatives. LS Power Semitech Co., Ltd. components may only be used in life-support devices or systems with the express written approval LS Power Semitech Co., Ltd., if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.
Preliminary Data Sheet
2/14
Apr. 2010
CIPOS™ IGCM20F60GA Table of Contents
CIPOS™ Control Integrated POwer System ................................................................................................. 4 Features ........................................................................................................................................................ 4 Target Applications ..................................................................................................................................... 4 Description ................................................................................................................................................... 4 System Configuration ................................................................................................................................. 4 Pin Configuration.............................................................................................................................................. 5 Internal Electrical Schematic........................................................................................................................... 5 Pin Assignment................................................................................................................................................. 6 Pin Description ............................................................................................................................................ 6 HIN(U,V,W) and LIN(U,V,W) (Low side and high side control pins, Pin 7 - 12) ........................................ 6 VFO (Fault-output and NTC, Pin 14) .......................................................................................................... 7 ITRIP (Over current detection function, Pin 15) ......................................................................................... 7 VDD, VSS (Low side control supply and reference, Pin 13, 16) ................................................................ 7 VB(U,V,W) and VS(U,V,W) (High side supplies, Pin 1, 2, 3, 4, 5, 6) ......................................................... 7 NU, NV, NW (Low side emitter, Pin 17, 18, 19) ......................................................................................... 7 P (Positive bus input voltage, Pin 23) ........................................................................................................ 7 Absolute Maximum Ratings ............................................................................................................................ 8 Module Section ............................................................................................................................................ 8 RC-IGBT Section.......................................................................................................................................... 8 Control Section ............................................................................................................................................ 8 Recommended Operation Conditions ............................................................................................................ 9 Static Parameters ........................................................................................................................................... 10 Dynamic Parameters ...................................................................................................................................... 11 Bootstrap Parameters .................................................................................................................................... 11 Thermistor ...................................................................................................................................................... 12 Mechanical Characteristics and Ratings ..................................................................................................... 12 Circuit of a Typical Application ..................................................................................................................... 13 Switching Times Definition............................................................................................................................ 13 Package Outline .............................................................................................................................................. 14
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