UM2013-3W中文资料

OC-3中⽂资料Headquarters :No. 669, Sec. 4 Chung Hsing RoadFeaturesCompliant with 155 Mbps ATM and SONET OC-3SDH STM-1 (S1.1) Industry standard 1×9 footprint SC duplex connector Single power supply 3.3 VDifferential LVPECL inputs and outputsCompatible with solder and aqueous wash processes Class 1 laser product complies with EN 60825-1 DescriptionThe TS3-0155-32S-P1-X transceivers utilizing 1310 nm MQW laser diodes are fully compliance to the 155 Mbps ATM and SONET OC-3 SDH STM-1 standard, anddesigned in industry standard 1×9 package with SC duplex connector. The transmitter section is a class 1 laser which is compliant to International Safety Standard EN 60825-1.Ordering InformationPART NUMBER INPUT/OUTPUTSIGNAL DETECTVOLTAGE TEMPERATURE TS3-0155-32S-P1 DC/DC LVPECL 3.3 V 0°C to 70 °C TS3-0155-32S-P1-E DC/DC LVPECL3.3 V40°C to 85°CAbsolute Maximum RatingsPARAMETER SYMBOL MIN MAX UNITS NOTEStorage Temperature T S ?40 85°CSupply V oltage Vcc ?0.5 6.0 V Input V oltage V IN ?0.5Vcc VOutput Current I o --- 50 mA Operating Current I OP --- 400 mA Soldering Temperature T SOLD--- 260 °C10 seconds on leadsHeadquarters :No. 669, Sec. 4 Chung Hsing RoadOperating EnvironmentPARAMETER SYMBOL MIN MAX UNITS NOTEAmbient Operating Temperature(TS3-0155-32S-P1)T AMB 0 70°C Ambient Operating Temperature (TS3-0155-32S-P1-E) T AMB ?40 85°CSupply V oltageVcc3.1 3.5 VTransmitter Electro-optical Characteristics(Vcc = 3.1 V to 3.5 V , TS3-0155-32S-P1: T A = 0°C to 70°C, TS3-0155-32S-P1-E: T A = ?40°C to 85°C)PARAMETER SYMBOL MIN TYP . MAX UNITS NOTEData RateB 50 155 200 Mb/sOutput Optical Power 9/125 µm fiber Pout ?15---8dBm AverageExtinction Ratio ER8.2 --- --- dB Center Wavelength λC 1261 1310 1360 nm Spectral Width (RMS) ?λ --- --- 4 nm Rise/Fall Time (10?90%) T r , f --- 1 2 nsOutput EyeCompliant with Telcordia GR-253-CORE Issue 3 and ITU-T recommendation G-957Power Supply Current I CC --- --- 140 mA Note 1 Data Input Current-Low I IL ?350--- --- µAData Input Current-HighI IH --- --- 350 µATransmitter Data Input V oltage-High V IH ? V CC ?1.1 --- ?0.74 V Note 2 Transmitter Data Input V oltage-LowV IL ? V CC2.0---1.58V Note 2Transmitter Data Input DifferentialV oltage V DIFF 0.3 --- 1.6 VNote 2Note 1: Not including the terminations.Note 2: These inputs are compatible with 10K, 10KH and 100K ECL and PECL input.Headquarters :No. 669, Sec. 4 Chung Hsing RoadReceiver Electro-optical Characteristics(Vcc = 3.1 V to 3.5 V , TS3-0155-32S-P1: T A = 0°C to 70°C, TS3-0155-32S-P1-E: T A = ?40°C to 85°C)PARAMETER SYMBOLMIN TYP . MAX UNITS NOTE Data RateB 50 155 200 Mb/sOptical Input Power-maximum P IN 0 --- --- dBm Note 1 Optical Input Power-minimum (Sensitivity)P IN--- --- ?34dBm Note 1Operating Center Wavelength λC 1100 --- 1600 nmSignal Detect-Asserted P A --- --- ?34 dBm AverageSignal Detect-Deasserted P D ?47--- --- dBm AverageSignal Detect-Hysteresis P A ? P D 1.0 --- --- dB Signal Detect Assert Time T SD + --- --- 100 µs Signal Detect Desssert Time T SD ? --- --- 100 µsSignal Detect Output voltage-High V OH ? V CC ?1.1 --- ?0.74 V Note 2 Signal Detect Output voltage-Low V OL ? V CC2.0---1.58V Note 2Power Supply CurrentI CC --- --- 100 mA Note 3 Data Output Rise, Fall Time (10?90%) T r, f --- 1 2 nsData Output V oltage-High V OH ? V CC ?1.1 --- ?0.74 V Note 2 Data Output V oltage-LowV OL ? V CC2.0---1.58V Note 2Note 1: The input data is at 155.52 Mbps, 223?1 PRBS data pattern with 72 “1”s and 72 “0”s inserted per the ITU-T recommendation G .958 Appendix 1. The receiver is guaranteed to provide output data with Bit Error Rate (BER) better than or equal to 1×10?10.Note 2: These outputs are compatible with 10K, 10KH and 100K ECL and PECL input. Note 3: The current exclude the output load current.Headquarters :No. 669, Sec. 4 Chung Hsing RoadTransmitter SectionThe transmitter section consists of a 1310 nm InGaAsP laser in an eye safe optical subassembly (OSA) which mates to the fiber cable. The laser OSA is driven by a LD driver IC which converts differential input LVPECL logic signals into an analog laser driving current. Receiver SectionThe receiver utilizes an InGaAs PIN photodiode mounted together with a trans-impedance preamplifier IC in an OSA. This OSA is connected to a circuit providing post-amplification quantization, and optical signal detection. Receiver Signal DetectSignal Detect is a basic fiber failure indicator. This is a single-ended LVPECL output. As the input optical power is decreased, Signal Detect will switch from high to low (deassert point) somewhere between sensitivity and the no light input level. As the input optical power is increased from very low levels, Signal Detect will switch back from low to high (assert point). The assert level will be at least 1.0 dB higher than the deassert level.Headquarters :No. 669, Sec. 4 Chung Hsing RoadEye DiagramTransmitter ReceiverSignal pattern: PRBS 23Signal pattern: PRBS 23 Input Power: ?35 dBmHeadquarters :No. 669, Sec. 4 Chung Hsing RoadPIN SYMBOL DESCRIPTION1 RX GNDReceiver Signal Ground.Directly connect this pin to the receiver ground plane. 2 RD +RD+ is an open-emitter output circuit.Terminate this high-speed differential LVPECL output with standard LVPECL techniques at the follow-on device input pin. (See recommended circuit schematic) 3RD ?RD – is an open-emitter output circuit.Terminate this high-speed differential LVPECL output with standard LVPECL techniques at the follow-on device input pin. (See recommended circuit schematic) 4SDSignal Detect.Normal optical input levels to the receiver result in a logic “1” output, V OH , asserted. Low input optical levels to the receiver result in a fault condition indicated by a logic “0” output V OL , deasserted Signal Detect is a single-ended LVPECL output. SD can be terminated with LVPECL techniques via 50 ?toV CCR ? 2 V. Alternatively, SD can be loaded with a 180 ? resistor to RX GND to conserve electrical power with small compromise to signal quality. If Signal Detect output is not used, leave it open-circuited. This Signal Detect output can be used to drive a LVPECL input on an upstream circuit,such as, Signal Detect input or Loss of Signal-bar. 5 V CCR Receiver Power Supply.Provide +3.3 Vdc via the recommended receiver power supply filter circuit. Locate the power supplyfilter circuit as close as possible to the V CCR pin. 6 V CCT Transmitter Power Supply.Provide +3.3 Vdc via the recommended transmitter power supply filter circuit. Locate the power supplyfilter circuit as close as possible to the V CCT pin. 7 TD ?Transmitter Data In-Bar.Terminate this high-speed differential LVPECL input with standard LVPECL techniques at the transmitter input pin. (See recommended circuit schematic) 8 TD +Transmitter Data In.Terminate this high-speed differential LVPECL input with standard LVPECL techniques at the transmitter input pin. (See recommended circuit schematic) 9TX GND Transmitter Signal Ground.Directly connect this pin to the transmitter signal ground plane. Directly connect this pin to thetransmitter ground plane.Headquarters :No. 669, Sec. 4 Chung Hsing RoadIn order to get proper functionality, a recommended circuit is provided in above recommended circuit schematic. When designing the circuit interface, there are a few fundamental guidelines to follow.(1) The differential data lines should be treated as 50 ? Micro strip or strip line transmission lines. This will help to minimize the parasitic inductance and capacitance effects. Locate termination at the received signal end of the transmission line. The length of these lines should be kept short and of equal length.(2) For the high speed signal lines, differential signals should be used, not single-ended signals, and these differential signals need to be loaded symmetrically to prevent unbalanced currents which will cause distortion in the signal.(3) Multi layer plane PCB is best for distribution of V CC , returning ground currents, forming transmission lines and shielding, Also, it is important to suppress noise from influencing the fiber-optic transceiver performance, especially the receiver circuit. (4) A separate proper power supply filter circuits shown in Figure for the transmitter and receiver sections. These filter circuits suppress Vcc noise over a broad frequency range, this prevents receiver sensitivity degradation due to V CC noise. (5) Surface-mount components are recommended. Use ceramic bypass capacitors for the 0.1 µF capacitors and a surface-mount coil inductor for 1 µH inductor. Ferrite beads can be used to replace the coil inductors when using quieter V CC supplies, but a coil inductor is recommended over a ferrite bead. All power supply components need to be placed physically next to the V CC pins of the receiver and transmitter.(6) Use a good, uniform ground plane with a minimum number of holes to provide a low-inductance ground current return for the power supply currents.Headquarters :No. 669, Sec. 4 Chung Hsing Roadmust be completely remove from the module. The transceiver is supplied with a process plug to prevent contamination during wave solder and aqueous rinse as well as during handling, shipping or storage.Solder fluxes should be water-soluble, organic solder fluxes. Recommended cleaning and degreasing chemicals for these transceivers are alcohol’s (methyl, isopropyl, isobutyl), aliphatics (hexane, heptane) and other chemicals, such as soap solution or naphtha. Do not use partially halogenated hydrocarbons for cleaning/degreasing.Headquarters :No. 669, Sec. 4 Chung Hsing RoadHeadquarters :No. 669, Sec. 4 Chung Hsing RoadRegulatory ComplianceFEATURE TEST METHOD PERFORMANCEElectrostatic discharge (ESD) to the electrical pinsMIL-STD-883D Method 3015.7 Class 1(>1 kV) – Human Body Model Electromagnetic interference (EMI)FCC Class B EN55022 Class BThe transceiver is mounded on a circuit card without a chassis enclosure at frequencies up to 1000 MHz. Margins will be dependent on customer’s board and chassis designs.Immunity Variation of IEC801-3 Typically show no measurable effect from a 10 V/mfiled swept from 30 MHz to 1000 MHz applied tothe transceiver without a chassis enclosure.FDA 21 CFR 1040.10 and 1040.11 Class 1FDA Accession Number: 0012715-01Eye safetyEN 60825-1:1994+A11EN 60950: 1992+A1+A2+A3+A4+A11EN 60825-2: 1994+A1TUV certificated Number: R 3-50005227Note : All information contained in this document is subject to change without notice.。

WRA_CS-3W & WRB_CS-3W Series3W, WIDE INPUT, ISOLATED & REGULATED DUAL/SINGLE OUTPUT DC-DC CONVERTERmulti-country patent protection RoHSFEATURESPRODUCT PROGRAMInputOutput Voltage (VDC)Current (mA) Part Number NominalRangeMax*Voltage (VDC) Max Min Efficiency (%, Typ)WRA1205CS-3W ±5 ±300 ±30 74 WRA1209CS-3W ±9 ±167 ±17 76 WRA1212CS-3W ±12 ±125 ±13 78 WRA1215CS-3W ±15 ±100 ±10 80 WRB1205CS-3W 5 600 60 74 WRB1209CS-3W 9 333 33 76 WRB1212CS-3W 12 250 25 78 WRB1215CS-3W 129.0-182215 200 20 80 WRA2405CS-3W ±5 ±300 ±30 76 WRA2409CS-3W ±9 ±167 ±17 78 WRA2412CS-3W ±12 ±125 ±13 80 WRA2415CS-3W ±15 ±100 ±10 81 WRB2405CS-3W 5 600 6076WRB2409CS-3W 9 333 33 78 WRB2412CS-3W 12 250 25 80 WRB2415CS-3W2418-3640152002081 *Input voltage can ’t exceed this value, or will cause the permanent damage.Note: The load shouldn't be less than 10%, otherwise ripple will increase dramatically.Operation under 10% load will not damage the converter; However, they may not meet all specification listed.COMMON SPECIFICA TIONItemTest Conditions Min Typ Max Units Storage Humidity 95 %Operating Temperature -40 85 Storage Temperature -55 125 Temp. Rise at Full Load15 Lead Temperature 1.5mm from case for 10 seconds300 °C Isolation voltage Tested for 1 minute and 1mA max 1500 VDC Isolation resistance Test at 500VDC 1000 M Ω Isolation capacitance100KHz,1V80 PF No-load Power Consumption100mW Cooling Free Air Convection Case MaterialPlastic (UL94-V0)Short Circuit Protection Continuous, Automatic Recovery MTBF 1000 K hoursWeight6gMiniature SIP Package Wide (2:1) Input Range Regulated Outputs I/0 Isolation 1500VDCShort Circuit Protection(automatic recovery)Internal SMD constructionOperating T emperature: -40°C to +85°C External On/Off control RoHS ComplianceAPPLICATIONSThe WRA_CS-3W & WRB-CS-3W Series are specially designed for applications where a wide range input voltage power supplies are isolated from the input power supply in a distributed power supply system on a circuit board.These products apply to:1) Where the voltage of the input power supply is wide range (voltage range ≤2:1); 2) Where isolation is necessary between input and output(Isolation Voltage ≤1500VDC); 3) Where the regulation of the output voltage and the output ripple noise are demanded.MODEL SELECTIONWRA1205CS-3WProduct Series Input Voltage Output Voltage Package Style Rated PowerMORNSUN Science& Technology co.,Ltd. Address: 2th floor 6th building, HuangzhouIndustrial District, Guangzhou, China Tel: 86-20-38601850Fax: 86-20-38601272 OUTPUT SPECIFICA TIONSItemTest ConditionsMin Typ Max Units Output PowerSee below products program0.3 3 WPositive voltage accuracy Refer to recommended circuit ±1 ±3 Negative voltage accuracy Refer to recommended circuit ±3 ±5 10% To 100% Load (WRB_CS-3W) ±0.5 ±0.75 Load Regulation 10% To 100% Load (WRA_CS-3W)* ±0.5 ±1.0 Line Regulation Input Voltage From Low To High ±0.2 ±0.5 % Temperature drift (Vout) Refer To Recommended Circuit ±0.03 %/°C Ripple & Noise** 20MHz Bandwidth 50 100 mVp-p Switching Frequency100% Load, Input Voltage300KHz *Dual output models unbalanced load (25/100%): ±5%Max.**T est ripple and noise by “parallel cable ” method. See detailed operation instructions at Testing of Power Converter section, application notes.Note:1. All specifications measured at T A =25°C, humidity<75%, nominal input voltage and rated output load unless otherwise specified.2. See below recommended circuits for more details.TYPICAL TEMPERA TURE CURVEOperating T emp.( )COUTLINE DIMENSIONS FOOTPRINT DETAILS3526781FOOTPRINT DETAILSRECOMMENDED FOOTPRINT Top view,grid:2.54mm(0.1inch)diameter:1.00mm(0.039inch)Note:Unit:mm(inch)Pin section:0.50*0.30mm(0.020*0.012inch)Pin section tolerances:0.10mm(General tolerances:0.25mm(0.010inch)Dual Output & Single OutputPin Single Dual 1235GND Vin +Vo NC 0V 786CTRL -VoGND Vin +Vo NC 0V CTRL CS22.00(0.866)12.000.504.10NC:No ConnectionFirst Angle Projection35(Bottom View)(Side View)2.50APPLICA TION NOTECTRL TerminalWhen open or high impedance, the converter work well; When this pin is ‘high ’; the converter shutdown; It should be note that the input current (Ic) should between 5-10mA, exceeding the maximum 20mA will cause permanence damage to the converter 。

MIC3003GFLFOM Management IC with Internal CalibrationMLF and MicroLead Frame are registered trademarks of Amkor Technology, Inc.General DescriptionThe MIC3003GFL is a fiber optic module controller which enables the implementation of sophisticated, hot-pluggable fiber optic transceivers with intelligent laser control and an internally calibrated Digital Diagnostic Monitoring Interface per SFF-8472. It essentially integrates all non-data path functions of an SFP/SFP+ transceiver into a tiny (3mm x 3mm ) MLF ® package. It also works well as a microcontroller peripheral in transponders or 10Gbps transceivers. The MIC3003GFL uses the same die as the MIC3003 with all its functions, but in a smaller package and different pin out. A highly configurable automatic power control (APC) circuit controls laser bias. Bias and modulation are temperature compensated using dual DACs, an on-chip temperature sensor, and NVRAM look-up tables. A programmable internal feedback resistor provides a wide dynamic range for the APC. Controlled laser turn-on.An analog-to-digital converter converts the measured temperature, voltage, bias current, transmit power, and received power from analog to digital. An EEPOT provides front-end adjustment of RX power. Each parameter is compared against user-programmed warning and alarm thresholds. Analog comparators and DACs provide fast monitoring of received power and critical laser operating parameters. Data can be reported as either internally calibrated or externally calibrated.An interrupt output, power-on hour meter, and data-ready bits add user friendliness beyond SFF-8472. The interrupt output and data-ready bits reduce overhead in the host system. The power-on hour meter logs operating hours using an internal real-time clock and stores the result in NVRAM.In addition to the features listed above, the MIC3003 features an extended temperature range, options to mask alarms and warnings interrupt and TXFAULT, a reset signal source, and the ability to support up to four chips with the same address on the serial interface. It also supports eight-byte SMBus block writes.Communication with the MIC3003 is via an industry standard 2-wire SMBus serial interface. Nonvolatile memory is provided for serial ID, configuration, and separate OEM and user scratchpad spaces.Datasheets and support documentation can be found on Micrel’s web site at: .Features• Packaged in a ultra small (3mm x 3mm) 24-pin MLF ® package • Extended temperature range• Alarms and warnings interrupt and TXFAULT masks • Capability to support up to four devices on one SMBus • APC or constant-current laser bias• Turbo mode for APC loop start-up and shorter laser turn on time • Supports multiple laser types and bias circuit topologies • Integrated digital temperature sensor• Temperature compensation of modulation, bias, bias fault and alarm thresholds via NVRAM look-up tables • NVRAM to support GBIC/SFP serial ID function • User writable EEPROM scratchpad• Reset signal compatible with some new systems requirements • Diagnostic monitoring interface per SFF-8472 – Monitors and reports critical parameters:temperature, bias current, TX and RX optical power, and supply voltage– S/W control and monitoring of TXFAULT, RXLOS, RATESELECT, and TXDISABLE – Internal or external calibration– EEPOT for adjusting RX power measurement • Power-on hour meter • Interrupt capability• Extensive test and calibration features • 2-wire SMBus-compatible serial interface • SFP/SFP+ MSA and SFF-8472 compliant • 3.0V to 3.6V power supply range • 5V-tolerant I/OApplications• SFP/SFP+ optical transceivers• SONET/SDH transceivers and transponders • Fibre Channel transceivers • 10Gbps transceivers• Free space optical communications • Proprietary optical linksTypical ApplicationOrdering InformationPart NumberPackage Marking Junction Temp.RangePackage Type Lead FinishMIC3003GFL GFL 3003 with Pb-Free bar-line indicator–45°C to +105°C24-pin (3mm x 3mm) MLF ® Pb-Free,NiPdAuMIC3003GFLTR (1) GFL 3003 with Pb-Free bar-line indicator–45°C to +105°C24-pin (3mm x 3mm) MLF ® Pb-Free,NiPdAuNote:1. Tape and Reel.ContentsGeneral Description (1)Features (1)Pin Configuration (8)Pin Configuration (8)Pin Description (MIC3003GFL only) (8)Absolute Maximum Ratings (10)Operating Ratings (10)Electrical Characteristics (10)Electrical Characteristics (12)Electrical Characteristics (13)Serial Interface Timing Diagram (14)Serial Interface Address Maps (15)Block Diagram (18)Analog-to-Digital Converter/Signal Monitoring (18)Alarms and Warnings Interrupt Source Masking (19)Alarms and Warnings as TXFAULT Source (21)Latching of Alarms and Warnings (21)SMBus Multipart Support (21)QGOP Pin Function (21)Calibration Modes (22)A/ External Calibration (22)Voltage (22)Temperature (22)Bias Current (22)TX Power (22)RX Power (23)B/ Internal Calibration (23)Computing Internal Calibration Results (23)C/ Reading the ADC Result Registers (25)RXPOT (25)Laser Diode Bias Control (25)Laser Modulation Control (26)Power On and Laser Start-Up (27)Fault Comparators (28)SHDN and TXFIN (29)Temperature Measurement (30)Diode Faults (30)Temperature Compensation (30)Alarms and Warning Flags (32)Control and Status I/O (32)System Timing (34)Warm Resets (36)Power-On Hour Meter (36)Test and Calibration Features (37)Serial Port Operation (38)Block Writes (38)Acknowledge Polling (39)Write Protection and Data Security (39)OEM Password (39)OEM Mode and User Mode (39)Detailed Register Descriptions (40)Alarm Threshold Registers (40)Temperature High Alarm Threshold (40)Temperature Low Alarm Threshold (40)Voltage High Alarm Threshold (40)D[7] read/write (40)Bias Current High Alarm Threshold (41)Bias Current Low Alarm Threshold (41)TX Optical Power High Alarm Threshold (41)TX Optical Power Low Alarm Threshold (42)RX Optical Power High Alarm Threshold (42)RX Optical Power Low Alarm Threshold (42)Warning Threshold Registers (43)Temperature High Warning Threshold (43)Temperature Low Warning Threshold (43)Voltage High Warning Threshold (43)Voltage Low Warning Threshold (44)Bias Current High Warning Threshold (44)Bias Current Low Warning Threshold (44)TX Optical Power High Warning (44)TX Optical Power Low Warning (45)RX Optical Power High Warning Threshold (45)RX Optical Power Low Warning Threshold (45)Checksum (CHKSUM) Checksum of bytes 0 - 94 at serial address A2h (45)ADC Result Registers (46)Temperature Result (46)Voltage (46)Laser Diode Bias Current (46)Transmitted Optical Power (47)Received Optical Power (47)Control and Status (CNTRL) (47)Application Select Control Mode (ASCM) (48)Alarm Flags (50)Alarm Status Register 0 (ALARM0) (50)Alarm Status Register 1 (ALARM1) (50)Warning Flags (51)Warning Status Register 0 (WARN0) (51)Warning Status Register 1 (WARN1) (51)Extended Control and Status (ECNTRL) (52)OEM Password Entry (OEMPW) (52)Power-On Hours (POHh and POHl) (53)Data Ready Flags (DATARDY) (53)User Control Register (USRCTL) (54)RESETOUT (54)OEM Configuration Register 0 (OEMCFG0) (55)OEM Configuration Register 1 (OEMCFG1) (56)OEM Configuration Register 2 (OEMCFG2) (57)APC Setpoint 0, 1, and 2 (APCSET0, APCSET1, APCSET2) Automatic Power Control Setpoint (58)Modulation Setpoint 0, 1, and 2 (MODSET0, MODSET1, and MODSET2) Nominal V MOD Setpoint (58)I BIAS Fault Threshold (IBFLT) Bias Current Fault Threshold (59)Transmit Power Fault Threshold (TXFLT) (59)Loss-Of-Signal Threshold (LOSFLT) (59)Fault Suppression Timer (FLTTMR) Fault Suppression Interval in Increments of 0.5 ms (60)Fault Mask (FLTMSK) (60)OEM Password Setting (OEMPWSET) (61)OEM Calibration 0 (OEMCAL0) (61)OEM Calibration 1 (OEMCAL1) (63)LUT Index (LUTINDX) (64)OEM Configuration 3 (OEMCFG3) (64)BIAS DAC Setting (APCDAC) Current VBIAS Setting (65)Modulation DAC Setting (MODDAC) Current VMOD Setting (66)OEM Readback Register (OEMRD) (66)OEM Configuration 4 (OEMCFG4) (67)OEM Configuration 5 (OEMCFG5) (68)OEM Configuration 6 (OEMCFG6) (69)Power-On Hour Meter Data (POHDATA) (70)OEM Scratchpad Registers (SCRATCHn) (71)RX Power Coefficient Look-up Table (RXLUTn) (71)Calibration Constants (CALCOEFn) (72)Manufacturer ID Register (MFG_ID) Identifies Micrel as the manufacturer of the device. Always returns 2Ah (72)Device ID Register (DEV_ID) (73)Package Information (74)Figure 1. MIC3003 Block Diagram (18)Figure 2. Analog-to-Digital Converter Block Diagram (18)Figure 3. Internal Calibration RX Power Linear Approximation (25)Figure 4. RXPOT Block Diagram (25)Figure 5. APC and Modulation Control Block Diagram (26)Figure 6. Programmable Feedback Resistor (26)Figure 7. Transmitter Configurations Supported by MIC3003 (26)Figure 8. V MOD Configured as Voltage Output with Gain (27)Figure 9. MIC3003 Power-On Timing (OE = 1) (28)Figure 10. Fault Comparator Logic (28)Figure 11. Saturation Detector (29)Figure 12. RXLOS Comparator Logic (29)Figure 14. Transmitter On-Off Timing (34)Figure 15. Initialization Timing with TXDISABLE Asserted (34)Figure 16. Initialization Timing with TXDISABLE Not Asserted (34)Figure 17. Loss-of-Signal (LOS) Timing (35)Figure 19. Successfully Clearing a Fault Condition (36)Figure 20. Unsuccessful Attempt to Clear a Fault (36)Figure 21. Write Byte Protocol (38)Figure 22. Read Byte Protocol (38)Figure 23. Read_Word Protocol (38)Figure 24. Eight-Byte Block Write Protocol (39)Table 1. Serial Interface Address Map, Device Address = A0h (15)Table 2. Serial Interface Address Map, Device Address = A2 (15)Table 3. Serial Interface Address Map (Temperature Compensation Tables), Device Address = A4h (16)Table 4. Serial Interface Address Map (OEM Configuration Registers), Device Address = A6h (17)Table 5. A/D Input Signal Ranges and Resolutions (19)Table 6. V AUX Input Signal Ranges and Resolutions (19)Table 7. Alarms Interrupt Sources Masking Bits (20)Table 8. Warnings Interrupt Sources Masking Bits (20)Table 9. RESETOUT Clear Delay (21)Table 10. LSB Values of Offset Coefficients (23)Table 11. Internal Calibration Coefficient Memory Map – Part I (24)Table 12. Internal Calibration Coefficient Memory Map – Part II (24)Table 13. Shutdown State of SHDN vs. Configuration Bits (27)Table 14. Shutdown State of V BIAS vs. Configuration Bits (27)Table 15. Shutdown State of V MOD vs. Configuration Bits (27)Table 16. Temperature Compensation Look-up Tables (30)Table 17. APC Temperature Compensation Look-Up Table (31)Table 18. I MOD Temperature Compensation Look-Up Table (31)Table 19. I BIAS Comparator Temperature Compensation Look-Up Table (31)Table 20. BIAS Current High Alarm Temperature Compensation Table (31)Table 21. MIC3003 Alarm and Warning Events (33)Table 22. Test and Diagnostic Features (37)Pin Configuration24-Pin MLF® (ML)Pin Description (MIC3003GFL only)Pin Number Pin Name Pin Function1 VDDD Power supply input for digital functions.Open-drain output. Can be selected (via OEMCFG3 bit 7) to be an open-drain GPO or an active-2 QGPOlow, open-drain, pulsed reset signal output controlled by the status of bits [0-2] of byte A2h: FFh.3 GNDD Ground return for digital functions.Digital input. Receiver Rate Select input. OR’ed with soft rate select bit SRS0 to determine the4 RS0state of the RRSOUT pin. The state of this pin is always reflected in the RS0S bit.If bit 4 (IE) in the USRCTL register is set to 0 (its default value), this pin is configured as an analog5 VIN/INTinput. If IE bit is set to 1, this pin is configured as an open-drain output.Analog input: Multiplexed A/D input for monitoring supply voltage, with a 0V to 5.5V input range.Open-drain output: outputs the internally generated active-low interrupt signal /INT.6 CLK Digital input. Serial clock input.7 DATA Digital I/O, open-drain, bi-directional serial data input/output.Digital input; Active high. The transmitter is disabled when this input is high or the STXDIS bit is8 TXDISABLEset to 1. The state of this input is always reflected in the TXDIS bit.Digital Output; Open-Drain, with programmable polarity. If OEMCFG5 bit 4 is set to 0, a high level9 TXFAULTindicates a hardware fault impeding transmitter operation. If OEMCFG5 bit 4 is set to 1, a low levelindicates a hardware fault impeding transmitter operation. The state of this pin is always reflectedin the TXFLT bit.Digital Input; Transmitter Rate Select Input; OR’ed with soft rate select bit SRS1 to determine the10 RS1state of the TRSOUT pin. The state of this pin is always reflected in the RS1S bit.Analog Input. Multiplexed A/D converter input for monitoring received optical power. The input11 VRXrange is 0 to V REF. A 5-bit programmable EEPOT on this pin provides coarse calibration andranging of the RX power measurement.Pin Number Pin Name Pin Function12 SHDN/TXFINDigital output/Input; programmable polarity. When used as shutdown output (SHDN), OEMCFG3bit 2 set to 0, SHDN is asserted at the detection of a fault condition if OEMCFG4 bit 7 is set to 0. IfOEMCFG4 bit 7 is set to 1, a fault condition will not assert SHDN. When programmed as TXFIN, itis an input for external fault signals to be OR’ed with the internal fault sources to drive TXFAULT.13 VILD+Analog Input. Multiplexed A/D input for monitoring laser bias current via a sense resistor (signalinput); accommodates inputs referenced to V DD or GND (see pin 14 description).14 VILD–Analog Input. Reference terminal for the multiplexed pseudo-differential A/D converter inputs formonitoring laser bias current via a sense resistor (VILD+ is the sensing input). Tie to V DD or GNDto reference the voltage sensed on VILD+ to V DD or GND, respectively.15 VDDA Power supply input for analog functions.16 GNDA Ground return for analog functions.17 VMPDAnalog Input. Multiplexed A/D converter input for monitoring transmitted optical power via amonitor photodiode. In most applications, VMPD will be connected directly to FB. The input rangeis 0 - V REF or 0 - V REF/4 depending upon the setting of the APC configuration bits18 FBAnalog Input. Feedback voltage for the APC loop op-amp. Polarity and scale are programmablevia the APC configuration bits I OEMCFG1. Connect to V BIAS if APC is not used.19 VMODAnalog Output. Buffered DAC output to set the modulation current on the laser driver IC. Operateswith either a 0– V REF or a (V DD–V REF) – V DD output swing so as to generate either a ground-referenced or a V DD referenced programmed voltage. A simple external circuit can be used togenerate a programmable current for those drivers that require a current rather than a voltageinput.20 VMOD–Analog input. This pin is the inverting terminal of the VMOD buffer op-amp. Connect to VMOD(gain = 1) or a feedback resistor network to set a different gain value.21 VBIASAnalog output. Buffered DAC output capable of sourcing or sinking up to 10mA under control ofthe APC function to drive an external transistor or the APCSET pin of a laser diode driver for laserdiode DC bias. The output and feedback polarity are programmable to accommodate either anNPN or a PNP transistor to drive a common-anode or common-cathode laser diode.22 COMPAnalog output. Compensation terminal for the APC loop. Connect a capacitor between this pin andGNDA or V DDA with the appropriate value to tune the APC loop time constant to a desirable value.23 RRSOUT/GPO Digital Output. Open-Drain or push-pull.If OEMCFG3 bit 4 is set to 0, RRSOUT is selected. It represents the receiver rate select as per SFF. This output is controlled by the SRS0 bit OR’ed with RS0 input and is open drain only.If OEMCFG3 bit 4 is set to 1, GPO is selected. General-purpose, non-volatile output, it is controlled by the GPO configuration bits in OEMCFG3.24 RXLOS/TRSOUT Digital output. This programmable polarity, open-drain outputs has two purposes:If OEMCFG6 bit 2 = 0, indicates the loss of the received signal as indicated by a level of received optical power below the programmed RXLOS comparator threshold; may be wire-OR’ed with external signals. Normal operation is indicated by a low level when OEMCFG6 bit 3 is set to 0 and a high level when OEMCFG6 bit 3 is set to 1. RXLOS is de-asserted when VRX > LOSFLTn. The LOS bit reflects the state of RXLOS whether driven by the MIC3003 or an external circuit.If OEMCFG6 bit 2 = 1, TRSOUT is selected. This signal represents the transmitter rate select as per the SFF specification. This output is controlled by the SRS1 bit OR’ed with the RS1 input.Absolute Maximum Ratings(1)Power Supply Voltage, V DD.......................................+3.8V Voltage on CLK, DATA, TXFAULT, VIN, RXLOS, TXDISABLE, RS0, RS1.........................–0.3V to +6.0V Voltage On Any Other Pin.....................–0.3V to V DD+0.3V Power Dissipation, T A = 85°C....................................1.5W Junction Temperature (T J).......................................150°C Storage Temperature (T S).......................–65°C to +150°C Soldering (20 sec.)...................................................260ºC ESD Ratings(3)Human Body Model..................................................2kV Machine Model.......................................................300V Operating Ratings(2)Power Supply Voltage, V DDA/V DDD...........+3.0V to +3.6V Ambient Temperature Range (T A) .......–40°C to +105°C Package Thermal ResistanceMLF® (θJA).................................................60°C/WElectrical CharacteristicsFor typical values, T A = 25°C, V DDA = V DDD = +3.3V, unless otherwise noted. Bold values are guaranteed for +3.0V ≤ (V DDA = V DDD)≤ 3.6V, T(min)≤ T A≤ T(min), (8)Symbol Parameter Condition Min Typ Max Units Power SupplyCLK = DATA = V DDD= V DDA; TXDISABLE low; all DACs at full-scale; all A/D inputs at full-scale; all other pins open. 2.3 3.5 mAI DD SupplyCurrentCLK = DATA = V DDD= V DDA; TXDISABLEhigh; FLTDAC at full-scale; all A/D inputsat full-scale; all other pins open.2.33.5 mAV POR Power-on Reset Voltage All registers reset to default values;A/D conversions initiated. 2.92.98 VVUVLOUnder-Voltage Lockout Threshold Note 5 2.5 2.73 VVHYSTPower-on Reset Hysteresis Voltage 170 mVtPORPower-on Reset Time V DD > V POR, Note 4 50 µs V REF ReferenceVoltage 1.2101.2251.240 V ΔV REF/ΔV DDAVoltage Reference Line Regulation 1.7 mV/V Temperature-to-Digital Converter CharacteristicsLocal Temperature MeasurementError–40°C ≤ T A≤ +105°C, Note 6 ±1 ±3 °Ct CONV Conversion Time Note 4 60 mst SAMPLE SamplePeriod 100 ms Voltage-to-Digital Converter Characteristics (V RX, V AUX, V BIAS, V MPD, V ILD±)Voltage Measurement Error –40°C ≤ T A≤ +105°C, Note 6 ±1 ±2.0 %fst CONV Conversion Time Note 4 10 mst SAMPLE Sample Period Note 4 100 ms Notes:1. Exceeding the absolute maximum rating may damage the device.2. The device is not guaranteed to function outside its operating rating.3. Devices are ESD sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF.4. Guaranteed by design and/or testing of related parameters. Not 100% tested in production.5. The MIC3003 will attempt to enter its shutdown state when V DD falls below V UVLO. This operation requires time to complete. If the supply voltage fallstoo rapidly, the operation may not be completed.6. Does not include quantization error.分销商库存信息:MICRELMIC3003GFL MIC3003GFL TR。

3W,Ultra wide input isolated&regulated singleoutput DC/DC converterCB Patent Protection RoHSFEATURES●Ultra wide input voltage rang (4:1)●High efficiency up to 84%●No-load power consumption as low as 0.10W ●Isolation voltage:1.5K VDC●Input Under-voltage Protection ,outputshort-circuit protection ,over-current protection ●Operating temperature range:-40℃to +85℃●International standard pin-out●IEC60950,UL60950,EN60950approvalURB_MT-3WR3series products are of 3W output power,extremely wide range of voltage input of 9-36VDC,18-75VDC,isolation voltage of 1500VDC,Input Under-voltage Protection,output short circuit protection,over-current protection,these products are widely used in fields such as industrial control,electric power,instruments and communication.Selection GuideCertificationPart No.Input Voltage (VDC)OutputEfficiency ②(%,Min./Typ.)@Full LoadMax.Capacitive Load(µF)Nominal (Range)Max.①Output Voltage (VDC)Output Current (mA)(Max./Min.)--URB2403MT-3WR324(9-36)403.3728/073/752200UL /CE/CBURB2405MT-3WR35600/078/802200--URB2409MT-3WR39333/078/801000UL/CE/CBURB2412MT-3WR312250/080/82680URB2415MT-3WR315200/081/83470URB2424MT-3WR324125/080/82100CEURB4803MT-3WR348(18-75)803.3728/073/752200URB4805MT-3WR35600/077/792200URB4812MT-3WR312250/080/82680URB4815MT-3WR315200/082/84470URB4824MT-3WR324125/080/82100Notes:①Exceeding the maximum input voltage may cause permanent damage ;②The efficiency value is measured in the input nominal voltage and output rated load.Input SpecificationsItemOperating Conditions Min.Typ.Max.UnitInput Current (full load /no-load)24VDC input series nominal input voltage3.3V Output --134/4138/7mA Others --154/4161/748VDC input series nominal input voltage3.3V Output --67/469/7Others--77/482/7Reflected Ripple Current Nominal 24VDC input series --120--Nominal 48VDC input series --60--Surge Voltage (1sec.max.)Nominal 24VDC input series -0.7--50VDC Nominal 48VDC input series -0.7--100Starting VoltageNominal 24VDC input series ----9Nominal 48VDC input series ----18Input under-voltage protection Nominal 24VDC input series 5.5 6.5--Nominal 48VDC input series1315.5--Starting Time Nominal input voltage &constant resistance load--10--ms Input FilterC filterCtr l*Module turn-onCtrl pin floating or connected to TTL highlevel(3.5-12VDC)Module turn-offCtrl pin connected to GND or low level(0-1.2VDC)Input current when switched off--610mAHot PlugUnavailableNote:*The voltage of Ctrl pin is relative to input pin GND.Output SpecificationsItemOperating ConditionsMin.Typ.Max.UnitOutput Voltage Accuracy --±1±3%Line Regulation Full load,the input voltage is from low voltage to high voltage --±0.2±0.5Load Regulation 0%-100%load--±0.5±1Transient Recovery Time 25%load step change,nominal input voltage --300500µs Transient Response Deviation --±3±5%Temperature Coefficient Full load----±0.03%/℃Ripple &Noise*20MHz bandwidth ,5%-100%load --30120mV p-p Over-current Protection Input voltage range --150250%Io Short circuit ProtectionHiccup protectionNote:*Ripple and noise are measured by “parallel cable”method,please see DC-DC Converter Application Notes for specific operation.0%-5%load ripple&Noise is no more than 5%Vo.General SpecificationsItemOperating ConditionsMin.Typ.Max.Unit Insulation Voltage Input-output,with the test time of 1minute and the leak current lower than 1mA 1500----VDC Insulation Resistance Input-output,insulation voltage 500VDC 1000----M ΩIsolation Capacitance Input-output,100KHz/0.1V --1000--pFOperating Temperature see Fig.1-40--+85℃Storage Temperature -55--+125Casing Temperature Rise Ta=25℃,nominal input voltage,full load output --+40--Pin Welding Resistance Temperature Welding spot is 1.5mm away from the casing,10seconds ----+300Storage HumidityNon-condensing 5--95%RH Reflow Soldering Temperature Peak temp.≤245℃,maximum duration time ≤60s at 217℃.For actual application,please refer to IPC/JEDEC J-STD-020D.1.Vibration10-55Hz,10G,30Min.along X,Y and ZSwitching Frequency*PWM Mode--350--KHz MTBFMIL-HDBK-217F@25℃1000----K hoursNote:*This series of products using lower frequency technology,the switching frequency value is the test value in full load,when the load is reduced to 50%or less,the switching frequency decreases with decreasing load.Physical SpecificationsCasing Material Black flame-retardant heat-proof plastic Dimensions 19.20*18.10*10.16mm Weight3.5g(Typ.)Cooling MethodFree air convectionEMC SpecificationsEMICECISPR22/EN55022CLASS B (see Fig.3-②for recommended circuit)RE CISPR22/EN55022CLASS B (see Fig.3-②for recommended circuit)EMSESD IEC/EN61000-4-2Contact ±4KV perf.Criteria B RS IEC/EN61000-4-310V/mperf.Criteria A EFT IEC/EN61000-4-4±2KV (see Fig.3-①for recommended circuit)perf.Criteria B Surge IEC/EN61000-4-5line to line ±2KV (see Fig.3-①for recommended circuit)perf.Criteria B CSIEC/EN61000-4-63Vr.m.sperf.Criteria A Immunities of voltage dip,drop and short interruptionIEC/EN61000-4-290%,70%perf.Criteria BProduct Characteristic CurveOperating Temperature()℃Temperature Derating CurveO u t p u t P o w e r P e r c e n t a g e (%)-400407185120806010012040200Safe Operating AreaFig.1Design Reference1.Typical applicationAll the DC/DC converters of this series are tested according to the recommended circuit (see Fig.2)before delivery.If it is required to further reduce input and output ripple,properly increase the input &output of additional capacitors Cin and Cout or select capacitors of low equivalent impedance provided that the capacitance is no larger than the max.capacitive load of the product.VinGND+Vo0VDCCinDC CoutFig.2Vn Cin Cout 24VDC 100µF 10µF 48VDC10µF-47µF10µF2.EMC solution-recommended circuitVi nGND+Vo0VDC/DCLOADC2LDM1②MOVFUSE①C1CY1C3C0+Vi nGNDFig.3Notes:Part ①in the Fig.3is used for EMS test and part ②for EMI filtering;selected based on needs.Parameter descriptionModel Vin:24V Vin:48V FUSE Choose according to actual input currentMOV S20K30S14K60C0680µF/50V 680µF/100V C1,C2 4.7µF/50V4.7µF/100VC3Refer to the Cout in Fig.2LDM112µH CY11nF/2KV3.It is not allowed to connect modules output in parallel to enlarge the power4.For more information about Mornsun EMC Filter products,please visit todownload the Selection Guide of EMC FilterDimensions and Recommended LayoutNC:Pin to be isolated from circuitryNotes:1.Packing information please refer to Product Packing Information which can be downloaded from .TubePacking Bag Number:58010114,Reel Packing Bag Number:58010115;2.The max.capacitive load should be tested within the input voltage range and under full load conditions;3.If the product needs to be cleaned after welding,please wait to completely dried before electrical use it;4.Unless otherwise specified,parameters in this datasheet were measured under the conditions of Ta=25℃,humidity<75%RH with nominalinput voltage and rated output load;5.All index testing methods in this datasheet are based on our Company’s corporate standards;6.We can provide product customization service,please directly contact our technicians for specific information;7.Specifications of this product are subject to changes without prior notice.Mornsun Guangzhou Science&Technology Co.,Ltd.Address:No.5,Kehui St.1,Kehui Development Center,Science Ave.,Guangzhou Science City,Luogang District,Guangzhou,P.R.China Tel:86-20-38601850-8801Fax:86-20-38601272E-mail:***************。

MSA_(M)D-3W & MSB_(M)D-3W Series3W, WIDE INPUT, ISOLATED & REGULATEDDUAL/SINGLE OUTPUT DIP DC-DC CONVERTERmulti-country patent protectionFEATURESPRODUCT PROGRAMInputOutput Voltage (VDC)Current (mA) Part Number Nominal Range Max* Voltage(VDC)Max. Min. Efficiency(%, Typ)CertificateMSA0505(M)D-3W ±5 ±300 ±30 68 MSA0512(M)D-3W ±12 ±125 ±12 72 MSA0515(M)D-3W ±15±100 ±10 73 MSB0505(M)D-3W 5 600 60 68 MSB0509(M)D-3W 9 333 33 70MSB0512(M)D-3W 12 250 25 72 MSB0515(M)D-3W 54.5-91115 200 20 73 MSA1205(M)D-3W ±5 ±300 ±30 76 MSA1212(M)D-3W ±12 ±125 ±12 79 MSA1215(M)D-3W ±15±100 ±10 80 MSB1205(M)D-3W 5 600 60 76 MSB1209(M)D-3W 9 333 33 78 MSB1212(M)D-3W 12 250 25 80 MSB1215(M)D-3W 15 200 20 81 MSB1224(M)D-3W 129-182224 125 12 82 MSA2405(M)D-3W ±5 ±300 ±30 76 MSA2412(M)D-3W ±12 ±125 ±12 80 MSA2415(M)D-3W ±15 ±100 ±10 81 MSB2403(M)D-3W 3.3909 90 74 UL MSB2405(M)D-3W 5 600 60 76 UL MSB2409(M)D-3W 9 333 33 78 UL MSB2412(M)D-3W 12 250 25 81 UL MSB2415(M)D-3W 15 200 20 80 UL MSB2424(M)D-3W 2418-364024 125 12 82 MSA4805(M)D-3W ±5 ±300 ±30 76 MSA4812(M)D-3W ±12 ±125 ±12 80 MSA4815(M)D-3W ±15 ±100 ±10 81 MSB4803(M)D-3W 3.3909 90 74 MSB4805(M)D-3W5 600 60 76 MSB4809(M)D-3W 9 333 33 78 MSB4812(M)D-3W 12 250 25 81 MSB4815(M)D-3W 15 200 20 80 MSB4824(M)D-3W4836-7280241251282* Input voltage over it may cause permanent damage to the device. Note: Metal package style ’s series is MSA_MD-3W & MSB_MD-3W.ISOLA TION SPECIFICATIONSItemTest conditionsMin. Typ.Max.Units Isolation voltage Tested for 1 minute and 1mA max 1500 VDC Isolation resistance Test at 500VDC 1000 M Ω ● Wide (2:1) input range ● Efficiency up to 82%● Operating temperature: -40°C ~ +85°C ● 1500VDC isolation● Short circuit protection(Automatic recovery) ● Internal SMD construction ● No heat sink required● No external component required ● UL94-V0 package● Industry standard pinout ● MTBF>1,000,000 hours ● RoHS ComplianceAPPLICATIONSThe MSA_(M)D-3W &MSB_(M)D-3W Series are specially designed for applications where a wide range input voltage power supplies are isolated from the input power supply in a distributed power supply system on a circuit board. These products apply to:1) Where the voltage of the input power supply iswide range (Voltage range ≤ 2:1);2) Where isolation is necessary between inputand output(Isolation voltage ≤1500VDC); 3) Where the regulation of the output voltage andthe output ripple noise are demanded.MODEL SELECTIONMSA2405MD-3WProduct Series Input Voltage Output Voltage Package Style Rated PowerMORNSUN Science & Technology co.,Ltd.Address: 2th floor 6th building, Hangzhou Industrial District, Guangzhou, China Tel: 86-20-38601850 Fax: 86-20-38601272Isolation capacitanceInput/Output80 pFOUTPUT SPECIFICA TIONS TYPICAL CHARACTERISTICS Item Test conditions Min. Typ. Max. UnitsOutput power See below products program 0.3 3 WPositive voltage accuracy Refer to recommended circuit ±1 ±3Negative voltage accuracy Refer to recommended circuit ±3 ±5Load regulation From 10% to 100% load ±0.5 ±1*Line regulation Input voltage from low to high ±0.2 ±0.5%Temperature drift(Vout) Refer to recommended circuit ±0.03 %/°CRipple & Noise** 20MHz Bandwidth 50 100 mVp-pSwitching frequency 100% load, nominal input voltage 300 KHz*Dual output models unbalanced load: ±5%.**T est ripple and noise by “parallel cable” method. See detailed operation instructions at T esting of Power Converter section, application notes.Operating Temp.( )C100COMMON SPECIFICATIONS RECOMMENDED CIRCUIT Item Test Conditions Min. Typ. Max. UnitsStorage humidity 95 %Operating temperature -40 85Storage temperature -55 125Temp. rise at full load 15Lead temperature 1.5mm from case for 10 seconds300°CNo-load Power consumption 0.2 W Cooling Free air convectionShort circuit protection Continuous, Automatic RecoveryCase material D: Plastic (UL94-V0); MD: Steel, Nickel CoatedMTBF 1000 K hours Weight 15 gAPPLICA TION NOTERequirement On Output LoadIn order to ensure the product operate efficiently and reliably, in addition to a max load (namely full load), a minimum load is specified for this kind of DC/DC converter. Make sure the specified range of input voltage is not exceeded, the minimum output load no less than 10% load. If the actual load is less than the specified minimum load, the output ripple may increase sharply while its efficiency and reliability will reduce greatly. If the actual output power is very small, please add an appropriate resistor as extra loading, or contact our company for other lower output power products.Recommended CircuitAll the MSA_(M)D-3W & MSB_(M)D-3W Series have been tested according to the following recommended testing circuit before leaving factory. This series should be tested under load. Never be tested under no load (see Figure 1).If you want to further decrease the input/output ripple, you can increase capacitance properly or choose capacitors with low ESR. However, the capacitance of the output filter capacitor must be proper. If the capacitance is too big, a startup problem might arise. For every channel of output, provided the safe and reliable operation is ensured, the greatest capacitance of its filter capacitor sees (Table 1). Generally: If you want to use the products in high EMI, please choose our metal packaged products (MSA_MD-3W & MSB_MD- 3W). General:Cin: 5V&12V 100μF24V&48V 10μF-47μFCout: 10μF/100mAInput CurrentWhen it is used in unregulated power supply, be sure that the fluctuating range of the power supply and the rippled voltage do not exceed the module standard. Input current of power supply should afford the startup current of this kind of DC/DC module (See figure 2), General: Ip ≤1.4*Iin-maxNo parallel connection or plug and playDC DCVin0VCinVinGND0VCin DC DC(Figure 1)Input VoltageRangeIpOutput External Capacitor Table(Table 1) Single Vout(VDC)Cout(uF)Dual Vout(VDC)Cout(uF)5 1000 ±5 6809 680 ±9 47012 470 ±12 33015 330 ±15 22024 220 ±24 100OUTLINE DIMENSIONS & PIN CONNECTIONS 31.50[1.240]MS_D31.80[1.252]MS_MD 20.00 [0.787]20.30 [0.799]M S _M DM S _D15.24 [0.600]27.94 [1.100]2.54 [0.100]M S _M DM S _D4.10 [0.161]9.50[0.374]10.00[0.394]22.70 [0.894]11.30 [0.445]0.60 [0.024]18.20 [0.717]11.60[0.457]27.94 [1.100]2.54 [0.100]2.54 [0.100]15.24 [0.600]1231211101514132223241231011122423221314151314152412111011,243,222,2310,1511,14No Pin Vin GND -Vo +Vo 0V 12,13Vin GND 0V ∅∅1.00 [0.039]0.50 [0.020]No Pin 0V +Vo PinSingle Dual FOOTPRINT DETAILSNote:Unit:mm[inch]Pin diameter tolerances:0.10mm[0.004inch]General tolerances:0.25mm[0.010inch]±±±±MECHANICAL DIMENSIONSRECOMMENDED FOOTPRINTTUBE OUTLINE DIMENSIONSDUAL OUTPUTSINGLE OUTPUTNote:Unit :mm[inch]General tolerances: ±0.50mm[±0.020inch]L=530mm[20.866inch] Tube Quantity: 15pcs L=220mm[8.661inch] Tube Quantity: 6pcs(Side View)(Bottom View)NC:No connectionNote: 1. The load shouldn't be less than 10%, otherwise ripple will increase dramatically. 2. Operation under 10% load will not damage the converter; However, they may not meet all specification listed. 3. All specifications measured at Ta=25°C, humidity<75%, nominal input voltage and rated output load unless otherwise specified. 4. In this datasheet, all the test methods of indications are based on corporate standards. 5. Only typical models listed, other models may be different, please contact our technical person for more details.。

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提示：第一次安装需要连结网际网路。

较新的功能或小幅度的修正将直接更新于产品内容而不另发行更新通知及文件，本说明书仅供使用者参考，若您需取得最新支持，欢迎您造访XYZprinting 网站：https:///zh-CN/打印技术熔丝积层制造 (FFF)产品重量 4.7kg外观尺寸378*280*355 mm 打印尺寸120*120*120 mm 打印分辨率(层高)0.1-0.4 mm喷头直径0.4 mm 打印材质PLA, Tough PLA, PETG 线材直径 1.75 mm 打印软件XYZprint文件格式.3w/ .stl/ .3mf 建议搭配操作系统Microsoft Windows 7 +Mac OSX 10.9 +连接方式USB cord 2.0WiFi 802.11 b/g/n51.机器上盖 5.线材导引管9.前盖开启处13.电源开关2.机器上盖卡榫 6.侦测头开启按钮10.进料模块B 端口3.移动式玻璃平台7.打印模块11.线材轴架4.按键/信号指示灯8.平台更换卡榫12电源插座01 0402 050312839410511提示保固期间将打印机送修时，建议以原装之包材包装机台再行运送，因此请保留原装包材。

大功率 3W 白光产品型号 Part Number芯片材质 Chip Meterial显示指 发光颜色 EmittingColor 数 Show Index 纯白光 Pure White light 高亮白 High brightness 纯白光 Pure White light 纯白光 Pure White light正向电压 Forword Voltive(V) min max 4.2 4.2 4.2 4.2 4.2 4.2 4.2色温 Color光通量 Luminous2|è1/2 (Deg)temperature（k） flux Φ(LM) min 5500 2700 4000 2700 5500 5500 2700 max 7500 4000 5500 4000 7500 7500 4000 min 150 140 190 160 170 140 130 max 180 170 230 180 190 170 160 140 140 140 140 140 140 140TX-W3A140-001 InGan TX-S3A140-001 InGan TX-W3A140-002 InGan TX-S3A140-002 InGan TX-W3A140-003 InGan TX-W3A140-004 InGan TX-S3A140-004 InGan 1W 白光55-75 3.2 55-75 3.2 55-75 3.2 80-90 3.2暖白光 warm white light 55-75 3.2 暖白光 warm white light 55-75 3.2暖白光 warm white light 80-90 3.2产品型号 Part Number芯片材质 Chip Meterial显示指 发光颜色 EmittingColor 数 Show Index正向电压 Forword Voltive(V) min max色温 Color光通量 Luminous2|è1/2 (Deg)temperature（k） flux Φ(LM) min max min maxTX-W1A140-002 InGan TX-S1A140-002 InGan TX-W1A140-003 InGan TX-S1A140-003 InGan TX-W1A140-004 InGan TX-S1A140-004 InGan TX-W1A140-007 InGan TX-S1A140-007 InGan TX-W1A140-008 InGan TX-S1A140-008 InGan纯白光 Pure White light 55-75 2.8 暖白光 warm white light 55-75 2.8 纯白光 Pure White light 55-75 2.8 暖白光 warm white light 55-75 2.8 高亮白 warm white light 55-75 2.8 暖白光 warm white light 55-75 2.8 纯白光 Pure White light 55-75 2.8 暖白光 warm white light 55-75 2.8 纯白光 Pure White light 80-90 2.8 暖白光 warm white light 80-90 2.83.8 3.8 3.8 3.8 3.8 3.8 3.8 3.8 3.8 3.85500 2700 5500 2900 4000 2700 5500 2700 5500 27007500 4000 7500 4000 5500 4000 7500 4000 7500 400050 50 60 60 90 90 90 90 80 7580 70 90 80 110 100 130 100 90 85140 140 140 140 140 140 140 140 140 1401W 红、黄、橙、绿、蓝光产品型号 Part Number芯片材质 Chip Meterial发光颜色 EmittingColor正向电压 Forword Voltive(V) min max 2.8 2.8 2.8 3.8 3.8 2.0 2.0 2.0 2.8 2.8主波长 Dominant Wavelength(nm) min 615 590 595 520 460 max 630 598 600 530 470光通量 Luminous flux Φ(LM) min 35 35 35 65 12 max 60 60 60 80 202|è1/2 (Deg)TX-R1A140-005 AIGainp TX-Y1A140-002 AIGainp TX-O1A140-001 AIGainp TX-G1A140-002 TX-B1A140-002 InGan InGan红光 Red light 黄光 Yellow light 橙光 Orange light 绿光 Green light 蓝光 BLue light140 140 140 140 1401W 全彩产品型号 Part Number芯片材质 Chip Meterial AIGainp发光颜色 EmittingColor正向电压 Forword Voltive(V) min max 2.6 3.8 3.8 2.0 3.0 3.0主波长 Dominant Wavelength(nm) min 615 520 462 max 630 530 470光通量 Luminous flux Φ(LM) min 35 65 12 max 60 80 202|è1/2 (Deg)红光 Red light 绿光 Green light 蓝光 BLue light140 140 140TX-RGB1A140-001InGan InGan2W 全彩 芯片材质 Chip Meterial InGan TX-BRYG2A140-001 AIGainp AIGainp InGan 正向电压 Forword Voltive(V) min 蓝光 BLue light 红光 Red light 黄光 Yellow light 绿光 Green light 3.0 2.0 2.0 3.0 max 4.0 2.8 3.8 4.0 主波长 Dominant 光通量 Luminous 2|è1/2 (Deg)产品型号 Part Number发光颜色 EmittingColorWavelength(nm) flux Φ(LM) min 462 625 592 510 max 468 630 596 515 min 20 60 54 80 max 26 74 63 102 140 140 140 140产品型号 Part Number芯片材质 Chip Meterial InGan发光颜色 EmittingColor正向电压 Forword Voltive(V) min max 3.8 2.8 3.8 3.8 3.0 2.0 2.8 3.0主波长 Dominant Wavelength(nm) min 462 625 5500 520 max 468 630 8000 530光通量 Luminous flux Φ(LM) min 20 70 135 90 max 30 85 145 1102|è1/2 (Deg)蓝光 BLue light 红光 Red light 白光 White light 绿光 Green light140 140 140 140TX-BRWG2A140-001 AIGainp InGan InGan 3W 红、黄、橙、绿、蓝光产品型号 Part Number芯片材质 Chip Meterial发光颜色 EmittingColor正向电压 Forword Voltive(V) min max 2.8 2.8 2.8 4.2 4.2 2.2 2.2 2.2 3.2 3.2主波长 Dominant Wavelength(nm) min 615 590 595 520 460 max 630 598 610 530 470光通量 Luminous flux Φ(LM) min 75 65 65 110 25 max 100 80 80 140 382|è1/2 (Deg)TX-R3A140-005 AIGainp TX-Y3A140-002 AIGainp TX-O3A140-001 AIGainp TX-G3A140-002 TX-B3A140-002 InGan InGan红光 Red light 黄光 Yellow light 橙光 Orange light 绿光 Green light 蓝光 BLue light140 140 140 140 1403W 全彩产品型号 Part Number芯片材质 Chip Meterial AIGainp发光颜色 EmittingColor正向电压 Forword Voltive(V) min max 2.6 4.2 4.2 2.8 4.2 4.2 2.0 3.2 3.2 2.2 3.2 3.2主波长 Dominant Wavelength(nm) min 615 520 462 615 520 462 max 630 530 470 630 530 470光通量 Luminous flux Φ(LM) min 50 110 25 75 110 25 max 60 140 38 100 140 382|è1/2 (Deg)红光 Red light 绿光 Green light 蓝光 BLue light 红光 Red light 绿光 Green light 蓝光 BLue light140 140 140 140 140 140TX-RGB3A140-001InGan InGan AIGainpTX-RGB31A140-003InGan InGan大功率 3W 白光1W 白光1W 红、黄、橙、绿、蓝光1W 全彩2W 全彩2W 全彩3W 红、黄、橙、绿、蓝光3W 全彩。

Dell V313w 用户手册2010年8月 | 机器类型：4443型号：目录安全信息 (5)关于您的打印机 (6)感谢您选择此打印机！ (6)使您的打印机对环境的影响最小 (6)查找有关打印机的信息 (7)了解打印机的部件 (9)订购和更换耗材 (11)订购打印墨盒 (11)更换打印墨盒 (11)回收Dell产品 (13)使用打印机操作面板按钮和菜单 (14)使用打印机操作面板 (14)将临时设置改变为新的默认设置 (15)改变节约能源时限 (16)使用经济模式节约纸张和能源 (16)恢复出厂默认设置 (17)使用打印机软件 (18)最小系统需求 (18)使用Windows打印机软件 (18)使用Macintosh（英文版）打印机软件 (20)查找并安装可选的软件 (21)升级打印机软件（仅限于Windows） (21)重新安装打印机软件 (22)装入纸张和文档原件 (24)装入纸张 (24)保存纸张默认设置 (27)将文档原件放置在扫描仪玻璃上 (28)打印 (29)打印提示 (29)打印基本文档 (29)打印特殊文档 (33)操作照片 (35)从蓝牙设备中进行打印 (40)在纸张的双面进行打印 (42)管理打印作业 (45)复印 (49)复印提示 (49)进行复印 (49)复印照片 (49)放大或缩小图像 (50)调整复印质量 (50)使复印结果较浅或者较深 (50)使用打印机操作面板进行逐份复印 (51)在一页纸上复制图像 (51)将多页文档复印到一张纸上 (51)进行双面复印 (52)取消复印作业 (53)扫描 (54)扫描提示 (54)扫描到本地或网络计算机 (54)扫描至闪存驱动器或存储卡 (55)扫描照片并发送到编辑应用程序中 (55)扫描文档并发送到编辑应用程序中 (56)使用打印机软件直接扫描至电子邮件 (57)扫描至PDF (57)扫描常见问答 (58)取消扫描作业 (59)网络 (60)在无线网络中安装打印机 (60)高级无线设置 (64)网络常见问答 (70)维护打印机 (81)维护打印墨盒 (81)清洗打印机的外壳 (83)擦洗扫描仪玻璃 (83)问题解答 (84)在您解决问题之前 (84)使用服务中心解决打印机问题 (84)如果问题解答没有解决您的问题 (84)安装问题解答 (84)卡纸和进纸错误问题解答 (90)打印问题解答 (93)复印和扫描问题解答 (95)存储卡问题解答 (97)无线问题解答 (98)通告 (115)产品信息 (115)版本通告 (115)能源消耗 (117)索引 (120)安全信息电源线所连接的电源插座与产品的距离不可太远，并且要符合使用方便的原则。

高性能、无锡、自抛光共聚物（SPC）防污漆系统，含有专利丙烯酸铜技术。

产品概述专门设计用于近海船舶。

用于维修和保养。

预期用途BEA361-黑色, BEA362-蓝色, BEA368-深褐色, BEA369-深红色, BEA387-褐色40％ ±2% (ISO 3233:1998)可指定 70 - 140 微米干膜厚 (175 - 350 微米湿膜厚)，具体取决于最终用途。

在70-140微米干膜厚时理论涂布率为：5.7-2.9米²/公升，允许适当的损耗系数无气喷涂, 刷涂, 辊涂产品信息体积固体份标准膜厚理论涂布率施工方法面漆/光泽不适用乙组份（固化剂）不适用闪点单组份 22°C (在北美地区生产和供应的产品，由于采用当地溶剂，其闪点为 21°C。

对产品性能没有不利影响)。

复涂数据－见“限定”一节底材温度颜色干燥资料-5°C 5°C 25°C 35°C 表干 [ISO 9117/3:2010] 2 小时60 分钟40 分钟30 分钟 下水前30 小时18 小时12 小时10 小时复涂下列产品时 -5°C5°C25°C35°C最小最大最小最大最小最大最小最大Intersmooth 360 SPC12 小时28 天6 小时28 天4 小时28 天3 小时28 天法定数据挥发性有机化合物挥发性有机化合物值是典型值，仅提供用来作为参考。

它们可能会随着诸如颜色和常规制造误差之类因素的改变而发生变化。

518 克/公升(原装涂料) (EPA 方法 24)343 克/千克(原装液体油漆)。

欧盟溶剂排放指导 (委员会指导 1999/13/EC)美国环保局美国联邦环保署注册号 2693-187该产品未在加拿大注册。

关于其它法定数据，参见第 4 页。

该产品不含作为生物杀虫剂的有机锡，符合国际海事组织 2001 年 10 月所通过的有关在船上控制使用有害防污漆的国际条约(国际海事组织文件 AFS/CONF/26)。

UM220-III N北斗兼容GPS模组技术规格书和芯星通科技（北京）有限公司2015年5月1.简介 (3)2.技术指标 (4)2.1.电气性能 (4)2.2.环境特性 (4)2.3.物理特性 (4)3.外观尺寸和电气特征 (5)3.1.GA833 轮廓:(毫米) (5)3.2.脚位描述 (6)3.3.推荐封装设计 (7)4.参考设计 (7)5.回流焊曲线 (8)6.静电放电防护措施 (9)7.潮湿敏感度等级 (9)8.坐标系和默认产品规格 (10)8.1 坐标系 (10)8.2 默认指令 (10)8.3 默认产品规格 (10)1.简介UM220-III N 高性能、低功耗、小尺寸、方便开发应用的BDS+GPS 双模式定位模块。

主要特征:■最新的ARM9内核■高跟踪灵敏度-160dBm■平均冷启动时间32秒■采用SoC方案■通过串口输出NMEA■尺寸规格: 12.4(宽) x 16.4(高) x 2.7(厚) 毫米模块内部框图：2. 技术指标2.1. 电气性能2.1.1 定位时间1. 热启动时间：平均1秒2. 温启动时间：平均32秒3. 冷启动时间：平均32秒2.1.2 灵敏度(空旷环境)1. 捕获灵敏度: -147dBm2. 跟踪灵敏度: -160dBm2.1.3 其他指标1. 高度: ≤18,288 m2. 速度：≤515 m/s3. 加速度：≤4G2.1.4 功耗指标1. 电源输入：3.3V DC 主电源和RTC供电2. 电流大小: 小于80mA (不包含天线供电)3. RTC电流: 小于30uA2.1.5 接口1.全双工串口, TTL接口, 默认9600波特率，其他波特率可以定制2. NMEA 0183 4.1 版本ASCII 输出兼容老版本2.2. 环境特性1. 工作温度-40 ℃ to +85 ℃2. 存储温度-45 ℃ to +85 ℃2.3. 物理特性1. 外观尺寸: 12.4(宽) x 16.4(高) x 2.7(厚) 毫米2. 重量: 小于2克3. 外观尺寸和电气特征3.1. 轮廓: (毫米) (公差: ±0.2毫米)3.2.引脚描述:24个引脚描述见表5-13.2.1 秒脉冲1．1PPS：秒脉冲输出，CMOS电平输出，可以用于时间同步等应用扩展。