APX9371茂达ANPEC一级代理推荐

ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and advise customers to obtain the latest version of relevant information to verify before placing orders.•Three-Phase Full-Wave Sensor-Less Drive Method •Adjustable Forced Commutation Frequency(for Start-up)•Built-In External PWM Speed Control•Built-In Quick Start Function•FG (Rotation Speed Detection) Output (for APX9365A)RD (Lock Detection) Output (for APX9365B)1/2FG (Rotation Speed Detection) Output (for APX9365C)•Soft Switching Circuit (for Noise Reducing)•Power Saving Function (PWM Duty Input is 0%)•Built-In Lock Protection and Auto Restart Function •Thermal Shutdown Circuit•Lead Free and Green Devices Available (RoHS Compliant)The APX9365A/B/C provides all the circuitry for sensor-less speed control of three-phase brushless DC motor.The controller functions include start-up circuit, back-EMF commutation control, Pulse Width Modulation (PWM)speed control, lock protection, and thermal shutdown circuit.The APX9365A/B/C is suitable for both game machine and CPU cooler that need silent drivers. It is available in VTDFN3x3-10 package.FeaturesGeneral DescriptionApplications•Motor Driver For Silent Fan MotorsPin ConfigurationCOM 310 VO UO 1VCC 2FR 59 WO7 PWM 8 FG/ RD/ 1/2FG VTDFN3X3-10(TOP VIEW)FN 46 OSC= Exposed Pad (connected to the ground of power)Ordering and Marking InformationNote: ANPEC lead-free products contain molding compounds/die attach materials and 100% matte tin plate termination finish; which are fully compliant with RoHS. ANPEC lead-free products meet or exceed the lead-free requirements of IPC/JEDEC J -STD-020D for MSL classification at lead-free peak reflow temperature. ANPEC defines “Green” to mean lead-free (RoHS compliant) and halogen free (Br or Cl does not exceed 900ppm by weight in homogeneous material and total of Br and Cl does not exceed 1500ppm by weight).(Note 1)Note1: Stresses beyond those listed under "absolute maximum ratings" may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under "recom-mended operating conditions" is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Thermal CharacteristicsNote 2: θJA is measured with the component mounted on a 55mm x 40mm x 1.6mm glass epoxy board (two-layer) in free air.Recommended Operating ConditionsElectrical Characteristics (VCC=5V, T A =25°C, unless otherwise specified)Electrical Characteristics (Cont.) (VCC=5V, T A =25°C, unless otherwise specified)Typical Operating CharacteristicsVCC Supply Current vs. VCC Supply Voltage0.511.522.53V C C S u p p l y C u r r e n t (m A )VCC Supply Voltage(V)VCC Supply Current vs. VCC Supply VoltageVCC Supply Voltage(V)V C C S u p p l y C u r r e n t (µA )20406080100120Output Saturation Voltage vs. Output CurrentOutput Current (mA)O u t p u t S a t u r a t i o n V o l t a g e (m V )0.10.20.30.40.50.60.70.8FG Pin Low Voltage vs. Sink CurrentFG Pin Sink Current (mA)F G P i n L o w V o l t a g e (V )0.10.20.30.40.5Maximum Power Dissipation vs.Ambient TemperatureM a x i m u mP o w e r D i s s i p a t i o n (m W )Ambient Temperature (o C)Operating WaveformsRotation Mode Waveform (NORMAL)CH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 200mA/div, DCTime: 5ms/divRotation Mode Waveform (PWM)CH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 200mA/div, DC Time: 5ms/divLock Protection Waveform (Lock)LockCH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 500mA/div, DC Time: 2s/div Lock Protection Waveform (Release)ReleaseCH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 500mA/div, DC Time: 2s/divPin DescriptionBlock DiagramFR PWMCOMVO WOFNTypical Application CircuitNote : D1 is to prevent the damage from the power reverse connection.V INFunction DescriptionPWM Speed ControlIt is possible to change rotation speed of the motor by switching high side output transistor. The on-duty of switching depends on the signal from input to PWMterminal. (See Figure 1 PWM Input Waveform)V PWMV UOFigure 1. PWM Input WaveformQuick StartThis IC disables the lock protection function when the PWM input keeps low level for more than 2ms. (See Fig-ure 2 Quick Start Waveform)V PWMLock ProtectFigure 2. Quick Start WaveformFG OutputThe FG pin is an open-drain output, connecting a pull up resistor to a high level voltage for the speed detection function. When UO pin voltage switches to high, the FG is high (switch off) and the UO pin voltage switches to low then FG is low (switch on). The FG output only works insensor- less mode. (See Figure 3 FG Output Waveform)V UOFGFigure 3. FG Output WaveformSoft SwitchThe APX9365A/B/C is equipped with a soft switch func-tion to make phase current become more gentle, which can reduce the noise of motor in switching interval.Lock Protection and Automatic RestartThe APX9365A/B/C provides the lock protection and au-tomatic restart functions to prevent the coil burnout while the fan is locked. As the fan is locked, the IC will come into start-up operation for 1 second. Then, the IC will switch to lock protection mode to close output driver for 6seconds. After lock protection mode, the IC switches to start-up operation again. If the locked condition still remains, the lock-and-restart process will be recurred until the locked condition is released.Thermal ProtectionThe APX9365A/B/C has thermal protection. When inter-nal junction temperature reaches 160o C, the output de-vices will be switched off. When the IC’s junction tem-perature cools down 30o C, the thermal sensor will turn on the output devices again, resulting in a pulsed output during continuous thermal protection.Application InformationInput Protection Diode & CapacitorIt is necessary to add a protection diode (D1) to prevent the damage from the power reverse connection. However,the protection diode will cause a voltage drop on the sup-ply voltage. The current rating of the diode must be larger than the maximum output current. For the noise reduc-tion purpose, a capacitor (C1) is connected between VCC and GND. (see Typical Application Circuit) It’s suggested that C1 should be placed as close as possible in the VCC pin.OSC CapacitorThe capacitor connects from OSC pin to GND can be determined the frequency of force commutation. The op-timal design of the frequency could make sure the motor start-up in succeed. Its capacitance from 1000pF to 3300pF is recommended.FG/RD ResistorThe value of FG/RD resistor could be decided by the fol-lowing equation:For example:V CC = 5V, I FG/RD = 5mA, V FG/RD = 0.2V, R FG/RD = 0.96k ΩThe value of resistor in the range of 1k Ω to 10k Ω is recommended.Thermal ConsiderationRefer to “Maximum Power Dissipation vs. Ambient Temp-erature”, the IC is safe to operate below the curve and it will cause the thermal protection if the operating area is above the line. For example, T A = 75°C, the MSOP-10 pack-age maximum power dissipation is about 0.48W. The power dissipation can be calculated by the following equation:()CCCC UO VO UO CC D I V I V V V P ×+×−−=For example:V CC = 5V, I CC = 3mA, I OUT = 250mA, V UO = 4.85V,V VO = 0.15V, then P D = 0.09WThe GND pin provides an electrical connection to the ground and channeling heat away. The printed circuit board (PCB) forms a heat sink and dissipates most of the heat into ambient air.FG/RDFG/RDCC FG/RD I V V R −=FIL CapacitorThe capacitor connects between FN and COM pin to filter the noise when phase change to make sure phase change correctly. Its capacitance from 10nF to 100nF is recommended.Package InformationVTDFN3x3-10S Y M B O L MIN.MAX.0.600.000.180.302.20 2.700.051.40A A1b D D2E E2e L MILLIMETERS A30.20 REFVTDFN3x3-100.300.501.750.008 REF MIN.MAX.INCHES0.0240.0000.0070.0120.0870.1060.0550.0120.0200.500.0690.0200.0020.50 BSC0.016 BSC 0.200.008K2.903.100.1140.1222.90 3.100.1140.122(mm)Devices Per UnitCarrier Tape & Reel DimensionsSECTION B-BSECTION A-ATaping Direction InformationVTDFN3x3-10USER DIRECTION OF FEEDClassification ProfileClassification Reflow ProfilesTable 1. SnPb Eutectic Process – Classification Temperatures (Tc)Reliability Test Program。

ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and advise customers to obtain the latest version of relevant information to verify before placing orders.•Three-Phase Full-Wave Sensor-Less Drive Method •Adjustable Forced Commutation Frequency(for Start-up)•Built-In External PWM Speed Control•Built-In Quick Start Function•FG (Rotation Speed Detection) Output (for APX9365A)RD (Lock Detection) Output (for APX9365B)1/2FG (Rotation Speed Detection) Output (for APX9365C)•Soft Switching Circuit (for Noise Reducing)•Power Saving Function (PWM Duty Input is 0%)•Built-In Lock Protection and Auto Restart Function •Thermal Shutdown Circuit•Lead Free and Green Devices Available (RoHS Compliant)The APX9365A/B/C provides all the circuitry for sensor-less speed control of three-phase brushless DC motor.The controller functions include start-up circuit, back-EMF commutation control, Pulse Width Modulation (PWM)speed control, lock protection, and thermal shutdown circuit.The APX9365A/B/C is suitable for both game machine and CPU cooler that need silent drivers. It is available in VTDFN3x3-10 package.FeaturesGeneral DescriptionApplications•Motor Driver For Silent Fan MotorsPin ConfigurationCOM 310 VO UO 1VCC 2FR 59 WO7 PWM 8 FG/ RD/ 1/2FG VTDFN3X3-10(TOP VIEW)FN 46 OSC= Exposed Pad (connected to the ground of power)Ordering and Marking InformationNote: ANPEC lead-free products contain molding compounds/die attach materials and 100% matte tin plate termination finish; which are fully compliant with RoHS. ANPEC lead-free products meet or exceed the lead-free requirements of IPC/JEDEC J -STD-020D for MSL classification at lead-free peak reflow temperature. ANPEC defines “Green” to mean lead-free (RoHS compliant) and halogen free (Br or Cl does not exceed 900ppm by weight in homogeneous material and total of Br and Cl does not exceed 1500ppm by weight).(Note 1)Note1: Stresses beyond those listed under "absolute maximum ratings" may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under "recom-mended operating conditions" is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Thermal CharacteristicsNote 2: θJA is measured with the component mounted on a 55mm x 40mm x 1.6mm glass epoxy board (two-layer) in free air.Recommended Operating ConditionsElectrical Characteristics (VCC=5V, T A =25°C, unless otherwise specified)Electrical Characteristics (Cont.) (VCC=5V, T A =25°C, unless otherwise specified)Typical Operating CharacteristicsVCC Supply Current vs. VCC Supply Voltage0.511.522.53V C C S u p p l y C u r r e n t (m A )VCC Supply Voltage(V)VCC Supply Current vs. VCC Supply VoltageVCC Supply Voltage(V)V C C S u p p l y C u r r e n t (µA )20406080100120Output Saturation Voltage vs. Output CurrentOutput Current (mA)O u t p u t S a t u r a t i o n V o l t a g e (m V )0.10.20.30.40.50.60.70.8FG Pin Low Voltage vs. Sink CurrentFG Pin Sink Current (mA)F G P i n L o w V o l t a g e (V )0.10.20.30.40.5Maximum Power Dissipation vs.Ambient TemperatureM a x i m u mP o w e r D i s s i p a t i o n (m W )Ambient Temperature (o C)Operating WaveformsRotation Mode Waveform (NORMAL)CH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 200mA/div, DCTime: 5ms/divRotation Mode Waveform (PWM)CH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 200mA/div, DC Time: 5ms/divLock Protection Waveform (Lock)LockCH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 500mA/div, DC Time: 2s/div Lock Protection Waveform (Release)ReleaseCH1: V UO , 5V/div, DC CH2: V VO , 5V/div, DC CH3: V WO , 5V/div, DC CH4: I UO , 500mA/div, DC Time: 2s/divPin DescriptionBlock DiagramFR PWMCOMVO WOFNTypical Application CircuitNote : D1 is to prevent the damage from the power reverse connection.V INFunction DescriptionPWM Speed ControlIt is possible to change rotation speed of the motor by switching high side output transistor. The on-duty of switching depends on the signal from input to PWMterminal. (See Figure 1 PWM Input Waveform)V PWMV UOFigure 1. PWM Input WaveformQuick StartThis IC disables the lock protection function when the PWM input keeps low level for more than 2ms. (See Fig-ure 2 Quick Start Waveform)V PWMLock ProtectFigure 2. Quick Start WaveformFG OutputThe FG pin is an open-drain output, connecting a pull up resistor to a high level voltage for the speed detection function. When UO pin voltage switches to high, the FG is high (switch off) and the UO pin voltage switches to low then FG is low (switch on). The FG output only works insensor- less mode. (See Figure 3 FG Output Waveform)V UOFGFigure 3. FG Output WaveformSoft SwitchThe APX9365A/B/C is equipped with a soft switch func-tion to make phase current become more gentle, which can reduce the noise of motor in switching interval.Lock Protection and Automatic RestartThe APX9365A/B/C provides the lock protection and au-tomatic restart functions to prevent the coil burnout while the fan is locked. As the fan is locked, the IC will come into start-up operation for 1 second. Then, the IC will switch to lock protection mode to close output driver for 6seconds. After lock protection mode, the IC switches to start-up operation again. If the locked condition still remains, the lock-and-restart process will be recurred until the locked condition is released.Thermal ProtectionThe APX9365A/B/C has thermal protection. When inter-nal junction temperature reaches 160o C, the output de-vices will be switched off. When the IC’s junction tem-perature cools down 30o C, the thermal sensor will turn on the output devices again, resulting in a pulsed output during continuous thermal protection.Application InformationInput Protection Diode & CapacitorIt is necessary to add a protection diode (D1) to prevent the damage from the power reverse connection. However,the protection diode will cause a voltage drop on the sup-ply voltage. The current rating of the diode must be larger than the maximum output current. For the noise reduc-tion purpose, a capacitor (C1) is connected between VCC and GND. (see Typical Application Circuit) It’s suggested that C1 should be placed as close as possible in the VCC pin.OSC CapacitorThe capacitor connects from OSC pin to GND can be determined the frequency of force commutation. The op-timal design of the frequency could make sure the motor start-up in succeed. Its capacitance from 1000pF to 3300pF is recommended.FG/RD ResistorThe value of FG/RD resistor could be decided by the fol-lowing equation:For example:V CC = 5V, I FG/RD = 5mA, V FG/RD = 0.2V, R FG/RD = 0.96k ΩThe value of resistor in the range of 1k Ω to 10k Ω is recommended.Thermal ConsiderationRefer to “Maximum Power Dissipation vs. Ambient Temp-erature”, the IC is safe to operate below the curve and it will cause the thermal protection if the operating area is above the line. For example, T A = 75°C, the MSOP-10 pack-age maximum power dissipation is about 0.48W. The power dissipation can be calculated by the following equation:()CCCC UO VO UO CC D I V I V V V P ×+×−−=For example:V CC = 5V, I CC = 3mA, I OUT = 250mA, V UO = 4.85V,V VO = 0.15V, then P D = 0.09WThe GND pin provides an electrical connection to the ground and channeling heat away. The printed circuit board (PCB) forms a heat sink and dissipates most of the heat into ambient air.FG/RDFG/RDCC FG/RD I V V R −=FIL CapacitorThe capacitor connects between FN and COM pin to filter the noise when phase change to make sure phase change correctly. Its capacitance from 10nF to 100nF is recommended.Package InformationVTDFN3x3-10S Y M B O L MIN.MAX.0.600.000.180.302.20 2.700.051.40A A1b D D2E E2e L MILLIMETERS A30.20 REFVTDFN3x3-100.300.501.750.008 REF MIN.MAX.INCHES0.0240.0000.0070.0120.0870.1060.0550.0120.0200.500.0690.0200.0020.50 BSC0.016 BSC 0.200.008K2.903.100.1140.1222.90 3.100.1140.122(mm)Devices Per UnitCarrier Tape & Reel DimensionsSECTION B-BSECTION A-ATaping Direction InformationVTDFN3x3-10USER DIRECTION OF FEEDClassification ProfileClassification Reflow ProfilesTable 1. SnPb Eutectic Process – Classification Temperatures (Tc)Reliability Test Program。

Cross reference guide: Eaton 1F2 ADCC / Hawke / CMP conduit glandsMalethread size Female thread size Hawke part no.Hawkesealing range Eaton part no.Eaton sealing range Metric to metric glandsM20M20501/414/Os/M20(M)/M20(F) 3.2 - 8.0 mm ADCCM201M20NPN 4.5 - 8.5 mm M20M20501/414/O/M20(M)/M20(F) 6.5 - 11.9 mm ADCCM202M20NPN 7.0 - 12.0 mm M20M20501/414/A/M20(M)/M20(F)10.0 - 14.3 mm ADCCM203M20NPN 10.0 - 16.0 mm M25M25501/414/B/M25(M)/M25(F)13.0 - 20.2 mm ADCCM253M25NPN 13.5 - 20.5 mm M32M32501/414/C/M32(M)/M32(F)19.5 - 26.5 mm ADCCM323M32NPN 18.0 - 27.5 mm M40M40501/414/C2/M40(M)/M40(F)25.0 - 32.5 mm ADCCM403M40NPN 23.0 - 34.0 mm M50M50501/414/D/M50(M)/M50(F)31.5 - 44.4 mm ADCCM503M50NPN 35.0 - 45.0 mm M63M63501/414/E/M63(M)/M63(F)42.5 - 56.3 mm ADCCM633M63NPN 42.0 - 56.0 mm M75M75501/414/F/M75(M)/M75(F)54.5 - 68.2 mmADCCM753M75NPN50.0 - 65.0 mmNPT to NPT glands 1/2” NPT 1/2” NPT 501/414/Os/1/2” NPT(M)/1/2” NPT(F) 3.2 - 8.0 mm ADCCN0501N050NPN 4.5 - 8.5 mm 1/2” NPT 1/2” NPT 501/414/O/1/2” NPT(M)/1/2” NPT(F) 6.5 - 11.9 mm ADCCN0502N050NPN 7.0 - 12.0 mm 1/2” NPT 1/2” NPT 501/414/A/1/2” NPT(M)/1/2” NPT(F)10.0 - 14.3 mm ADCCN0503N050NPN 10.0 - 15.5 mm 3/4” NPT 3/4” NPT 501/414/A/3/4” NPT(M)/3/4” NPT(F)10.0 - 14.3 mm ADCCN0752N075NPN 10.0 - 16.0 mm 3/4” NPT 3/4” NPT 501/414/B/3/4” NPT(M)/3/4” NPT(F)13.0 - 20.2 mm ADCCN0753N075NPN 13.5 - 20.5 mm 1” NPT 1” NPT 501/414/B/1” NPT(M)/1” NPT(F)13.0 - 20.2 mm ADCCN1002N100NPN 13.5 - 20.5 mm 1” NPT 1” NPT 501/414/C/1” NPT(M)/1” NPT(F 19.5 - 26.5 mm ADCCN1003N100NPN 18.0 - 26.0 mm 1 1/4” NPT 1 1/4” NPT 501/414/C/1 1/4” NPT(M)/1 1/4” NPT(F)19.5 - 26.5 mm ADCCN1252N125NPN 18.0 - 26.0 mm 1 1/4” NPT 1 1/4” NPT 501/414/C2/1 1/4” NPT(M)/1 1/4” NPT(F)25.0 - 32.5 mm ADCCN1253N125NPN 23.0 - 34.0 mm 1 1/2” NPT 1 1/2” NPT 501/414/C2/1 1/2” NPT(M)/1 1/2” NPT(F)25.0 - 32.5 mm ADCCN1502N150NPN 23.0 - 34.0 mm 1 1/2” NPT 1 1/2” NPT 501/414/D/1 1/2” NPT(M)/1 1/2” NPT(F)31.5 - 42.3 mm ADCCN1503N150NPN 29.0 - 41.0 mm 2” NPT 2” NPT 501/414/D/2” NPT(M)/2” NPT(F)31.5 - 42.3 mm ADCCN2002N200NPN 35.0 - 48.0 mm 2” NPT 2” NPT 501/414/E/2” NPT(M)/2” NPT(F)42.5 - 54.3 mm ADCCN2003N200NPN 42.0 - 53.0 mm 2 1/2” NPT 2 1/2” NPT 501/414/E/2 1/2” NPT(M)/2 1/2” NPT(F)42.5 - 54.3 mm ADCCN2502N250NPN 42.0 - 53.0 mm 2 1/2” NPT 2 1/2” NPT 501/414/F/2 1/2” NPT(M)/2 1/2” NPT(F)54.5 - 68.2 mm ADCCN2503N250NPN 50.0 - 62.5 mm 3” NPT3” NPT501/414/F/3” NPT(M)/3” NPT(F)54.5 - 68.2 mmADCCN3002N300NPN58.0 - 74.0 mmSERIESEaton 1F2 ADCC conduit gland Effective September 2017Malethread sizeFemale thread sizeCMP part no.CMPsealing rangeEaton part no.Eaton sealing rangeMetric to metric glands M20M2020S16A2FRC1RA5 3.2 - 8.8 mm ADCCM201M20NPN 4.5 - 8.5 mm M20M2020SA2FRC1RA5 6.1 - 11.7 mm ADCCM202M20NPN 7.0 - 12.0 mm M20M2020A2FRC1RA5 6.5 - 14.0 mm ADCCM202M20NPN 7.0 - 12.0 mm M25M2525A2FRC1RA511.1 - 20.0 mm ADCCM252M25NPN 10.0 - 16.0 mm M32M3232A2FRC1RA517.0 - 26.3 mm ADCCM323M32NPN 18.0 - 27.5 mm M40M4040A2FRC1RA523.5 - 32.2 mm ADCCM403M40NPN 23.0 - 34.0 mm M50M5050SA2FRC1RA531.0 - 38.2 mm ADCCM502M50NPN 29.0 - 41.0 mm M50M5050A2FRC1RA535.6 - 44.0 mm ADCCM503M50NPN 35.0 - 45.0 mm M63M6363SA2FRC1RA541.5 - 49.9 mm ADCCM633M63NPN 42.0 - 56.0 mm M63M6363A2FRC1RA547.2 - 55.9 mm ADCCM633M63NPN 42.0 - 56.0 mm M75M7575SA2FRC1RA554.0 - 61.9 mm ADCCM753M75NPN 50.0 - 65.0 mm M75M7575A2FRC1RA561.1 - 67.9 mm ADCCM753M75NPN 50.0 - 65.0 mm M90M9090A2FRC1RA566.6 - 79.9 mm ADCCM903M90NPN 66.0 - 83.0 mm M100M100100A2FRC1RA576.0 - 91.0 mm ADCCM1102M110NPN* 75.0 - 93.0 mm M115M115115A2FRC1RA586.0 - 97.9 mmADCCM1103M110NPN*85.0 - 104.0 mmMetric to NPT glands M201/2” NPT 20S16A2FRC1RA531 3.2 - 8.8 mm ADCCM201N050NPN 4.5 - 8.5 mm M201/2” NPT 20SA2FRC1RA531 6.1 - 11.7 mm ADCCM202N050NPN 7.0 - 12.0 mm M201/2” NPT 20A2FRC1RA531 6.5 - 14.0 mm ADCCM202N050NPN 7.0 - 12.0 mm M253/4” NPT 25A2FRC1RA53211.1 - 20.0 mm ADCCM252N075NPN 10.0 - 16.0 mm M321” NPT 32A2FRC1RA53317.0 - 26.3 mm ADCCM323N100NPN 18.0 - 27.5 mm M40 1 1/4” NPT 40A2FRC1RA53423.5 - 32.2 mm ADCCM403N125NPN 23.0 - 34.0 mm M50 1 1/2” NPT 50SA2FRC1RA53531.0 - 38.2 mm ADCCM502N150NPN 29.0 - 41.0 mm M50 1 1/2” NPT 50A2FRC1RA53535.6 - 44.0 mm ADCCM503N150NPN 35.0 - 45.0 mm M632” NPT 63SA2FRC1RA53641.5 - 49.9 mm ADCCM633N200NPN 42.0 - 56.0 mm M632” NPT 63A2FRC1RA53647.2 - 55.9 mm ADCCM633N200NPN 42.0 - 56.0 mm M75 2 1/2” NPT 75SA2FRC1RA53754.0 - 61.9 mm ADCCM753N250NPN 50.0 - 65.0 mm M753” NPT 75A2FRC1RA53861.1 - 67.9 mm ADCCM753N300NPN 50.0 - 65.0 mm M903” NPT 90A2FRC1RA53866.6 - 79.9 mm ADCCM903N300NPN 66.0 - 83.0 mm M100 3 1/2” NPT 100A2FRC1RA53976.0 - 91.0 mm ADCCM1102N350NPN*75.0 - 93.0 mm M1154” NPT115A2FRC1RA531086.0 - 97.9 mmADCCM1103N400NPN*85.0 - 104.0 mmNPT to metric glands 1/2” NPT M2020S16A2F1RA53102 3.2 - 8.8 mm ADCCN0501M20NPN 4.5 - 8.5 mm 1/2” NPT M2020SA2F1RA53102 6.1 - 11.7 mm ADCCN0502M20NPN 7.0 - 12.0 mm 1/2” NPT M2020A2F1RA53102 6.5 - 14.0 mm ADCCN0502M20NPN 7.0 - 12.0 mm 3/4” NPT M2525A2F1RA5320311.1 - 20.0 mm ADCCN0752M25NPN 10.0 - 16.0 mm 1” NPT M3232A2F1RA5330417.0 - 26.3 mm ADCCN1003M32NPN 18.0 - 26.0 mm 1 1/4” NPT M4040A2F1RA5340523.5 - 32.2 mm ADCCN1253M40NPN 23.0 - 34.0 mm 1 1/2” NPT M5050SA2F1RA5350631.0 - 38.2 mm ADCCN1502M50NPN 29.0 - 41.0 mm 2” NPT M6363SA2F1RA5360741.5 - 49.9 mm ADCCN2003M63NPN 42.0 - 53.0 mm 2 1/2” NPT M7575SA2F1RA5370854.0 - 61.9 mm ADCCN2503M75NPN 50.0 - 62.5 mm 3 1/2” NPTM9090A2F1RA5390966.6 - 79.9 mmADCCN3502M90NPN66.0 - 83.0 mm* please use an adaptor / reducerCross reference guide: Eaton 1F2 ADCC / Hawke / CMP conduit glandsFollow us on social media to get thelatest product and support information.EatonEMEA Headquarters Route de la Longeraie 71110 Morges, Switzerland Eaton Cooper Capri SAS 36-40 Rue des Fontenils41600 Nouan-le-Fuzelier France Eaton.eu© 2017 EatonAll Rights Reserved Printed in XXXPublication No. PAXXXXXXXXE / XXX Article No. XXXXXX September 2017Eaton is a registered trademark.All other trademarks are property of their respective owners.。

创威测绘五大强势品牌湖北省一级金牌代理商宾得在日本是测绘界的巨头，它的R-202N及R-300X系列全站仪被广泛应用在铁路、公路、隧道水利、水电、市政，国土测量等一些工程项目当中。

它率先研发出免棱镜激光全站仪，给我们广大用户带来了极大的方便；它的图形显示功能让我们看图就可以检查出现问题。

在价格方面，大大低于同级别进口全站，实在是全站中之极品，购买之最佳选择。

湖北总代理、物流中心、维修中心本公司是科力达在湖北省唯一的批发兼零售的单位，同时也是科力达定在武汉市的维修服务中心。

我们的价格是湖北省最低的，我们的服务是全国最好的，选择科力达的仪器，相信创威的实力。

在今年创威测绘很荣幸获得了科力达2007年度销售金奖和功勋奖，这也很大的激励了我们要进一步做好科力达仪器的销售工作和售后的服务工作。

科力达今年推出的KTS-442R免棱镜全站仪，它的免棱镜测程达到了200米。

加上它的自带道路设计软件为我们的道路放样带来了很大的帮助，今年这款仪器正在火爆抢购中。

华中区五省总代理2007年武汉洪山创威科技测绘中心与德国喜利得公司签定了华中地区总代理的协议。

在湖北、湖南、江西等省创威测绘是喜利得激光测距类仪器的源头。

喜利得公司除了为每一台测距仪提供德国原厂的品质保证书外，还对每一台测距仪提供国家检测部门出具的权威鉴定证书，并对测距产品提供长达3年的全免费保修服务，这些服务是在国内销售测距产品的厂家中绝无仅有的。

湖北省一级代理商中国华测是一家集国产GPS研发、生产于一体的高新技术产业集团公司，汇集了一批GPS领域的顶尖技术人才，拥有国内最具实力的GPS研发团队，在技术上不断自主创新，并已申请了多项专利。

公司生产的GPS产品贴近用户、性能稳定，获得了广大用户的好评。

中国华测在2006年已经与创威测绘达成了湖北省独家代理的协议，去年卖得最好的X90天骄系列RTK动态1+1+1的GPS为了服务更多的用户，在今年价格也做了进一步的下调。

EDS-208A系列8埠輕巧型非網管乙太網路交換器特色與優點•10/100BaseT(X)(RJ45連接器)、100BaseFX(多模/單模、SC或ST連接器)•備援雙12/24/48VDC電源輸入•IP30鋁製外殼•堅固耐用的硬體設計，非常適合環境嚴苛場域應用(Class1Div.2/ATEXZone2)，、運輸應用(NEMA TS2/EN50121-4/e-Mark)以及海事環境(DNV/GL/LR/ABS/NK)•-40至75°C工作溫度範圍(-T型號)認證簡介EDS-208A系列8埠工業級乙太網路交換器支援IEEE802.3和IEEE802.3u/x，具有10/100M、全/半雙工、MDI/MDI-X自動感測功能。

EDS-208A系列具有12/24/48VDC(9.6至60VDC)備援電源輸入，可同時連接至直流電源。

此系列交換器專為嚴苛工業環境所設計，例如海事(DNV/GL/LR/ABS/NK)、軌道沿線、高速公路或行動應用(EN50121-4/NEMA TS2/e-Mark)，或危險場所(Class1Div.2/ATEX Zone2)，並且符合FCC、UL和CE標準。

EDS-208A交換器提供可運作於-10至60°C的標準溫度型號和運作於-40至75°C的寬溫型號，所有型號都經過100%的燒機測試，確保符合工業自動化控制應用的特殊需求。

此外，EDS-208A交換器具有DIP開關，用於啟用或停用廣播風暴保護功能，提高工業應用的靈活性。

規格Ethernet Interface10/100BaseT(X)Ports(RJ45connector)EDS-208A/208A-T:8EDS-208A-M-SC/M-ST/S-SC Series:7EDS-208A-MM-SC/MM-ST/SS-SC Series:6All models support:Auto negotiation speedFull/Half duplex modeAuto MDI/MDI-X connection100BaseFX Ports(multi-mode SC connector)EDS-208A-M-SC Series:1EDS-208A-MM-SC Series:2100BaseFX Ports(multi-mode ST connector)EDS-208A-M-ST Series:1EDS-208A-MM-ST Series:2100BaseFX Ports(single-mode SC connector)EDS-208A-S-SC Series:1EDS-208A-SS-SC Series:2Standards IEEE802.3for10BaseTIEEE802.3u for100BaseT(X)and100BaseFXIEEE802.3x for flow controlOptical Fiber800Typical Distance4km5km40kmWavelength Typical(nm)13001310TX Range(nm)1260to13601280to1340 RX Range(nm)1100to16001100to1600Optical Power TX Range(dBm)-10to-200to-5 RX Range(dBm)-3to-32-3to-34 Link Budget(dB)1229 Dispersion Penalty(dB)31Note:When connecting a single-mode fiber transceiver,we recommend using anattenuator to prevent damage caused by excessive optical power.Note:Compute the“typical distance”of a specific fiber transceiver as follows:Linkbudget(dB)>dispersion penalty(dB)+total link loss(dB).Switch PropertiesMAC Table Size2KPacket Buffer Size768kbitsProcessing Type Store and ForwardPower ParametersConnection1removable4-contact terminal block(s)Input Current EDS-208A/208A-T,EDS-208A-M-SC/M-ST/S-SC Series:0.11A@24VDCEDS-208A-MM-SC/MM-ST/SS-SC Series:0.15A@24VDCInput Voltage12/24/48VDC,Redundant dual inputsOperating Voltage9.6to60VDCOverload Current Protection SupportedReverse Polarity Protection SupportedDIP Switch ConfigurationEthernet Interface Broadcast storm protectionPhysical CharacteristicsHousing AluminumIP Rating IP30Dimensions50x114x70mm(1.96x4.49x2.76in)Weight275g(0.61lb)Installation DIN-rail mounting,Wall mounting(with optional kit)Environmental LimitsOperating Temperature Standard Models:-10to60°C(14to140°F)Wide Temp.Models:-40to75°C(-40to167°F) Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsEMC EN55032/24EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:6kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:10V/mIEC61000-4-4EFT:Power:2kV;Signal:1kVIEC61000-4-5Surge:Power:2kV;Signal:2kVIEC61000-4-6CS:10VIEC61000-4-8PFMFHazardous Locations ATEX,Class I Division2Maritime ABS,DNV-GL,LR,NKRailway EN50121-4Safety UL508Shock IEC60068-2-27Traffic Control NEMA TS2Vibration IEC60068-2-6Freefall IEC60068-2-31MTBFTime2,701,531hrsStandards Telcordia(Bellcore),GBWarrantyWarranty Period5yearsDetails See /tw/warrantyPackage ContentsDevice1x EDS-208A Series switchDocumentation1x quick installation guide1x warranty card尺寸訂購資訊Model Name 10/100BaseT(X)PortsRJ45Connector100BaseFX PortsMulti-Mode,SCConnector100BaseFX PortsMulti-Mode,STConnector100BaseFX PortsSingle-Mode,SCConnectorOperating Temp.EDS-208A8–––-10to60°CEDS-208A-T8–––-40to75°CEDS-208A-M-SC71––-10to60°CEDS-208A-M-SC-T71––-40to75°CEDS-208A-M-ST7–1–-10to60°CEDS-208A-M-ST-T7–1–-40to75°CEDS-208A-MM-SC62––-10to60°CEDS-208A-MM-SC-T62––-40to75°CEDS-208A-MM-ST6–2–-10to60°CEDS-208A-MM-ST-T6–2–-40to75°CEDS-208A-S-SC7––1-10to60°CEDS-208A-S-SC-T7––1-40to75°CEDS-208A-SS-SC6––2-10to60°CEDS-208A-SS-SC-T6––2-40to75°C配件（選購）Power SuppliesDR-120-24120W/2.5A DIN-rail24VDC power supply with universal88to132VAC or176to264VAC input byswitch,or248to370VDC input,-10to60°C operating temperatureDR-452445W/2A DIN-rail24VDC power supply with universal85to264VAC or120to370VDC input,-10to50°Coperating temperatureDR-75-2475W/3.2A DIN-rail24VDC power supply with universal85to264VAC or120to370VDC input,-10to60°C operating temperatureMDR-40-24DIN-rail24VDC power supply with40W/1.7A,85to264VAC,or120to370VDC input,-20to70°Coperating temperatureMDR-60-24DIN-rail24VDC power supply with60W/2.5A,85to264VAC,or120to370VDC input,-20to70°Coperating temperatureWall-Mounting KitsWK-30Wall-mounting kit,2plates,4screws,40x30x1mmWK-46Wall-mounting kit,2plates,8screws,46.5x66.8x1mmRack-Mounting KitsRK-4U19-inch rack-mounting kit©Moxa Inc.版權所有.2020年5月22日更新。

深圳市沛城电子科技有限公司地址：中国广东省深圳市南山区科技园北区清华紫光信息港B座三楼联系人：曾小姐电话：86-755-82990713(直线)总机：86-755-82993060传真: 86-755-82992851E-mail: pcmy2011@MSN：yinhualy@公司网址：阿里旺铺：沛城电子是茂达（ANPEC）授权一级代理商，1、MOSFET(MOS管)APM9435为一颗P-MOSFET，VDS耐压为30V，VGS耐压为25V，提供最大的连续电流为6.2A，在VGS=10V 时，最大导通阻抗为60mΩ，采用无铅的SOP-8封装，主要作为电源的开关和PWM的功率器件的应用，常用在车载电子、LCD、便携DVD等电子产品上. 替代市面上如 CEM9435、AP9435 、AF9435 、GE9435、 GT9435 、TM9435、 MT9435、 SD9435。

APM2300CAC，SOT23封装， N沟道 20V/6A兼容，AO3400,SI2300，ME2314，GN2300，……APM2301CAC，SOT23封装， P沟道 20V/6A， 800MA VIN 2.5-5.5 BUCK PWM，兼容AO3401 ，SI2301，LT3406，RT8008，RT8009，APS1006，MP2104……APM2306，SOT23封装，兼容ME2306，GV2314……APM4412为一颗N-MOSFET，VDS耐压为30V，VGS耐压为20V，提供最大的连续电流为12A，在VGS=10V 时，最大导通阻抗为12mΩ，采用无铅的SOP-8封装，主要作为电源的开关和PWM的功率器件的应用，常用在车载电子、LCD、便携DVD,电子调速器等电子产品上。

APM4953为一颗P-MOSFET，VDS耐压为30V，VGS耐压为25V，提供最大的连续电流为6.2A，在VGS=10V 时，最大导通阻抗为60mΩ，采用无铅的SOP-8封装，主要作为电源的开关和PWM的功率器件的应用，常用在车载电子、LCD、便携DVD等电子产品上.兼容SI4953，AP4953，STM9435，MT9435……APM9926，封装SOP/TSSOP-8，兼容N9926A，应用LED显示屏APM4550：封装SOP8，应用：笔记本，场效应管APM3095：封装SOT252，其他MOSFET(MOS管)：APM4953KC SOP8 双P沟道 30V/5A兼容SI4953,AP4953,STM9435,MT9435……APM2305AC SOT23 沟道 16V/3.5A兼容 SI2305……APM3055LUC TO252 N沟 30V/20A兼容STD1703APM3023NUC TO252 N沟道 30V/30A兼容AOD408,AP40T03…APM3095PUC TO252 N沟道 30V/8AAP2014NUC TO252 N沟道 20V/40A兼容SOD434,AP9T18GAPM9410KC SOP8 N沟通道30V/8A，APM4435KC SOP8 P沟道 30V/8AAPM2506NUC TO252 N沟道 25V50A兼容 06N03,AO472,AP86T02, STD70N02,60N03…APM2509NUC TO252 N沟道 25V50A兼容09N03,AO452,AP72T02,STD90N02,70N03…APM7313KC SOP8 双N沟道 30V/6A兼容IRF7313,AO48002、PWM(DC-DC升/降压IC)：DC-DC升压IC：APW7077AAPW7077A是一颗升压PWM控制器，超低的启动电压（0.9V），工作电压为（0.9V～5.5V），内置软启动和固定的300K频率，APW7077A本身的驱动能力为150mA，SOT-25封装，和AP1624，NCP1450，XC6368兼容。

JUMO dTRANS p20 DELTA Ex d带防爆外壳的差压变送器简述JUMO DTRANS P20 Delta Ex d 压差变送器集最大精度和简单操作于一体，用于测量气体、蒸汽 和液体的压差。

集成液晶显示屏显示测量值和设备数据。

防爆型“Ex ia （本安型）”允许设备安装到0区。

外壳和传感器由高级不锈钢制成。

隔膜密封也可用于特定工艺技术应用(见数据单409772 至409784)。

该设备具有可编程性，因此很容易适应各种不同的测量任务。

一个易于使用的设置程序作为附件， 可通过接口启动操作。

旋转按键使现场手动操作非常方便快捷。

根据2.0版DIN EN 61508/-1/-2，对具有4至20 mA 和HART®协议的压力变送器进行安全功能评 估，并由T ÜV Nord 认证。

这些测量设备适用于监测过程液位和压力，最高可达SIL2。

更多详情请参见安全手册。

“Ex ia ”防爆版本见数据表403022。

有关表压和绝压版本，请参见数据表403025和403026。

型号 403023流程图特点• 不锈钢外壳• SIL 认证(T ÜV Nord) • HART ®接口• 防爆 Ex d (气体和灰尘) 参考 ATEX 和EAC • 线性度 0.07 % • 带旋转按键使操作简单 • 设置程序• 带条形图的LCD 显示屏 • 显示选择测量单元 • 显示传感器温度 • 显示最大最小压力 • 电流发生器功能• 特征线和显示器也可用于调节测量流量认证/认证标识(见"数据单")数据单基本信息b JUMO接口不得用于潜在爆炸区域！在这种情况下，可通过旋转按键或HART®接口操作输入输出电源电源DC 12 至 36 V 机械特性环境条件b 在-40至-50°C范围内，设备必须持续运行。

此外，设备带有检查玻璃的盖子是为了防止机械冲击和冲击效应。

深圳市注海科技有限公司地址：深圳市福田区车公庙泰然六路红松大厦B座1002NCC授权代理商点击进入NIPPON CHEMI-CON授权代理商-深圳市注海科技有限公司(POURINSEA)创立于2006年，2018年销售3.6亿元，热销产品：产品型号品牌产品型号品牌产品型号品牌APMA160ARA560MF30S NCC EMVA630ARA331MKG5S NCC EMVY160GRA471MHA0G NCCAPMA160ARA680MF30S NCC EMVA630ARA331MLH0S NCC EMVY160GRA681MJA0G NCCAPMA200ARA390MF30S NCC EMVA630ARA471MLH0S NCC EMVY160GRA102MKE0S NCCAPMA200ARA470MF30S NCC EMVA630ARA471MMH0S NCC EMVY160GRA102MLH0S NCCAPMA250ARA220MF30S NCC EMVA630GRA331MLH0S NCC EMVY160GRA222MLH0S NCCAPMA250ARA330MF30S NCC EMVA630GRA471MLH0S NCC EMVY160GRA222MMH0S NCCAPXN2R5ARA331ME61G NCC EMVA630GRA471MMH0S NCC EMVY160GRA332MLN0S NCCAPXN2R5ARA561MF61G NCC EMVA101ARA220MHA0G NCC EMVY160GRA332MMH0S NCCAPXN6R3ARA221ME61G NCC EMVA101ARA330MJA0G NCC EMVY160GRA472MMN0S NCCAPXN6R3ARA331MF61G NCC EMVA101ARA680MKE0S NCC EMVY250ARA100ME55G NCCAPXN6R3ARA561MH70G NCC EMVA101ARA101MKE0S NCC EMVY250ARA220MF55G NCCAPXN6R3ARA122MJ80G NCC EMVA101ARA221MLN0S NCC EMVY250ARA330MF55G NCCAPXN100ARA121ME61G NCC EMVA101ARA221MMH0S NCC EMVY250ARA470MF55G NCCAPXN100ARA181MF61G NCC EMVA101ARA331MMN0S NCC EMVY250ARA101MF80G NCCAPXN100ARA271MH70G NCC EMVA101GRA221MLN0S NCC EMVY250ARA221MHA0G NCCAPXN100ARA561MJ80G NCC EMVA101GRA221MMH0S NCC EMVY250ARA331MHA0G NCCAPXN160ARA560ME61G NCC EMVA101GRA331MMN0S NCC EMVY250ARA471MJA0G NCCAPXN160ARA101MF61G NCC EMVA161ARA470MKG5S NCC EMVY250ARA102MLH0S NCCAPXN160ARA151MH70G NCC EMVA161ARA680MLH0S NCC EMVY250ARA102MMH0S NCCAPXN160ARA331MJ80G NCC EMVA161ARA101MLN0S NCC EMVY250ARA222MLN0S NCCAPXT2R5ARA331ME61G NCC EMVA161ARA101MMH0S NCC EMVY250ARA222MMN0S NCCAPXT2R5ARA391ME61G NCC EMVA161GRA680MLH0S NCC EMVY250ARA332MMN0S NCCAPXT2R5ARA391MF61G NCC EMVA161GRA101MLN0S NCC EMVY250GRA221MHA0G NCCAPXT2R5ARA561MF61G NCC EMVA161GRA101MMH0S NCC EMVY250GRA331MHA0G NCCAPXT2R5ARA821MF80G NCC EMVA201ARA220MKE0S NCC EMVY250GRA471MJA0G NCCAPXT4R0ARA271ME61G NCC EMVA201ARA330MKG5S NCC EMVY250GRA102MLH0S NCCAPXT4R0ARA331MF61G NCC EMVA201ARA470MLH0S NCC EMVY250GRA102MMH0S NCCAPXT4R0ARA391MF61G NCC EMVA201ARA680MLN0S NCC EMVY250GRA222MLN0S NCCAPXT4R0ARA681MF80G NCC EMVA201ARA680MMH0S NCC EMVY250GRA222MMN0S NCCAPXT6R3ARA151ME61G NCC EMVA201ARA101MMN0S NCC EMVY250GRA332MMN0S NCCAPXT6R3ARA221ME61G NCC EMVA201GRA470MLH0S NCC EMVY350ARA4R7MD55G NCCAPXT6R3ARA221MF61G NCC EMVA201GRA680MLN0S NCC EMVY350ARA100ME55G NCCAPXT6R3ARA331MF61G NCC EMVA201GRA680MMH0S NCC EMVY350ARA220MF55G NCCAPXT6R3ARA561MF80G NCC EMVA201GRA101MMN0S NCC EMVY350ARA330MF55G NCCAPXT100ARA121ME61G NCC EMVA251ARA100MKE0S NCC EMVY350ARA470MF55G NCCAPXT100ARA221MF61G NCC EMVA251ARA220MKG5S NCC EMVY350ARA470MF61G NCCAPXT100ARA391MF80G NCC EMVA251ARA330MLH0S NCC EMVY350ARA680MF80G NCCAPXT160ARA101ME61G NCC EMVA251ARA470MLN0S NCC EMVY350ARA101MHA0G NCCAPXT160ARA181MF61G NCC EMVA251ARA470MMH0S NCC EMVY350ARA221MHA0G NCCAPXT160ARA271MF80G NCC EMVA251ARA680MMN0S NCC EMVY350ARA331MJA0G NCC APXJ2R5ARA821MF61G NCC EMVA251GRA330MLH0S NCC EMVY350ARA471MKE0S NCC APXJ2R5ARA821MF80G NCC EMVA251GRA470MLN0S NCC EMVY350ARA471MLH0S NCC APXJ2R5ARA821MFA0G NCC EMVA251GRA470MMH0S NCC EMVY350ARA102MLH0S NCC APXJ2R5ARA102MFA0G NCC EMVA251GRA680MMN0S NCC EMVY350ARA102MMH0S NCC APXJ2R5ARA122MFA0G NCC EMVA401ARA4R7MKE0S NCC EMVY350ARA222MMN0S NCC APXJ2R5ARA122MH70G NCC EMVA401ARA100MLH0S NCC EMVY350GRA101MHA0G NCC APXJ6R3ARA391MF61G NCC EMVA401ARA220MLN0S NCC EMVY350GRA221MHA0G NCC APXJ6R3ARA561MF80G NCC EMVA401ARA220MMH0S NCC EMVY350GRA331MJA0G NCC APXJ6R3ARA561MFA0G NCC EMVA401ARA330MMN0S NCC EMVY350GRA471MKE0S NCC APXJ6R3ARA681MH70G NCC EMVA401GRA100MLH0S NCC EMVY350GRA471MLH0S NCC APXJ100ARA271MF61G NCC EMVA401GRA220MLN0S NCC EMVY350GRA102MLH0S NCC APXJ100ARA391MF80G NCC EMVA401GRA220MMH0S NCC EMVY350GRA102MMH0S NCC APXJ100ARA391MFA0G NCC EMVA401GRA330MMN0S NCC EMVY350GRA222MMN0S NCC APXJ100ARA471MH70G NCC EMVA451ARA4R7MKE0S NCC EMVY500ARA1R0MD55G NCC APXJ160ARA221MF61G NCC EMVA451ARA100MLH0S NCC EMVY500ARA2R2MD55G NCC APXJ160ARA271MF80J NCC EMVA451ARA220MLN0S NCC EMVY500ARA3R3MD55G NCC APXJ160ARA271MF80G NCC EMVA451ARA330MMN0S NCC EMVY500ARA4R7ME55G NCC APXJ160ARA271MFA0G NCC EMVA451GRA100MLH0S NCC EMVY500ARA100MF55G NCC APXJ160ARA391MH70G NCC EMVA451GRA220MLN0S NCC EMVY500ARA220MF55G NCC APXJ200ARA151MF61G NCC EMVA451GRA330MMN0S NCC EMVY500ARA330MF80G NCC APXJ200ARA151MF80G NCC EMVE6R3ARA220MD55G NCC EMVY500ARA470MF80G NCC APXJ200ARA151MFA0G NCC EMVE6R3ARA330ME55G NCC EMVY500ARA680MHA0G NCC APXJ200ARA221MH70G NCC EMVE6R3ARA470ME55G NCC EMVY500ARA101MHA0G NCC APXJ250ARA560MF61G NCC EMVE6R3ARA101MF55G NCC EMVY500ARA221MJA0G NCC APXJ250ARA820MF80G NCC EMVE6R3ARA221MF80G NCC EMVY500ARA331MKE0S NCC APXJ250ARA820MFA0G NCC EMVE6R3ARA331MHA0G NCC EMVY500ARA331MLH0S NCC APXJ250ARA121MH70G NCC EMVE6R3ARA471MHA0G NCC EMVY500ARA471MLH0S NCC APXG160ARA390ME46G NCC EMVE6R3ARA681MHA0G NCC EMVY500ARA471MMH0S NCC APXG160ARA680MF45G NCC EMVE6R3ARA102MJA0G NCC EMVY500ARA102MMN0S NCC APXG160ARA101ME61G NCC EMVE6R3ARA152MJA0G NCC EMVY630ARA680MKE0S NCC APXG160ARA181MF61G NCC EMVE6R3ARA222MKE0S NCC EMVY630ARA101MKE0S NCC APXG160ARA221MF80G NCC EMVE6R3ARA222MLH0S NCC EMVY630ARA221MKE0S NCC APXG160ARA271MH70G NCC EMVE6R3GRA222MLH0S NCC EMVY630ARA221MLH0S NCC APXG160ARA331MH70G NCC EMVE6R3ARA332MKG5S NCC EMVY630ARA331MLH0S NCC APXG160ARA331MH80G NCC EMVE6R3ARA332MMH0S NCC EMVY630ARA331MMH0S NCC APXG160ARA331MHA0G NCC EMVE6R3ARA472MLN0S NCC EMVY630ARA471MLN0S NCC APXG160ARA561MHA0G NCC EMVE6R3ARA472MMH0S NCC EMVY630ARA471MMH0S NCC APXG160ARA561MJ80G NCC EMVE6R3ARA682MLN0S NCC EMVY800ARA101MKE0S NCC APXG160ARA821MJA0G NCC EMVE6R3ARA682MMN0S NCC EMVY800ARA221MKG5S NCC APXG160ARA821MJC0G NCC EMVE6R3GRA332MMH0S NCC EMVY800ARA331MLN0S NCC APXG160ARA102MJA0G NCC EMVE6R3GRA472MLN0S NCC EMVY800ARA331MMH0S NCC APXG160ARA102MJC0G NCC EMVE6R3GRA472MMH0S NCC EMVY800ARA471MMN0S NCC APXG200ARA270ME46G NCC EMVE6R3GRA682MLN0S NCC EMVY101ARA470MKE0S NCC APXG200ARA470ME61G NCC EMVE6R3GRA682MMN0S NCC EMVY101ARA680MKE0S NCC APXG200ARA470MF45G NCC EMVE100ARA220ME55G NCC EMVY101ARA101MKE0S NCC APXG200ARA560ME61G NCC EMVE100ARA330ME55G NCC EMVY101ARA101MLH0S NCC APXG200ARA121MF61G NCC EMVE100ARA470MF55G NCC EMVY101ARA221MLN0S NCC APXG200ARA151MF80G NCC EMVE100ARA101MF55G NCC EMVY101ARA221MMH0S NCC APXG200ARA181MH70G NCC EMVE100ARA151MF80G NCC EMVY101ARA331MMN0S NCC APXG200ARA221MH80G NCC EMVE100ARA221MF80G NCC EMZF6R3ARA470ME73G NCC APXG200ARA221MHA0G NCC EMVE100ARA331MHA0G NCC EMZF6R3ARA101MF73G NCCAPXG200ARA391MHA0G NCC EMVE100ARA471MHA0G NCC EMVY500GRA680MHA0G NCC APXG200ARA391MJ80G NCC EMVE100ARA102MJA0G NCC EMVY500GRA101MHA0G NCC APXG200ARA561MJA0G NCC EMVE100ARA222MKG5S NCC EMVY500GRA221MJA0G NCC APXG250ARA100ME46G NCC EMVE100ARA222MLH0S NCC EMVY500GRA331MKE0S NCC APXG250ARA220ME61G NCC EMVE100ARA332MLH0S NCC EMVY500GRA331MLH0S NCC APXG250ARA220MF45G NCC EMVE100ARA332MMH0S NCC EMVY500GRA471MLH0S NCC APXG250ARA270ME61G NCC EMVE100ARA472MLN0S NCC EMVY500GRA471MMH0S NCC APXG250ARA390MF61G NCC EMVE100ARA472MMN0S NCC EMVY500GRA102MMN0S NCC APXG250ARA470MF61G NCC EMVE100GRA222MLH0S NCC EMVY630GRA680MKE0S NCC APXG250ARA560MF61G NCC EMVE100GRA332MLH0S NCC EMVY630GRA101MKE0S NCC APXG250ARA560MF80G NCC EMVE100GRA332MMH0S NCC EMVY630GRA221MKE0S NCC APXG250ARA680MH70G NCC EMVE100GRA472MLN0S NCC EMVY630GRA221MLH0S NCC APXG250ARA820MH80G NCC EMVE100GRA472MMN0S NCC EMVY630GRA331MLH0S NCC APXG250ARA101MHA0G NCC EMVE160ARA100MD55G NCC EMVY630GRA331MMH0S NCC APXG250ARA121MHA0G NCC EMVE160ARA220ME55G NCC EMVY630GRA471MLN0S NCC APXG250ARA151MJ80G NCC EMVE160ARA330MF55G NCC EMVY630GRA471MMH0S NCC APXG250ARA221MJA0G NCC EMVE160ARA470MF55G NCC EMVY800GRA101MKE0S NCC APXK2R5ARA221MF46G NCC EMVE160ARA101MF55G NCC EMVY800GRA221MKG5S NCC APXK2R5ARA331ME61G NCC EMVE160ARA151MF80G NCC EMVY800GRA331MLN0S NCC APXK2R5ARA331MF46G NCC EMVE160ARA221MF80G NCC EMVY800GRA331MMH0S NCC APXK2R5ARA561MF61G NCC EMVE160ARA331MHA0G NCC EMVY800GRA471MMN0S NCC APXK4R0ARA181MF46G NCC EMVE160ARA471MHA0G NCC EMVY101GRA470MKE0S NCC APXK4R0ARA221ME61G NCC EMVE160ARA681MJA0G NCC EMVY101GRA680MKE0S NCC APXK4R0ARA391MF61G NCC EMVE160ARA102MKE0S NCC EMVY101GRA101MKE0S NCC APXK6R3ARA151MF46G NCC EMVE160ARA102MLH0S NCC EMVY101GRA101MLH0S NCC APXK6R3ARA181ME61G NCC EMVE160ARA222MLH0S NCC EMVY101GRA221MLN0S NCC APXK6R3ARA221MF46G NCC EMVE160ARA222MMH0S NCC EMVY101GRA221MMH0S NCC APXK6R3ARA331MF61G NCC EMVE160ARA332MLN0S NCC EMVY101GRA331MMN0S NCC APXK160ARA101MF61G NCC EMVE160ARA332MMH0S NCC EMZF6R3GRA470ME73G NCC APXS4R0ARA561MH70G NCC EMVE160GRA102MLH0S NCC EMZF6R3GRA101MF73G NCC APXS6R3ARA121MF61G NCC EMVE160GRA222MLH0S NCC EMZF6R3ARA221MF90G NCC APXS6R3ARA221MF61G NCC EMVE160GRA222MMH0S NCC EMZF6R3ARA331MF90G NCC APXS6R3ARA391MH70G NCC EMVE160GRA332MLN0S NCC EMZF6R3ARA471MHA0G NCC APXS100ARA121MF61G NCC EMVE160GRA332MMH0S NCC EMZF100ARA330ME73G NCC APXS100ARA151MH70G NCC EMVE250ARA100ME55G NCC EMZF100ARA151MF73G NCC APXS160ARA390MF61G NCC EMVE250ARA220MF55G NCC EMZF160ARA220ME73G NCC APXS160ARA680MF61G NCC EMVE250ARA330MF55G NCC EMZF160ARA470MF73G NCC APXS160ARA820MH70G NCC EMVE250ARA470MF55G NCC EMZF160ARA101MF73G NCC APXS160ARA121MH70G NCC EMVE250ARA101MF80G NCC EMZF160ARA151MF90G NCC APXF2R5ARA391MF61G NCC EMVE250ARA151MHA0G NCC EMZF160ARA221MF90G NCC APXF2R5ARA471MF80G NCC EMVE250ARA221MHA0G NCC EMZF160ARA331MHA0G NCC APXF2R5ARA561MF61G NCC EMVE250ARA331MJA0G NCC EMZF160ARA471MJA0G NCC APXF2R0ARA681MF61G NCC EMVE250ARA471MJA0G NCC EMZF250ARA220ME73G NCC APXF2R5ARA221ME40G NCC EMVE250ARA102MLH0S NCC EMZF250ARA330MF73G NCC APXF2R5ARA331ME61G NCC EMVE250ARA102MMH0S NCC EMZF250ARA470MF73G NCC APXF2R5ARA331MF45G NCC EMVE250ARA222MLN0S NCC EMZF250ARA101MF90G NCC APXF2R5ARA391ME61G NCC EMVE250ARA222MMN0S NCC EMZF250ARA221MHA0G NCC APXF2R5ARA561MF80G NCC EMVE250GRA102MLH0S NCC EMZF250ARA331MJA0G NCC APXF2R5ARA561MH70G NCC EMVE250GRA102MMH0S NCC EMZF350ARA100ME73G NCC APXF2R5ARA681MH70G NCC EMVE250GRA222MLN0S NCC EMZF350ARA100MF73G NCC APXF2R5ARA102MH80G NCC EMVE250GRA222MMN0S NCC EMZF350ARA220ME73G NCC APXF4R0ARA331MF61G NCC EMVE350ARA4R7MD55G NCC EMZF350ARA220MF73G NCCAPXF4R0ARA391MF80G NCC EMVE350ARA100ME55G NCC EMZF350ARA330MF90G NCC APXF4R0ARA471MH70G NCC EMVE350ARA220MF55G NCC EMZF350ARA470MF90G NCC APXF4R0ARA561MH70G NCC EMVE350ARA470MF80G NCC EMZF350ARA101MHA0G NCC APXF4R0ARA681MH80G NCC EMVE350ARA101MF80G NCC EMZF350ARA221MJA0G NCC APXF6R3ARA221MF61G NCC EMVE350ARA151MHA0G NCC EMZF500ARA470MHA0G NCC APXF6R3ARA271MF80G NCC EMVE350ARA221MJA0G NCC EMZF500ARA101MJA0G NCC APXF6R3ARA151ME61G NCC EMVE350ARA331MJA0G NCC EMZE6R3ARA470ME73G NCC APXF6R3ARA151ME40G NCC EMVE350ARA471MKE0S NCC EMZE6R3ARA101MF73G NCC APXF6R3ARA221ME61G NCC EMVE350ARA471MLH0S NCC EMZE6R3ARA221MF90G NCC APXF6R3ARA331MF61G NCC EMVE350ARA102MLH0S NCC EMZE6R3ARA331MF90G NCC APXF6R3ARA331MF80G NCC EMVE350ARA102MMH0S NCC EMZE6R3ARA471MHA0G NCC APXF6R3ARA331MH70G NCC EMVE350ARA222MMN0S NCC EMZE100ARA330ME73G NCC APXF6R3ARA391MH70G NCC EMVE350GRA471MLH0S NCC EMZE100ARA151MF73G NCC APXF6R3ARA471MH80G NCC EMVE350GRA102MLH0S NCC EMZE160ARA220ME73G NCC APXF6R3ARA561MH80G NCC EMVE350GRA102MMH0S NCC EMZE160ARA470MF73G NCC APXF100ARA121ME61G NCC EMVE350GRA222MMN0S NCC EMZE160ARA101MF73G NCC APXF100ARA271MF61G NCC EMVE500ARA1R0MD55G NCC EMZE160ARA151MF90G NCC APXF2R5ARA221ME46G NCC EMVE500ARA2R2MD55G NCC EMZE160ARA221MF90G NCC APXF6R3ARA151ME46G NCC EMVE500ARA3R3MD55G NCC EMZE160ARA331MHA0G NCC APXE2R5ARA181ME61G NCC EMVE500ARA4R7ME55G NCC EMZE160ARA471MJA0G NCC APXE2R5ARA391MF61G NCC EMVE500ARA100MF55G NCC EMZE250ARA220ME73G NCC APXE2R5ARA471MF80G NCC EMVE500ARA330MF80G NCC EMZE250ARA330MF73G NCC APXE2R5ARA561MF80G NCC EMVE500ARA470MF80G NCC EMZE250ARA470MF73G NCC APXE2R5ARA561MH70G NCC EMVE500ARA101MHA0G NCC EMZE250ARA101MF90G NCC APXE2R5ARA681MH70G NCC EMVE500ARA221MJA0G NCC EMZE250ARA221MHA0G NCC APXE2R5ARA821MH80G NCC EMVE500ARA331MKE0S NCC EMZE250ARA331MJA0G NCC APXE2R5ARA821MHC0G NCC EMVE500ARA331MLH0S NCC EMZE350ARA100ME73G NCC APXE2R5ARA102MH80G NCC EMVE500ARA471MLH0S NCC EMZE350ARA100MF73G NCC APXE2R5ARA122MJ80G NCC EMVE500ARA471MMH0S NCC EMZE350ARA220ME73G NCC APXE2R5ARA152MHA0G NCC EMVE500ARA102MMN0S NCC EMZE350ARA220MF73G NCC APXE2R5ARA152MHC0G NCC EMVE500GRA331MLH0S NCC EMZE350ARA330MF90G NCC APXE2R5ARA222MJA0G NCC EMVE500GRA471MLH0S NCC EMZE350ARA470MF90G NCC APXE2R5ARA272MJC0G NCC EMVE500GRA471MMH0S NCC EMZE350ARA101MHA0G NCC APXE4R0ARA101ME61G NCC EMVE500GRA102MMN0S NCC EMZE350ARA221MJA0G NCC APXE4R0ARA151ME61G NCC EMVE630ARA1R0MD55G NCC EMZE500ARA470MHA0G NCC APXE4R0ARA271MF61G NCC EMVE630ARA2R2MD55G NCC EMZE500ARA101MJA0G NCC APXE4R0ARA331MF61G NCC EMVE630ARA3R3ME55G NCC EMZK6R3ARA101ME61G NCC APXE4R0ARA391MF80G NCC EMVE630ARA4R7MF55G NCC EMZK100ARA151MF61G NCC APXE4R0ARA471MH70G NCC EMVE630ARA100MF55G NCC EMZK160ARA330ME61G NCC APXE4R0ARA561MH70G NCC EMVE630ARA220MF80G NCC EMZK160ARA470ME61G NCC APXE4R0ARA681MH80G NCC EMVE630ARA330MHA0G NCC EMZK160ARA101MF61G NCC APXE4R0ARA102MHA0G NCC EMVE630ARA470MHA0G NCC EMZK250ARA680MF61G NCC APXE4R0ARA102MJ80G NCC EMVE630ARA101MJA0G NCC EMZK350ARA100ME61G NCC APXE4R0ARA122MHC0G NCC EMVE630ARA221MKE0S NCC EMZK350ARA100MF61G NCC APXE4R0ARA122MJA0G NCC EMVE630ARA221MLH0S NCC EMZK350ARA220ME61G NCC APXE4R0ARA152MJA0G NCC EMVE630ARA331MLH0S NCC EMZK350ARA220MF61G NCC APXE4R0ARA182MJA0G NCC EMVE630ARA331MMH0S NCC EMZK350ARA330MF61G NCC APXE4R0ARA182MJC0G NCC EMVE630ARA471MLN0S NCC EMZK350ARA470MF61G NCC APXE6R3ARA101ME61G NCC EMVE630GRA221MLH0S NCC EMLA6R3ARA470ME61G NCC APXE6R3ARA121ME61G NCC EMVE630GRA331MLH0S NCC EMLA6R3ARA101MF61G NCC APXE6R3ARA221MF61G NCC EMVE630GRA331MMH0S NCC EMLA6R3ARA151MF61G NCC APXE6R3ARA271MF80G NCC EMVE630GRA471MLN0S NCC EMLA6R3ARA221MF80G NCCAPXE6R3ARA331MF80G NCC EMVE101ARA220MHA0G NCC EMLA6R3ARA331MF80G NCC APXE6R3ARA331MH70G NCC EMVE101ARA330MJA0G NCC EMLA6R3ARA331MHA0G NCC APXE6R3ARA391MH70G NCC EMVE101ARA470MKE0S NCC EMLA6R3ARA471MHA0G NCC APXE6R3ARA471MH80G NCC EMVE101ARA680MKE0S NCC EMLA6R3ARA102MJA0G NCC APXE6R3ARA821MHA0G NCC EMVE101ARA101MKE0S NCC EMLA100ARA330ME61G NCC APXE6R3ARA821MHC0G NCC EMVE101ARA101MLH0S NCC EMLA100ARA470MF61G NCC APXE6R3ARA821MJ80G NCC EMVE101ARA221MLN0S NCC EMLA100ARA101MF61G NCC APXE6R3ARA122MJA0G NCC EMVE101ARA221MMH0S NCC EMLA100ARA151MF61G NCC APXE6R3ARA152MJA0G NCC EMVE101ARA331MMN0S NCC EMLA100ARA221MF80G NCC APXE6R3ARA152MJC0G NCC EMVE101GRA101MLH0S NCC EMLA100ARA221MHA0G NCC APXE100ARA470ME61G NCC EMVE101GRA221MLN0S NCC EMLA100ARA331MHA0G NCC APXE100ARA560ME61G NCC EMVE101GRA221MMH0S NCC EMLA100ARA471MHA0G NCC APXE100ARA680ME61G NCC EMVE101GRA331MMN0S NCC EMLA160ARA220ME61G NCC APXE100ARA121MF61G NCC EMVE161ARA330MKE0S NCC EMLA160ARA330MF61G NCC APXE100ARA151MF80G NCC EMVE161ARA470MLH0S NCC EMLA160ARA470MF61G NCC APXE100ARA221MH70G NCC EMVE161ARA680MLN0S NCC EMLA160ARA101MF61G NCC APXE100ARA271MH70G NCC EMVE161ARA680MMH0S NCC EMLA160ARA101MF80G NCC APXE100ARA331MH80G NCC EMVE161ARA101MLN0S NCC EMLA160ARA151MF80G NCC APXE100ARA391MHA0G NCC EMVE161GRA470MLH0S NCC EMLA160ARA221MF80G NCC APXE100ARA471MJ80G NCC EMVE161GRA680MLN0S NCC EMLA160ARA221MHA0G NCC APXE100ARA681MJA0G NCC EMVE161GRA680MMH0S NCC EMLA160ARA331MHA0G NCC APXE160ARA330ME61G NCC EMVE161GRA101MLN0S NCC EMLA160ARA471MHA0G NCC APXE160ARA390ME61G NCC EMVE201ARA100MKE0S NCC EMLA160ARA471MJA0G NCC APXE160ARA680MF61G NCC EMVE201ARA220MKG5S NCC EMLA250ARA100ME61G NCC APXE160ARA820MF80G NCC EMVE201ARA330MLH0S NCC EMLA250ARA220ME61G NCC APXE160ARA101MF80G NCC EMVE201ARA470MLN0S NCC EMLA250ARA220MF61G NCC APXE160ARA101MH70G NCC EMVE201ARA470MMH0S NCC EMLA250ARA330MF61G NCC APXE160ARA121MH70G NCC EMVE201ARA680MMN0S NCC EMLA250ARA470MF61G NCC APXE160ARA151MH80G NCC EMVE201GRA330MLH0S NCC EMLA250ARA470MF80G NCC APXE160ARA181MHA0G NCC EMVE201GRA470MLN0S NCC EMLA250ARA101MF80G NCC APXE160ARA221MHA0G NCC EMVE201GRA470MMH0S NCC EMLA250ARA101MHA0G NCC APXE160ARA221MJ80G NCC EMVE201GRA680MMN0S NCC EMLA250ARA151MHA0G NCC APXE160ARA331MJA0G NCC EMVE251ARA4R7MKE0S NCC EMLA250ARA221MHA0G NCC APXA2R5ARA221MF60G NCC EMVE251ARA100MKG5S NCC EMLA250ARA331MHA0G NCC APXA2R5ARA561MH70G NCC EMVE251ARA220MLH0S NCC EMLA250ARA331MJA0G NCC APXA2R5ARA681MHC0G NCC EMVE251ARA330MLN0S NCC EMLA250ARA471MJA0G NCC APXA2R5ARA102MJ80G NCC EMVE251ARA330MMH0S NCC EMLA350ARA100ME61G NCC APXA2R5ARA152MJC0G NCC EMVE251ARA470MMN0S NCC EMLA350ARA220MF61G NCC APXA4R0ARA101MF60G NCC EMVE251GRA220MLH0S NCC EMLA350ARA330MF61G NCC APXA4R0ARA121MF45G NCC EMVE251GRA330MLN0S NCC EMLA350ARA330MF80G NCC APXA4R0ARA151ME60G NCC EMVE251GRA330MMH0S NCC EMLA350ARA470MF80G NCC APXA4R0ARA151MF60G NCC EMVE251GRA470MMN0S NCC EMLA350ARA101MF80G NCC APXA4R0ARA221MH70G NCC EMVE401ARA4R7MKG5S NCC EMLA350ARA101MHA0G NCC APXA4R0ARA331MH70G NCC EMVE401ARA100MLH0S NCC EMLA350ARA151MHA0G NCC APXA4R0ARA471MJ80G NCC EMVE401ARA220MMN0S NCC EMLA350ARA221MHA0G NCC APXA4R0ARA561MHC0G NCC EMVE401GRA100MLH0S NCC EMLA350ARA221MJA0G NCC APXA4R0ARA681MJ80G NCC EMVE401GRA220MMN0S NCC EMLA350ARA331MJA0G NCC APXA4R0ARA821MJC0G NCC EMVE451ARA3R3MKE0S NCC EMLA500ARA100MF61G NCC APXA4R0ARA122MJC0G NCC EMVE451ARA4R7MKG5S NCC EMLA500ARA220MF61G NCC APXA6R3ARA470ME60G NCC EMVE451ARA100MLH0S NCC EMLA500ARA330MF80G NCC APXA6R3ARA680MF60G NCC EMVE451ARA220MMN0S NCC EMLA500ARA470MF80G NCC APXA6R3ARA820MF45G NCC EMZS250ARA471MHA0G NCC EMLA500ARA470MHA0G NCCAPXA6R3ARA820MF60G NCC EMZS250ARA561MHA0G NCC EMLA500ARA101MHA0G NCC APXA6R3ARA101ME60G NCC EMZS250ARA821MJA0G NCC EMLA500ARA101MJA0G NCC APXA6R3ARA101MF45G NCC EMZS250ARA102MJA0G NCC EMLA500ARA151MJA0G NCC APXA6R3ARA101MF60G NCC EMZS350ARA331MHA0G NCC EMLA500ARA221MJA0G NCC APXA6R3ARA121MF60G NCC EMZS350ARA411MHA0G NCC EMLF6R3ARA220MD73G NCC APXA6R3ARA151MH70G NCC EMZS350ARA471MHA0G NCC EMLF6R3ARA470ME73G NCC APXA6R3ARA221MH70G NCC EMZS350ARA561MJA0G NCC EMLF6R3ARA101MF73G NCC APXA6R3ARA331MJ80G NCC EMZS350ARA681MJA0G NCC EMLF6R3ARA221MF90G NCC APXA6R3ARA391MHC0G NCC EMVE451GRA100MLH0S NCC EMLF6R3ARA331MHA0G NCC APXA6R3ARA471MHC0G NCC EMVE451GRA220MMN0S NCC EMLF6R3ARA102MJA0G NCC APXA6R3ARA471MJ80G NCC EMZS250GRA471MHA0G NCC EMLF100ARA330ME73G NCC APXA6R3ARA681MJC0G NCC EMZS250GRA561MHA0G NCC EMLF100ARA221MHA0G NCC APXA6R3ARA821MJC0G NCC EMZS250GRA821MJA0G NCC EMLF160ARA100MD73G NCC APXA100ARA330ME60G NCC EMZS250GRA102MJA0G NCC EMLF160ARA220ME73G NCC APXA100ARA470ME60G NCC EMZS350GRA331MHA0G NCC EMLF160ARA470MF73G NCC APXA100ARA470MF45G NCC EMZS350GRA411MHA0G NCC EMLF160ARA101MF90G NCC APXA100ARA470MF60G NCC EMZS350GRA471MHA0G NCC EMLF160ARA471MJA0G NCC APXA100ARA560MF60G NCC EMZS350GRA561MJA0G NCC EMLF250ARA330MF73G NCC APXA100ARA121MH70G NCC EMZS350GRA681MJA0G NCC EMLF250ARA470MF90G NCC APXA100ARA151MH70G NCC EMZR6R3ARA221ME61G NCC EMLF250ARA101MHA0G NCC APXA100ARA271MHC0G NCC EMZR6R3ARA331MF61G NCC EMLF350ARA1R0MD73G NCC APXA100ARA271MJ80G NCC EMZR6R3ARA681MF80G NCC EMLF350ARA2R2MD73G NCC APXA100ARA331MHC0G NCC EMZR6R3ARA152MHA0G NCC EMLF350ARA3R3MD73G NCC APXA100ARA331MJ80G NCC EMZR6R3ARA222MJA0G NCC EMLF350ARA4R7MD73G NCC APXA100ARA471MJC0G NCC EMZR6R3GRA152MHA0G NCC EMLF350ARA4R7ME73G NCC APXA100ARA561MJC0G NCC EMZR6R3GRA222MJA0G NCC EMLF350ARA100ME73G NCC APXA160ARA220ME60G NCC EMZR100ARA151ME61G NCC EMLF350ARA100MF73G NCC APXA160ARA220MF45G NCC EMZR100ARA221MF61G NCC EMLF350ARA220MF73G NCC APXA160ARA330MF60G NCC EMZR100ARA471MF80G NCC EMLF350ARA220MF90G NCC APXA160ARA390MF60G NCC EMZR100ARA102MHA0G NCC EMLF350ARA330MF90G NCC APXA160ARA820MH70G NCC EMZR100ARA152MJA0G NCC EMLF500ARA330MHA0G NCC APXA160ARA151MJ80G NCC EMZR100GRA102MHA0G NCC EMLF500ARA470MHA0G NCC APXA160ARA181MHC0G NCC EMZR100GRA152MJA0G NCC EMLF500ARA101MJA0G NCC APXA160ARA181MJ80G NCC EMZR160ARA101ME61G NCC EMLE6R3ARA220MD73G NCC APXA160ARA221MJC0G NCC EMZR160ARA221MF61G NCC EMLE6R3ARA470ME73G NCC APXA160ARA331MJC0G NCC EMZR160ARA331MF80G NCC EMLE6R3ARA101MF73G NCC APXA200ARA150MF45G NCC EMZR160ARA681MHA0G NCC EMLE6R3ARA221MF90G NCC APXA200ARA220MF60G NCC EMZR160ARA102MJA0G NCC EMLE6R3ARA331MHA0G NCC APXA200ARA390MH70G NCC EMZR160GRA681MHA0G NCC EMLE6R3ARA102MJA0G NCC APXA200ARA470MH70G NCC EMZR160GRA102MJA0G NCC EMLE100ARA330ME73G NCC APXA200ARA820MJ80G NCC EMZR250ARA680ME61G NCC EMLE100ARA221MHA0G NCC APXA200ARA151MJC0G NCC EMZR250ARA101MF61G NCC EMLE160ARA100MD73G NCC APXA230ARA150MF45G NCC EMZR250ARA221MF80G NCC EMLE160ARA220ME73G NCC APXA250ARA100MF60G NCC EMZR250ARA471MHA0G NCC EMLE160ARA470MF73G NCC APXA250ARA220MH70G NCC EMZR250ARA821MJA0G NCC EMLE160ARA101MF90G NCC APXA250ARA390MJ80G NCC EMZR250GRA471MHA0G NCC EMLE160ARA471MJA0G NCC APXD2R5ARA121ME61G NCC EMZR250GRA821MJA0G NCC EMLE250ARA330MF73G NCC APXD2R5ARA221MF61G NCC EMZR350ARA470ME61G NCC EMLE250ARA470MF90G NCC APXD6R3ARA560ME61G NCC EMZR350ARA101MF61G NCC EMLE250ARA101MHA0G NCC APXD6R3ARA101MF61G NCC EMZR350ARA151MF80G NCC EMLE350ARA1R0MD73G NCC APXD6R3ARA221MH70G NCC EMZR350ARA331MHA0G NCC EMLE350ARA2R2MD73G NCC APXD6R3ARA471MJ80G NCC EMZR350ARA561MJA0G NCC EMLE350ARA3R3MD73G NCCAPXD100ARA470ME61G NCC EMZR350GRA331MHA0G NCC EMLE350ARA4R7MD73G NCC APXD100ARA560MF61G NCC EMZR350GRA561MJA0G NCC EMLE350ARA4R7ME73G NCC APXD100ARA151MH70G NCC EMZR500ARA220ME61G NCC EMLE350ARA100ME73G NCC APXD100ARA331MJ80G NCC EMZR500ARA470MF61G NCC EMLE350ARA100MF73G NCC APXH2R5ARA221MF60G NCC EMZR500ARA101MF80G NCC EMLE350ARA220MF73G NCC APXH2R5ARA561MH70G NCC EMZR500ARA221MHA0G NCC EMLE350ARA220MF90G NCC APXH2R5ARA102MJ80G NCC EMZR500ARA331MJA0G NCC EMLE350ARA330MF90G NCC APXH4R0ARA151MF60G NCC EMZR500GRA221MHA0G NCC EMLE350ARA221MJA0G NCC APXH4R0ARA221MH70G NCC EMZR500GRA331MJA0G NCC EMLE500ARA330MHA0G NCC APXH4R0ARA681MJ80G NCC EMZJ6R3ARA101ME61G NCC EMLE500ARA470MHA0G NCC APXH6R3ARA820MF60G NCC EMZJ6R3ARA221MF61G NCC EMLE500ARA101MJA0G NCC APXH6R3ARA101MF60G NCC EMZJ6R3ARA331MF80G NCC EMLK6R3ARA470ME61G NCC APXH6R3ARA151MH70G NCC EMZJ6R3ARA102MHA0G NCC EMLK6R3ARA101MF61G NCC APXH6R3ARA221MH70G NCC EMZJ6R3ARA152MJA0G NCC EMLK100ARA330ME61G NCC APXH6R3ARA471MJ80G NCC EMZJ6R3ARA182MJA0G NCC EMLK160ARA220ME61G NCC APXH100ARA560MF60G NCC EMZJ6R3GRA102MHA0G NCC EMLK160ARA470MF61G NCC APXH100ARA121MH70G NCC EMZJ6R3GRA152MJA0G NCC EMLK250ARA330MF61G NCC APXH100ARA151MH70G NCC EMZJ6R3GRA182MJA0G NCC EMLK350ARA4R7ME61G NCC APXH100ARA331MJ80G NCC EMZJ100ARA151MF61G NCC EMLK350ARA100ME61G NCC APXH160ARA390MF60G NCC EMZJ100ARA681MHA0G NCC EMLK350ARA100MF61G NCC APXH160ARA820MH70G NCC EMZJ100ARA102MJA0G NCC EMLK350ARA220MF61G NCC APXH160ARA151MJ80G NCC EMZJ100ARA122MJA0G NCC EMVL6R3ARA220MD60G NCC APXH160ARA181MJ80G NCC EMZJ100GRA681MHA0G NCC EMVL6R3ARA470ME60G NCC APXH200ARA220MF60G NCC EMZJ100GRA102MJA0G NCC EMVL6R3ARA101MF60G NCC APXH200ARA470MH70G NCC EMZJ100GRA122MJA0G NCC EMVL6R3ARA221MF80G NCC APXH200ARA820MJ80G NCC EMZJ160ARA470ME61G NCC EMVL6R3ARA331MHA0G NCC HHXE160ARA820MF61G NCC EMZJ160ARA101MF61G NCC EMVL6R3ARA102MJA0G NCC HHXE160ARA151MF80G NCC EMZJ160ARA151MF80G NCC EMVL100ARA330ME60G NCC HHXE160ARA271MHA0G NCC EMZJ160ARA221MF80G NCC EMVL100ARA221MHA0G NCC HHXE160ARA471MJA0G NCC EMZJ160ARA471MHA0G NCC EMVL160ARA100MD60G NCC HHXE160GGRA271MHA0G NCC EMZJ160ARA681MJA0G NCC EMVL160ARA220ME60G NCC HHXE160GRA471MJA0G NCC EMZJ160ARA821MJA0G NCC EMVL160ARA470MF60G NCC HHXE250ARA560MF61G NCC EMZJ160GRA471MHA0G NCC EMVL160ARA101MF80G NCC HHXE250ARA101MF80G NCC EMZJ160GRA681MJA0G NCC EMVL160ARA471MJA0G NCC HHXE250ARA221MHA0G NCC EMZJ160GRA821MJA0G NCC EMVL250ARA330MF60G NCC HHXE250ARA331MJA0G NCC EMZJ250ARA220ME61G NCC EMVL250ARA470MF80G NCC HHXE250GRA221MHA0G NCC EMZJ250ARA330ME61G NCC EMVL250ARA101MHA0G NCC HHXE250GRA331MJA0G NCC EMZJ250ARA330MF61G NCC EMVL350ARA4R7MD60G NCC HHXE350ARA470MF61G NCC EMZJ250ARA470MF61G NCC EMVL350ARA100ME60G NCC HHXE350ARA680MF80G NCC EMZJ250ARA680MF61G NCC EMVL350ARA220MF60G NCC HHXE350ARA151MHA0G NCC EMZJ250ARA101MF80G NCC EMVL350ARA330MF80G NCC HHXE350ARA271MJA0G NCC EMZJ250ARA331MHA0G NCC EMVL350ARA221MJA0G NCC HHXE350GRA151MHA0G NCC EMZJ250ARA471MJA0G NCC EMVL500ARA1R0MD60G NCC HHXE350GRA271MJA0G NCC EMZJ250ARA561MJA0G NCC EMVL500ARA2R2MD60G NCC HHXC160ARA470ME61G NCC EMZJ250GRA331MHA0G NCC EMVL500ARA3R3MD60G NCC HHXC160ARA820MF61G NCC EMZJ250GRA471MJA0G NCC EMVL500ARA4R7ME60G NCC HHXC160ARA151MF80G NCC EMZJ250GRA561MJA0G NCC EMVL500ARA100MF60G NCC HHXC160ARA271MHA0G NCC EMZJ350ARA220ME61G NCC EMVL500ARA220MF80G NCC HHXC160ARA471MJA0G NCC EMZJ350ARA330MF61G NCC EMVL500ARA330MHA0G NCC HHXC160GRA271MHA0G NCC EMZJ350ARA470MF61G NCC EMVL500ARA470MHA0G NCC HHXC160GRA471MJA0G NCC EMZJ350ARA680MF61G NCC EMVL500ARA101MJA0G NCC HHXC250ARA330ME61G NCC EMZJ350ARA101MF80G NCC EMVJ6R3ARA220MD60G NCCHHXC250ARA470MF61G NCC EMZJ350ARA101MHA0G NCC EMVJ6R3ARA470ME60G NCC HHXC250ARA560MF61G NCC EMZJ350ARA151MHA0G NCC EMVJ6R3ARA101MF60G NCC HHXC250ARA680MF80G NCC EMZJ350ARA221MHA0G NCC EMVJ160ARA100MD60G NCC HHXC250ARA101MF80G NCC EMZJ350ARA331MJA0G NCC EMVJ160ARA220ME60G NCC HHXC250ARA151MHA0G NCC EMZJ350ARA391MJA0G NCC EMVJ160ARA470MF60G NCC HHXC250ARA221MHA0G NCC EMZJ350GRA101MHA0G NCC EMVJ350ARA4R7MD60G NCC HHXC250ARA271MJA0G NCC EMZJ350GRA151MHA0G NCC EMVJ350ARA100ME60G NCC HHXC250ARA331MJA0G NCC EMZJ350GRA221MHA0G NCC EMVJ350ARA220MF60G NCC HHXC250GRA151MHA0G NCC EMZJ350GRA331MJA0G NCC EMVJ500ARA1R0MD60G NCC HHXC250GRA221MHA0G NCC EMZJ350GRA391MJA0G NCC EMVJ500ARA2R2MD60G NCC HHXC250GRA271MJA0G NCC EMZA6R3ARA220MD61G NCC EMVJ500ARA3R3MD60G NCC HHXC250GRA331MJA0G NCC EMZA6R3ARA470MD61G NCC EMVJ500ARA4R7ME60G NCC HHXC350ARA220ME61G NCC EMZA6R3ARA470ME61G NCC EMVJ500ARA100MF60G NCC HHXC350ARA270MF61G NCC EMZA6R3ARA101ME61G NCC EMHS160ARA152MKE0S NCC HHXC350ARA470MF61G NCC EMZA6R3ARA101MF61G NCC EMHS160ARA202MKG5S NCC HHXC350ARA470MF80G NCC EMZA6R3ARA221MF61G NCC EMHS160ARA272MLH0S NCC HHXC350ARA680MF80G NCC EMZA6R3ARA331MF80G NCC EMHS160ARA362MMH0S NCC HHXC350ARA101MHA0G NCC EMZA6R3ARA471MHA0G NCC EMHS160ARA472MLN0S NCC HHXC350ARA151MHA0G NCC EMZA6R3ARA102MHA0G NCC EMHS160ARA622MMN0S NCC HHXC350ARA151MJA0G NCC EMZA6R3ARA152MJA0G NCC EMHS250ARA102MKE0S NCC HHXC350ARA271MJA0G NCC EMZA6R3GRA471MHA0G NCC EMHS250ARA132MKG5S NCC HHXC350GRA101MHA0G NCC EMZA6R3GRA102MHA0G NCC EMHS250ARA182MLH0S NCC HHXC350GRA151MHA0G NCC EMZA6R3GRA152MJA0G NCC EMHS250ARA242MMH0S NCC HHXC350GRA151MJA0G NCC EMZA100ARA220MD61G NCC EMHS250ARA332MLN0S NCC HHXC350GRA271MJA0G NCC EMZA100ARA330MD61G NCC EMHS250ARA432MMN0S NCC HHXC500ARA100MF61G NCC EMZA100ARA330ME61G NCC EMHS350ARA681MKE0S NCC HHXC500ARA150MF80G NCC EMZA100ARA221MF80G NCC EMHS350ARA821MKG5S NCC HHXC500ARA220MF61G NCC EMZA100ARA331MHA0G NCC EMHS350ARA122MLH0S NCC HHXC500ARA330MF80G NCC EMZA100ARA471MHA0G NCC EMHS350ARA152MMH0S NCC HHXC500ARA330MHA0G NCC EMZA100ARA681MHA0G NCC EMHS350ARA202MLN0S NCC HHXC500ARA470MHA0G NCC EMZA100ARA102MJA0G NCC EMHS350ARA242MMN0S NCC HHXC500ARA560MJA0G NCC EMZA100GRA331MHA0G NCC EMHS500ARA361MKE0S NCC HHXC500ARA680MHA0G NCC EMZA100GRA471MHA0G NCC EMHS500ARA471MKG5S NCC HHXC500ARA101MJA0G NCC EMZA100GRA681MHA0G NCC EMHS500ARA561MLH0S NCC HHXC500ARA121MJA0G NCC EMZA100GRA102MJA0G NCC EMHS500ARA751MMH0S NCC HHXC500GRA330MHA0G NCC EMZA160ARA100MD61G NCC EMHS500ARA102MLN0S NCC HHXC500GRA470MHA0G NCC EMZA160ARA220MD61G NCC EMHS500ARA132MMN0S NCC HHXC500GRA560MJA0G NCC EMZA160ARA220ME61G NCC EMHS630ARA241MKE0S NCC HHXC500GRA680MHA0G NCC EMZA160ARA470ME61G NCC EMHS630ARA331MKG5S NCC HHXC500GRA101MJA0G NCC EMZA160ARA470MF61G NCC EMHS630ARA431MLH0S NCC HHXC500GRA121MJA0G NCC EMZA160ARA101MF61G NCC EMHS630ARA561MMH0S NCC HHXC630ARA6R8MF61G NCC EMZA160ARA221MF80G NCC EMHS630ARA681MLN0S NCC HHXC630ARA100MF61G NCC EMZA160ARA331MHA0G NCC EMHS630ARA911MMN0S NCC HHXC630ARA100MF80G NCC EMZA160ARA471MHA0G NCC EMHS800ARA181MKE0S NCC HHXC630ARA220MF80G NCC EMZA160ARA681MJA0G NCC EMHS800ARA241MKG5S NCC HHXC630ARA220MHA0G NCC EMZA160GRA331MHA0G NCC EMHS800ARA271MLH0S NCC HHXC630ARA330MHA0G NCC EMZA160GRA471MHA0G NCC EMHS800ARA361MMH0S NCC HHXC630ARA330MJA0G NCC EMZA160GRA681MJA0G NCC EMHS800ARA431MLN0S NCC HHXC630ARA470MHA0G NCC EMZA250ARA100MD61G NCC EMHS800ARA561MMN0S NCC HHXC630ARA560MJA0G NCC EMZA250ARA220ME61G NCC EMHS101ARA111MKE0S NCC HHXC630ARA820MJA0G NCC EMZA250ARA330ME61G NCC EMHS101ARA151MKG5S NCC HHXC630GRA220MHA0G NCC EMZA250ARA330MF61G NCC EMHS101ARA161MLH0S NCC。

ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and advise customers to obtain the latest version of relevant information to verify before placing orders.FeaturesGeneral Description•Wide Input Voltage from 4.5V to 24V •2A Continuous Output Current•Adjustable Output Voltage from 0.92V to 20V •Intergrated N-MOSFET•Fixed 340kHz Switching Frequency •PFM/PWM mode Operation •Stable with Low ESR Capacitors •Power-On-Reset Detection •Programmable Soft-Start •Over-Temperature Protection •Over-Voltage Protection•Current-Limit Protection with Frequency Foldback •Enable/Shutdown Function •Small SOP-8P Package•Lead Free and Green Devices Available(RoHS Compliant)Applications•LCD Monitor/TV •Set-Top Box• DSL, Switch HUB• Notebook ComputerAPW7302B is a 2A synchronous buck converter with inte-grated power MOSFETs. The APW7302B design with a current-mode control scheme, can convert wide input voltage of 4.5V to 24V to the output voltage adjustable from 0.92V to 20V to provide excellent output voltage regulation.The APW7302B is equipped with an automatic PFM/PWM mode operation. At light load, the IC operates in the PFM mode to reduce the switching losses. At heavy load, the IC works in PWM.The APW7302B is also equipped with Power-on-reset,soft- start, and whole protections (over-temperature, and current-limit) into a single package.This device, available SOP-8P, provides a very compact system solution external components and PCB area.Simplified Application CircuitPin ConfigurationBS VIN LX GNDSS EN COMP FBAPW7302BSOP-8P(Top View)Exposed PadThe pin 4 must be connected to the pin 9 (Exposed Pad)V INNote: ANPEC lead-free products contain molding compounds/die attach materials and 100% matte tin plate termination finish; which are fully compliant with RoHS. ANPEC lead-free products meet or exceed the lead-free requirements of IPC/JEDEC J -STD-020D for MSL classification at lead-free peak reflow temperature. ANPEC defines “Green” to mean lead-free (RoHS compliant) and halogen free (Br or Cl does not exceed 900ppm by weight in homogeneous material and total of Br and Cl does not exceed 1500ppm by weight).(Note 1)stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under "recom-mended operating conditions" is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliabilityThermal CharacteristicsNote 2: θJA is measured with the component mounted on a high effective thermal conductivity test board in free air.Recommended Operating Conditions (Note 3)Recommended Operating Conditions (Cont.) (Note 3)Note 3: Refer to the typical application circuit.Electrical CharacteristicsUnless otherwise specified, these specifications apply over V IN =12V, V OUT = 3.3V, V EN =3V and T A =25o C.Electrical Characteristics (Cont.)Note 4: Guarantee by design.Unless otherwise specified, these specifications apply over V IN =12V, V OUT = 3.3V, V EN =3V and T A =25o C.Typical Operating CharacteristicsR e f e r e n c e V o l t a g e , V R E F (V )Reference Voltage vs. JunctionTemperatureJunction Temperature, T J (o C)0.90.9050.910.9150.920.9250.930.9350.94-50-25255075100125150Oscillator Frequency vs. JunctionTemperatureJunction Temperature, T J (¢X C)300310320330340350360-50-250255075100125150O s c i l l a t o r F r e q u e n c yV I N I n p u t C u r r e n t , I V I N (m A )VIN Supply Voltage , V IN (V)11.21.41.61.8204812162024VIN Input Current vs. Supply VoltageRefer to the “Typical Application Circuit” The test conditions are V IN =12V, V OUT =3.3V, L1=10µH, C2=22µF, T A = 25o C unless otherwise specified.E f f i c i e n c y (%)Output Current vs. Efficiency2030405060100100.0110Output Current (A)0.110.001708090Operating WaveformsPower OffCH1: V IN , 5V/Div, DC CH2: V OUT , 2V/Div, DC TIME: 5ms/DivCH3: I L1, 2A/Div, DC V INV OUTI L1I OUT =2ATIME: 50µs/DivLoad Transient ResponseCH1: V OUT , 200mV/Div, offset=3.3V CH2: I L1, 1A/Div, DC I OUT =0.5A-2A-0.5A,rise/fall time=10µsI OUTV OUTRefer to the “Typical Application Circuit” The test conditions are V IN =12V, V OUT =3.3V, L1=10µH, C2=22µF, T A = 25o C unless otherwise specified.Power OnCH1: V IN , 5V/Div, DC CH2: V OUT , 2V/Div, DC TIME: 5ms/DivCH3: I L1, 2A/Div, DC I OUT =5AV INV OUTI L1I OUT =2A Load Transient ResponseCH1: V OUT , 200mV/Div, offset=3.3V CH2: I L1, 1A/Div, DC TIME: 50µs/DivI OUTV OUTI OUT =0A -2A -0A ,rise /fall time =10µsSwitching WaveformCH1: V LX , 5V/Div, DC CH2: I L1, 2A/Div, DC TIME: 1µs/DivI OUT =2AV LXShort CircuitCH1: V OUT , 1V/Div, DC CH2: I L1, 2A/Div, DC TIME: 1s/DivV OUT is shorted to GND by a short wireV OUTI L1Operating Waveforms (Cont.)Refer to the “Typical Application Circuit” The test conditions are V IN =12V, V OUT =3.3V, L1=10µH, C2=22µF, T A = 25o C unless otherwise specified.CH1: V OUT , 1V/Div, DC TIME: 50ms/DivCH2: I L1, 2A/Div, DCV OUTI L1I OUT =0~4AOver CurrentSwitching WaveformI LCH1: V LX , 5V/Div, DC TIME: 10µs/DivV LXCH2: I L , 0.5A/Div, DC I OUT =100mALine Transient ResponseV OUTCH1: V IN , 5V/Div, DCTIME: 50µs/DivCH2: V OUT , 50mV/Div, offset=3.3V V IN =12 to 20V, rise/fall time=10µsV INV OUT Operating Waveforms (Cont.)Refer to the “Typical Application Circuit” The test conditions are V IN =12V, V OUT =3.3V, L1=10µH, C2=22µF, T A = 25o C unless otherwise specified.Block DiagramLXVINBSTypical Application CircuitV INRecommended Feedback Compensation ValueFunction DescriptionMain Control LoopThe APW7302B is a constant frequency current modeswitching regulator. During normal operation, the inter-nal N-channel power MOSFET is turned on each cycle when the oscillator sets an internal RS latch and would be turned off when an internal current comparator (ICMP) resets the latch. The peak inductor current at which ICMP resets the RS latch is controlled by the voltage on the COMP pin, which is the output of the error amplifier (EAMP). An external resistive divider connected between VOUT and ground allows the EAMP to receive an output feedback voltage VFBat FB pin. When the load currentincreases, it causes a slight decrease in VFBrelative to the 0.92V reference, which in turn causes the COMP volt-age to increase until the average inductor current matches the new load current.VIN Power-On-Reset (POR) and EN Under-voltage LockoutThe APW7302B keep monitoring the voltage on VIN pin to prevent wrong logic operations which may occur when VIN voltage is not high enough for the internal control circuitry to operate. The VIN POR has a rising threshold of 4.1V (typical) with 0.5V of hysteresis.An external under-voltage lockout (UVLO) is sensed at the EN pin. The EN UVLO has a rising threshold of 2.5V with 0.2V of hysteresis. The EN pin should be connected a resistor divider from VIN to EN.After the VIN and EN voltages exceed their respective voltage thresholds, the IC starts a start-up process and then ramps up the output voltage to the setting of output voltage.Over-Temperature Protection (OTP)The over-temperature circuit limits the junction tempera-ture of the APW7302B. When the junction temperatureexceeds TJ= +160o C, a thermal sensor turns off the power MOSFET, allowing the devices to cool. The thermal sen-sor allows the converter to start a start-up process and regulate the output voltage again after the junction tem-perature cools by 50o C.The OTP is designed with a 50o C hysteresis to lower the average TJduring continuous thermal overload conditions, increasing lifetime of the lC.Current-Limit ProtectionThe APW7302B monitors the output current, flowing through the N-Channel power MOSFET, and limits the IC from damages during overload, short-circuit and over-voltage conditions.Frequency FoldbackThe foldback frequency is controlled by the FB voltage. When the FB pin voltage is under 0.6V, the frequency of the oscillator will be reduced to 110kHz. This lower fre-quency allows the inductor current to safely discharge, thereby preventing current runaway. The oscillator’s fre-quency will switch to its designed rate when the feedback voltage on FB rises above the rising frequency foldback threshold (0.6V, typical) again.Over-Voltage ProtectionThe over-voltage function monitors the output voltage by FB pin. When the FB voltage increase over 120% of the reference voltage, the over-voltage protection compara-tor will force the low-side MOSFET gate driver high. This action actively pulls down the output voltage. As soon as the output voltage is within regulation, the OVP compara-tor is disengaged. The chip will restore its normal operation.Enable / ShutdownDriving EN to ground places the APW7302B in shutdown. When in shutdown, the internal power MOSFET turns off, all internal circuitry shuts down.Application InformationSetting Output VoltageInductor Capacitor Selectionwhere D is the duty cycle of the power MOSFET .For a through hole design, several electrolytic capacitors may be needed. For surface mount designs, solid tanta-lum capacitors can be used, but caution must be exer-cised with regard to the capacitor surge current rating.)A ()D 1(D I I OUT RMS ⋅−×=)V (ESR I V OUT ⋅×∆=∆OUTOSC COUT C F 8IV ××∆=∆The regulated output voltage is determined by:Use small ceramic capacitors for high frequency decoupling and bulk capacitors to supply the surge cur-rent needed each time the N-channel power MOSFET (Q1) turns on. Place the small ceramic capacitors physi-cally close to the VIN and between the VIN and GND.The important parameters for the bulk input capacitor are the voltage rating and the RMS current rating. For reliable operation, select the bulk capacitor with voltage and current ratings above the maximum input voltage and largest RMS current required by the circuit. The capacitor voltage rating should be at least 1.25 times greater than the maximum input voltage and a voltage rating of 1.5times is a conservative guideline. The RMS current (IRMS)of the bulk input capacitor is calculated as the following equation:An output capacitor is required to filter the output and sup-ply the load transient current. The filtering requirements are the function of the switching frequency and the ripple current (DI). The output ripple is the sum of the voltages,having phase shift, across the ESR and the ideal output capacitor. The peak-to-peak voltage of the ESR is calcu-ated as the following equations:)V ()R R 1(92.0VOUT 21⋅+×=To prevent stray pickup, please locate resistors R1 and R2 close to APW7302B.ESRI V LF )D 1(V I V V D ESR OSC OUT INOUT ×∆=−=∆=××The peak- to-peak voltage of the ideal output capacitor iscalculated as the following equations:For the applications using bulk capacitors, the ∆V COUT is much smaller than the V ESR and can be ignored. Therefore,the AC peak-to-peak output voltage(∆V OUT ) is shown below:Output Capacitor SelectionFor the applications using bulk capacitors, the V ESR is much smaller than the ∆V COUT and can be ignored.Therefore, the AC peak-to-peak output voltage(∆V OUT ) is to ∆V COUT .Figure 1. Converter WaveformsI OUTVLXI LI Q1I COUTI OUTV OUT (1) (2) (3) (4) (5)INV OUTApplication Information(Cont.)Output Capacitor Selection (Cont.)The load transient requirements are the function of the slew rate (di/dt) and the magnitude of the transient load urrent. These requirements are generally met with a mix of capacitors and careful layout. High frequency ca-pacitors initially supply the transient and slow the current load rate seen by the bulk capacitors. The bulk filter ca-pacitor values are generally determined by the ESR (Effective Series Resistance) and voltage rating require-ments rather than actual capacitance requirements.High frequency decoupling capacitors should be placed as close to the power pins of the load as physically possible. Be careful not to add inductance in the circuit board wiring that could cancel the usefulness of these low inductance components. An aluminum electrolytic capacitor’s ESR value is related to the case size with lower ESR available in larger case sizes. However, the Equiva-lent Series Inductance (ESL) of these capacitors increases with case size and can reduce the usefulness of the ca-pacitor to high slew-rate transient loading.The operating frequency and inductor selection are inter-related in that higher operating frequencies permit the use of a smaller inductor for the same amount of inductorripple current. However, this is at the expense of efficiency due to an increase in MOSFET gate charge losses. The equation (2) shows that the inductance value has a direct effect on ripple current.Accepting larger values of ripple current allows the use of low inductances, but results in higher output voltage ripple and greater core losses. A reasonable starting point for setting ripple current is ∆I< 0.4 x I OUT (max). Please be no-ticed that the maximum ripple current occurs at the maxi-mum input voltage. The minimum inductance of the in-uctor is calculated by using the following equation:Inductor Value Calculationwhere (6)IN(MAX)IN V V = 1.2V · L · 340000)V -(V · V IN OUT IN OUT ≤(H)V · 408000)V -(V · V L INOUT IN OUT ≥Application Information (Cont.)Thermal ConsiderationLayout ConsiderationIn high power switching regulator, a correct layout is important to ensure proper operation of the regulator. In general, interconnecting impedance should be minimized by using short, wide printed circuit traces. Signal and power grounds are to be kept separating and finally combined using the ground plane construction or single point grounding. Figure 3 illustrates the layout, with bold lines indicating high current paths. Components along the bold lines should be placed close together. Below is a checklist for your layout:1. Begin the layout by placing the power components first.Orient the power circuitry to achieve a clean power flow path. If possible, make all the connections on one side of the PCB with wide, copper filled areas.2. In Figure 3, the loops with same color bold lines con-duct high slew rate current. These interconnecting im-pedances should be minimized by using wide and short printed circuit traces.3. Keep the sensitive small signal nodes (FB, COMP)away from switching nodes (LX or others) on the PCB and it should be placed near the IC as close as possible.Therefore, place the feedback divider and the feedback compensation network close to the IC to avoid switching noise. Connect the ground of feedback divider directly to the GND pin of the IC using a dedicated ground trace.The APW7302B maximum power dissipation depends on the thermal resistance and temperature difference between the die junction and ambient air. The power dis-sipation P D across the device is:P D = (T J - T A ) / θJAwhere (T J -T A ) is the temperature difference between the junction and ambient air. θJA is the thermal resistance between Junction and ambient air.For normal operation, do not exceed the maximum junc-tion temperature rating of T J = 125o C. The calculated power dissipation should less than:P D = (125-25)/50= 2(W)4. Place the decoupling ceramic capacitor C1 near the VIN as close as possible. Use a wide power ground plane to connect the C1, C2, and Schottky diode to provide a low impedance path between the components for large and high slew rate current.Figure 2. Current Path DiagramFigure 3. Recommended Layout DiagramSensitive node (FB, COMP) should be away from switching node(LX) and it should be placed nearthe thermal pad to thedissipation11.52255075100125Ambient Temperature, T A (o C)M a x i m u m P o w e r D i s s i p a t i o n , P D (W )V OUTVPackage InformationSOP-8PoSEE VIEW AVIEW AGAUGE PLANE SEATING PLANENote : 1. Followed from JEDEC MS-012 BA.2. Dimension "D" does not include mold flash, protrusions or gate burrs. Mold flash, protrusion or gate burrs shall not exceed 6 mil per side .3. Dimension "E" does not include inter-lead flash or protrusions. Inter-lead flash and protrusions shall not exceed 10 mil per side.0.0200.0100.0200.0500.0060.063MAX.0.40L 00o C E e h E10.25D c b 0.170.310.0161.278o C0o C8o C 0.501.27 BSC0.510.250.050 BSC0.0100.0120.007MILLIMETERS MIN.S Y M B O L A1A2A 0.001.25SOP-8PMAX.0.151.60MIN.0.0000.049INCHESD1 2.500.0982.000.079E2 3.503.000.1380.1184.805.000.1890.1973.80 4.000.1500.1575.806.200.2280.244(mm)Carrier Tape & Reel DimensionsSECTION B-BSECTION A-ATaping Direction InformationSOP-8PUSER DIRECTION OF FEEDClassification ProfileClassification Reflow ProfilesTable 1. SnPb Eutectic Process – Classification Temperatures (Tc)Table 2. Pb-free Process – Classification Temperatures (Tc)Reliability Test ProgramCustomer ServiceAnpec Electronics Corp.Head Office :No.6, Dusing 1st Road, SBIP,Hsin-Chu, Taiwan, R.O.C.Tel : 886-3-5642000Fax : 886-3-5642050Taipei Branch :2F, No. 11, Lane 218, Sec 2 Jhongsing Rd.,Sindian City, Taipei County 23146, TaiwanTel : 886-2-2910-3838Fax : 886-2-2917-3838。

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INSTALLATIONUser's GuidePlease contact your Topeak dealer with any questions.For USA customer service call : 2-year Warranty: All mechanical components against manufacturer defects only.Warranty Claim RequirementsTo obtain warranty service, you must have your original sales receipt. Items returned without a sales receipt will assume that the warranty begins on the date of manufacture. All warranties will be void if the product is damaged due to user crash, abuse, system alteration, modification, or used in any way not intended as described in this operating manual.30mmDeFender ™ XC1Right Side2.5 mm Allen keyNote : Do not loosen the bolt completely.(Rear)5. Install the front fender legs right on the top of rear fender's properly as shown. Tighten both tension bolts.Prepare to RideM-TC9625-GB 5/12Copyright © Topeak, Inc. 2012Right SideTool required: 2.5 mm Allen keyMax. Tire Dim. : 26"x2.6"1. Use M4 x 12 mm bolts to lock the fender legs on fenders as shown.2. Loosen tension bolt on four fender legs.3. Install the rear fender to the fork legs and DO NOT tighten the tension bolts completely. Place the Indicator Card to the fender and adjust fender to make sure there is at least 30 mm clearance between fender and tire as shown.Assemble Indictor card first then place and align it to the rear fender as shown.4. Make sure the rear fender is aligned with tire. Tighten both tension bolts and remove the Indicator Card.WARRANTY30 mm clearance(Recommended)6. Apply both stickers to fenders properly.GB910111213M4 x 40mm Bolt (Fits ø40~ø48.5 mm)M4 x 25mm Bolt (Fits ø36~ø40 mm )PresetEnd Capx4x4Plastic Washerx4Nutx4x4IMPORTANT NOTE678(F)(R)Sticker x 2pcs (each)2.5 mm Allen keyIndicator Card23451M4 x 12mmBoltFront Legs Rear LegsFrontRear(RR)(FL)(RL)(FR)x2Fits ø36~ø40 mmFits ø40~ø48.5 mm119(Rear)4(RR)(RL)25(Front)35(FR)(FL)112131112131030mm c l ea r a n c e30m m c l e a r a n c eWARNING121. To avoid from hitting the downtube with the rear fender at full fork compression, it is recommended to maintain a 30 mm clearance between the rear fender and tire. Exceeding 30 mm may cause damage to the bike.2. Make sure there is adequate clearance between the fenders and tire width to avoid damaging your bike or fenders.3. Insure properly adjusted fenders after each installation. Make sure there is enough clearance between fenders, tire and downtube.Note: DeFender XC1 has a disengage function that isactivates if a large object enters the wheel. The sticker easily identifies which fender has disengaged from its leg.* The specifications and design are subject to change without notice.IMPORTANT NOTEMax. Tire Dim.: 26"x2.6"A unique design allows front fender to disengage due to any large obstructions entering the wheel.DeFender™XC11Prepare to Ride。