FFP10U60DNTU中文资料

LD 10PBX 电话机管理提示和响应－LD 10标号提示响应注释1 REQ 请求CHG 修改现有的数据块CPY n 从指定的分机数据块自动拷贝或生成1至32个新的分机数据块对Option 11各模式无效，版本12和其后的软件。

END 退出覆盖程序MOV 将数据块从一个TN移到另一个。

对Option 11各模式无效。

NEW X 增加新的数据块NEW后是一个1-255的数值,以生成此数目的接连的电话机数据块OUT X 取消数据块OUT后是一个1-255的数值,以取消此数目的接连的电话机数据块2 TYPE 数据块类型500500/2500电话机数据块500 M7Option 11的500/2500模式电话机数据块CARD 自动话机移位（ASR）的500/2500卡板块CARDSLT 单线电话机用户线卡板（版本19和其后的软件）OOSSLT20停止运行单线终端单元3 MODL71-127 模式号码，对Option 11模式话机提示。

4 CFTN 1 s c u 从TN拷贝，在REQ＝CPY时提示。

c u7用于Option11，用这个TN作为新话机的样板。

5 SFMT 对拷贝命令选用以下一种格式，在CLS＝AGTA时，提示POS。

D N输入项可长达4位,配备DNXP软件包150则长达7位TNDN 人工选择TN，DN和ACD电话机的ACD座席IDTN，DN和POS提示-n-次，如在CPY命令中所规定。

TN l s c u 新话机的TNDN xxxx 新话机的DNPOS xxxx ACD座席IDTN 新DN和ACD电话机的ACD座席ID是由系统提供的，对您提示要求开始的DN，ACD座席ID和每一个TN。

TN提示n次，如在CPY命令中所规定。

DN xxxx 新话机的DNPOS xxxx ACD座席IDTN l s c u 新话机的TNDN 新TN都是由系统提供的，对您提示要求开始的TN和每一个DN以及ACD电话机的ACD座席ID。

i Coupler Digital IsolaterADuM1100 Rev. GInformation furnished by Analog Devices is believed to be accurate and reliable. However, noresponsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. T rademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 Fax: 781.461.3113 ©2001–2007 Analog Devices, Inc. All rights reserved.FEATURESHigh data rate: dc to 100 Mbps (NRZ)Compatible with 3.3 V and 5.0 V operation/level translation 125°C maximum operating temperatureLow power operation5 V operation1.0 mA maximum @ 1 Mbps4.5 mA maximum @ 25 Mbps16.8 mA maximum @ 100 Mbps3.3 V operation0.4 mA maximum @ 1 Mbps3.5 mA maximum @ 25 Mbps7.1 mA maximum @ 50 Mbps8-lead SOIC_N package (RoHS compliant version available) High common-mode transient immunity: >25 kV/μs Safety and regulatory informationUL recognized2500 V rms for 1 minute per UL 1577CSA Component Acceptance Notice #5AVDE Certificate of ConformityDIN V VDE V 0884-10 (VDE V 0884-10):2006-12V IORM = 560 V peakAPPLICATIONSDigital field bus isolationOpto-isolator replacementComputer-peripheral interfaceMicroprocessor system interfaceGeneral instrumentation and data acquisition applications GENERAL DESCRIPTIONThe ADuM11001 is a digital isolator based on Analog Devices Inc. i Coupler® technology. Combining high speed CMOS and monolithic air core transformer technology, this isolation component provides outstanding performance characteristics superior to alternatives, such as optocoupler devices. Configured as a pin-compatible replacement for existing high speed optocouplers, the ADuM1100 supports data rates as high as 25 Mbps and 100 Mbps.The ADuM1100 operates with a voltage supply ranging from 3.0 V to 5.5 V, boasts a propagation delay of <18 ns and edge asymmetry of <2 ns, and is compatible with temperatures upto 125°C. It operates at very low power, less than 0.9 mA of quiescent current (sum of both sides), and a dynamic current of less than 160 μA per Mbps of data rate. Unlike other optocoupler alternatives, the ADuM1100 provides dc correctness with a patented refresh feature that continuously updates the output signal.The ADuM1100 is offered in three grades. The ADuM1100AR and ADuM1100BR can operate up to a maximum temperature of 105°C and support data rates up to 25 Mbps and 100 Mbps, respectively. The ADuM1100UR can operate up to a maximum temperature of 125°C and supports data rates up to 100 Mbps.1 Protected by U.S. Patents 5,952,849; 6,525,566; 6,922,080; 6,903,578;6,873,065; 7,075,329; and other pending patents.FUNCTIONAL BLOCK DIAGRAMV DD1V I (DATA IN)V DD1GND1DD22O2NOTES1. FOR PRINCIPLES OF OPERATION, SEE METHOD OF OPERATION,DC CORRECTNESS, AND MAGNETIC FIELD IMMUNITY SECTION.02462-1Figure 1.ADuM1100Rev. G | Page 2 of 20TABLE OF CONTENTSFeatures..............................................................................................1 Applications.......................................................................................1 General Description.........................................................................1 Functional Block Diagram..............................................................1 Revision History...............................................................................2 Specifications.....................................................................................3 Electrical Specifications—5 V Operation.................................3 Electrical Specifications—3.3 V Operation..............................5 Electrical Specifications—Mixed 5 V/3 V or 3 V/5 VOperation.......................................................................................7 Package Characteristics...............................................................9 Regulatory Information...............................................................9 Insulation and Safety-Related Specifications............................9 DIN V VDE V 0884-10 (VDE V 0884-10):2006-12 Insulation Characteristics. (10)Recommended Operating Conditions....................................10 Absolute Maximum Ratings.........................................................11 ESD Caution................................................................................11 Pin Configuration and Function Descriptions...........................12 Typical Performance Characteristics...........................................13 Application Information................................................................15 PC Board Layout........................................................................15 Propagation Delay-Related Parameters...................................15 Method of Operation, DC Correctness, and Magnetic Field Immunity.....................................................................................16 Power Consumption..................................................................17 Outline Dimensions.......................................................................18 Ordering Guide.. (18)REVISION HISTORY6/07—Rev. F to Rev. GUpdated VDE Certification Throughout......................................1 Changes to Features and Endnote 1...............................................1 Changes to Table 5 and Table 6.......................................................9 Updated Outline Dimensions ......................................................18 Changes to Ordering Guide .........................................................18 3/06—Rev. E to Rev. FUpdated Format..................................................................Universal Added Note 1....................................................................................1 Changes to Table 1............................................................................4 Changes to Table 2............................................................................6 Changes to Table 3............................................................................8 Add Table 11....................................................................................13 Inserted Power Consumption Section.........................................18 10/03—Rev. D to Rev. EChanges to Product Name, Features, and General Description.1 Changes to Regulatory Information..............................................6 Changes to DIN EN 60747-5-2 (VDE 0884 Part 2) Insulation Characteristics...................................................................................6 Changes to Absolute Maximum Ratings.......................................7 Changes to Recommended Operating Conditions......................7 Changes to Ordering Guide............................................................8 6/03—Rev. C to Rev. DChanged DIN EN 60747-5-2 (VDE 0884 Part 2) InsulationCharacteristics...................................................................................6 Updated Ordering Guide.................................................................8 Updated Outline Dimensions.......................................................13 4/03—Rev. B to Rev. CChanges to Features and Patent Note (1)Changes to Regulatory Information...............................................6 Changes to Insulation Characteristics Section..............................6 Changes to Absolute Maximum Ratings........................................7 Changes to Package Branding..........................................................8 Changes to Method of Operation, DC Correctness, andMagnetic Field Immunity Section................................................11 Replaced Figure 9...........................................................................12 1/03—Rev. A to Rev. BAdded ADuM1100UR Grade...........................................Universal Changed ADuM1100AR/ADuM1100BR toADuM1100..........................................................................Universal Changes to Features and General Description..............................1 Changes to Specifications.................................................................2 Added Electrical Specifications, Mixed 5 V/3 V or 3 /5 VOperation Table.................................................................................4 Updated Regulatory Information....................................................6 Changes to VDE 0884 Insulation Characteristics.........................6 Changes to Absolute Maximum Ratings........................................7 Changes to Package Branding..........................................................8 Updated TPC 3 to TPC 8..................................................................9 Deleted iCoupler in Field Bus Networks Section.......................11 Changes to Figure 8........................................................................12 Added Figure 9 and Related Text.................................................12 11/02—Rev. 0 to Rev. AEdits to Features.................................................................................1 Edits to Regulatory Information.....................................................4 Edits to VDE 0884 Insulation Characteristics...............................5 Added Revision History................................................................12 Updated Outline Dimensions. (12)ADuM1100Rev. G | Page 3 of 20SPECIFICATIONSELECTRICAL SPECIFICATIONS—5 V OPERATIONAll voltages are relative to their respective ground. 4.5 V ≤ V DD1 ≤ 5.5 V , 4.5 V ≤ V DD2 ≤ 5.5 V . All minimum/maximum specificationsapply over the entire recommended operation range, unless otherwise noted. All typical specifications are at T A = 25°C, V DD1 = V DD2 = 5 V . Table 1.ParameterSymbol Min Typ Max Unit Test Conditions DC SPECIFICATIONSInput Supply Current I DD1 (Q) 0.3 0.8 mA V I = 0 V or V DD1 Output Supply CurrentI DD2 (Q) 0.01 0.06 mA V I = 0 V or V DD1Input Supply Current (25 Mbps) (See Figure 5)I DD1 (25) 2.2 3.5 mA 12.5 MHz logic signal frequency Output Supply Current 1 (25 Mbps) (See Figure 6)I DD2 (25) 0.5 1.0 mA 12.5 MHz logic signal frequency Input Supply Current (100 Mbps) (See Figure 5)I DD1 (100) 9.0 14 mA 50 MHz logic signal frequency, ADuM1100BR/ADuM1100UR only Output Supply Current 1 (100 Mbps) (See Figure 6) I DD2 (100)2.0 2.8 mA 50 MHz logic signal frequency, ADuM1100BR/ADuM1100UR only Input CurrentI I −10+0.01 +10 μA 0 V ≤ V IN ≤ V DD1Logic High Output Voltage V OH V DD2 − 0.1 5.0 V I O = −20 μA, V I = V IHV DD2 − 0.8 4.6 V I O = −4 mA, V I = V IH Logic Low Output Voltage V OL 0.0 0.1 V I O = 20 μA, V I = V IL 0.03 0.1 V I O = 400 μA, V I = V IL0.3 0.8 V I O = 4 mA, V I = V IL SWITCHING SPECIFICATIONS For ADuM1100ARMinimum Pulse Width 2 PW 40 ns C L = 15 pF, CMOS signal levels Maximum Data Rate 325 Mbps C L = 15 pF, CMOS signal levels For ADuM1100BR/ADuM1100URMinimum Pulse Width 2 PW 6.7 10 ns C L = 15 pF, CMOS signal levels Maximum Data Rate 3 100 150 Mbps C L = 15 pF, CMOS signal levels For All GradesPropagation Delay Time to Logic Low Output 4, 5 (See Figure 7)t PHL 10.5 18 ns C L = 15 pF, CMOS signal levels Propagation Delay Time to Logic High Output 4, 5 (See Figure 7)t PLH 10.5 18 ns C L = 15 pF, CMOS signal levels Pulse Width Distortion |t PLH – t PHL |5 PWD 0.5 2 ns C L = 15 pF, CMOS signal levels Change vs. Temperature 6 3 ps/°C C L = 15 pF, CMOS signal levels Propagation Delay Skew (Equal Temperature)5, 7 t PSK1 8 ns C L = 15 pF, CMOS signal levels Propagation Delay Skew(Equal Temperature, Supplies)5, 7 t PSK26nsC L = 15 pF, CMOS signal levelsOutput Rise/Fall Timet R , t F 3 ns C L = 15 pF, CMOS signal levelsCommon-Mode Transient Immunity at Logic Low/High Output 8 |CM L |, |CM H | 25 35 kV/μs V I = 0 V or V DD1, V CM = 1000 V,transient magnitude = 800 V Refresh Ratef r 1.2 Mbps Input Dynamic Supply Current 9 I DDI (D) 0.09 mA/Mbps Output Dynamic Supply Current 9I DDO (D) 0.02 mA/MbpsADuM11001 Output supply current values are with no output load present. See Figure 5 and Figure 6 for information on supply current variation with logic signal frequency. See the Power Consumption section for guidance on calculating the input and output supply currents for a given data rate and output load.2 The minimum pulse width is the shortest pulse width at which the specified pulse width distortion is guaranteed.3 The maximum data rate is the fastest data rate at which the specified pulse width distortion is guaranteed.4 t PHL is measured from the 50% level of the falling edge of the V I signal to the 50% level of the falling edge of the V O signal. t PLH is measured from the 50% level of the rising edge of the V I signal to the 50% level of the rising edge of the V O signal.5 Because the input thresholds of the ADuM1100 are at voltages other than the 50% level of typical input signals, the measured propagation delay and pulse width distortion can be affected by slow input rise/fall times. See the Propagation Delay-Related Parameters section and Figure 14 through Figure 18 for information on the impact of given input rise/fall times on these parameters.6 Pulse width distortion change vs. temperature is the absolute value of the change in pulse width distortion for a 1°C change in operating temperature.7 t PSK1 is the magnitude of the worst-case difference in t PHL and/or t PLH that is measured between units at the same operating temperature and output load within the recommended operating conditions. t PSK2 is the magnitude of the worst-case difference in t PHL and/or t PLH that is measured between units at the same operating temperature, supply voltages, and output load within the recommended operating conditions.8 CM H is the maximum common-mode voltage slew rate that can be sustained while maintaining V O > 0.8 V DD2. CM L is the maximum common-mode voltage slew rate that can be sustained while maintaining V O < 0.8 V. The common-mode voltage slew rates apply to both rising and falling edges. The transient magnitude is the range over which the common-mode is slewed.9 Dynamic supply current is the incremental amount of supply current required for a 1 Mbps increase in signal data rate. See Figure 5 and Figure 6 for information on supply current variation with logic signal frequency. See the Power Consumption section for guidance on calculating the input and output supply currents for a given data rate and output load.Rev. G | Page 4 of 20ADuM1100Rev. G | Page 5 of 20ELECTRICAL SPECIFICATIONS—3.3 V OPERATIONAll voltages are relative to their respective ground. 3.0 V ≤ V DD1 ≤ 3.6 V , 3.0 V ≤ V DD2 ≤ 3.6 V . All minimum/maximum specifications apply over the entire recommended operation range, unless otherwise noted. All typical specifications are at T A = 25°C, V DD1 = V DD2 = 3.3 V . Table 2.ParameterSymbol Min Typ Max Unit Test Conditions DC SPECIFICATIONSInput Supply Current I DD1 (Q) 0.1 0.3 mA V I = 0 V or V DD1 Output Supply CurrentI DD2 (Q) 0.005 0.04 mA V I = 0 V or V DD1Input Supply Current (25 Mbps) (See Figure 5)I DD1 (25) 2.0 2.8 mA 12.5 MHz logic signal frequency Output Supply Current 1 (25 Mbps) (See Figure 6)I DD2 (25) 0.3 0.7 mA 12.5 MHz logic signal frequency Input Supply Current (50 Mbps) (See Figure 5)I DD1 (50) 4.0 6.0 mA 25 MHz logic signal frequency, ADuM1100BR/ADuM1100UR only Output Supply Current 1 (50 Mbps) (See Figure 6) I DD2 (50)1.2 1.6 mA 25 MHz logic signal frequency, ADuM1100BR/ADuM1100UR only Input CurrentI I −10+0.01 +10 μA 0 V ≤ V IN ≤ V DD1 Logic High Output Voltage V OH V DD2 − 0.1 3.3 V I O = –20 μA, V I = V IHV DD2 − 0.5 3.0 V I O = –2.5 mA, V I = V IH Logic Low Output Voltage V OL 0.0 0.1 V I O = 20 μA, V I = V IH 0.04 0.1 V I O = 400 μA, V I = V IH0.3 0.4 V I O = 2.5 mA, V I = V IH SWITCHING SPECIFICATIONS For ADuM1100ARMinimum Pulse Width 2 PW 40 ns C L = 15 pF, CMOS signal levels Maximum Data Rate 325 Mbps C L = 15 pF, CMOS signal levels For ADuM1100BR/ADuM1100URMinimum Pulse Width 2 PW 10 20 ns C L = 15 pF, CMOS signal levels Maximum Data Rate 3 50 100 Mbps C L = 15 pF, CMOS signal levels For All GradesPropagation Delay Time to Logic Low Output 4, 5 (See Figure 8)t PHL 14.5 28 ns C L = 15 pF, CMOS signal levels Propagation Delay Time to Logic High Output 4, 5 (See Figure 8) t PLH 15.0 28 ns C L = 15 pF, CMOS signal levels Pulse Width Distortion |t PLH − t PHL |5 PWD 0.5 3 ns C L = 15 pF, CMOS signal levels Change vs. Temperature 6 10 ps/°C C L = 15 pF, CMOS signal levels Propagation Delay Skew (Equal Temperature)5, 7t PSK1 15 ns C L = 15 pF, CMOS signal levels Propagation Delay Skew(Equal Temperature, Supplies)5, 7t PSK212nsC L = 15 pF, CMOS signal levelsOutput Rise/Fall Timet R , t F 3 ns C L = 15 pF, CMOS signal levelsCommon-Mode Transient Immunity at Logic Low/High Output 8 |CM L |, |CM H | 25 35 kV/μs V I = 0 V or V DD1, V CM = 1000 V,transient magnitude = 800 V Refresh Ratef r 1.1 Mbps Input Dynamic Supply Current 9I DDI (D) 0.08 mA/Mbps Output Dynamic Supply Current 9I DDO (D) 0.04 mA/MbpsADuM11001 Output supply current values are with no output load present. See Figure 5 and Figure 6 for information on supply current variation with logic signal frequency. See the Power Consumption section for guidance on calculating the input and output supply currents for a given data rate and output load.2 The minimum pulse width is the shortest pulse width at which the specified pulse width distortion is guaranteed.3 The maximum data rate is the fastest data rate at which the specified pulse width distortion is guaranteed.4 t PHL is measured from the 50% level of the falling edge of the V I signal to the 50% level of the falling edge of the V O signal. t PLH is measured from the 50% level of the rising edge of the V I signal to the 50% level of the rising edge of the V O signal.5 Because the input thresholds of the ADuM1100 are at voltages other than the 50% level of typical input signals, the measured propagation delay and pulse width distortion can be affected by slow input rise/fall times. See the Propagation Delay-Related Parameters section and Figure 14 through Figure 18 for information on the impact of given input rise/fall times on these parameters.6 Pulse width distortion change vs. temperature is the absolute value of the change in pulse width distortion for a 1°C change in operating temperature.7 t PSK1 is the magnitude of the worst-case difference in t PHL and/or t PLH that is measured between units at the same operating temperature and output load within the recommended operating conditions. t PSK2 is the magnitude of the worst-case difference in t PHL and/or t PLH that is measured between units at the same operating temperature, supply voltages, and output load within the recommended operating conditions.8 CM H is the maximum common-mode voltage slew rate that can be sustained while maintaining V O > 0.8 V DD2. CM L is the maximum common-mode voltage slew rate that can be sustained while maintaining V O < 0.8 V. The common-mode voltage slew rates apply to both rising and falling edges. The transient magnitude is the range over which the common-mode is slewed.9 Dynamic supply current is the incremental amount of supply current required for a 1 Mbps increase in signal data rate. See Figure 5 and Figure 6 for information on supply current variation with logic signal frequency. See the Power Consumption section for guidance on calculating the input and output supply currents for a given data rate and output load.Rev. G | Page 6 of 20ADuM1100Rev. G | Page 7 of 20ELECTRICAL SPECIFICATIONS—MIXED 5 V/3 V OR 3 V/5 V OPERATIONAll voltages are relative to their respective ground. 5 V/3 V operation: 4.5 V ≤ V DD1 ≤ 5.5 V , 3.0 V ≤ V DD2 ≤ 3.6 V . 3 V/5 V operation: 3.0 V ≤ V DD1 ≤ 3.6 V , 4.5 V ≤ V DD2 ≤ 5.5 V . All minimum/maximum specifications apply over the entire recommended operation range, unless otherwise noted. All typical specifications are at T A = 25°C, V DD1 = 3.3 V , V DD2 = 5 V or V DD1 = 5 V , V DD2 = 3.3 V . Table 3.ParameterSymbol Min Typ Max Unit Test Conditions DC SPECIFICATIONSInput Supply Current, Quiescent I DDI (Q) 5 V/3 V Operation 0.3 0.8 mA 3 V/5 V Operation0.1 0.3 mA Output Supply Current, Quiescent I DDO (Q)5 V/3 V Operation 0.005 0.04 mA 3 V/5 V Operation0.01 0.06 mA Input Supply Current, 25 Mbps I DDI (25)5 V/3 V Operation 2.2 3.5 mA 12.5 MHz logic signal frequency 3 V/5 V Operation2.0 2.8 mA 12.5 MHz logic signal frequency Output Supply Current 1, 25 Mbps I DDO (25)5 V/3 V Operation 0.3 0.7 mA 12.5 MHz logic signal frequency 3 V/5 V Operation0.5 1.0 mA 12.5 MHz logic signal frequency Input Supply Current, 50 Mbps I DDI (50)5 V/3 V Operation 4.5 7.0 mA 25 MHz logic signal frequency 3 V/5 V Operation4.0 6.0 mA 25 MHz logic signal frequency Output Supply Current 1, 50 Mbps I DDO (50)5 V/3 V Operation 1.2 1.6 mA 25 MHz logic signal frequency 3 V/5 V Operation 1.0 1.5 mA 25 MHz logic signal frequency Input CurrentsI IA −10+0.01 +10 μA 0 V ≤ V IA , V IB , V IC , V ID ≤ V DD1 or V DD2 Logic High Output Voltage V OH V DD2 − 0.1 3.3 V I O = −20 μA, V I = V IH 5 V/3 V OperationV DD2 − 0.5 3.0 V I O = −2.5 mA, V I = V IH Logic Low Output Voltage V OL 0.0 0.1 V I O = 20 μA, V I = V IL 5 V/3 V Operation 0.04 0.1 V I O = 400 μA, V I = V IL0.3 0.4 V I O = 2.5 mA, V I = V IL Logic High Output Voltage V OH V DD2 − 0.1 5.0 V I O = −20 μA, V I = V IH 3 V/5 V OperationV DD2 − 0.8 4.6 V I O = −4 mA, V I = V IH Logic Low Output Voltage V OL 0.0 0.1 V I O = 20 μA, V I = V IL 3 V/5 V Operation 0.03 0.1 V I O = 400 μA, V I = V IL0.3 0.8 V I O = 4 mA, V I = V IL SWITCHING SPECIFICATIONS For ADuM1100ARMinimum Pulse Width 2 PW 40 ns C L = 15 pF, CMOS signal levels Maximum Data Rate 325 Mbps C L = 15 pF, CMOS signal levels For ADuM1100BR/ADuM1100URMinimum Pulse Width 2 PW 20 ns C L = 15 pF, CMOS signal levels Maximum Data Rate 3 50 Mbps C L = 15 pF, CMOS signal levels For All GradesPropagation Delay Time to Logic Low/High Output 4, 5t PHL , t PLH5 V/3 V Operation (See Figure 9) 13 21 ns C L = 15 pF, CMOS signal levels 3 V/5 V Operation (See Figure 10)16 26 ns C L = 15 pF, CMOS signal levelsADuM1100Rev. G | Page 8 of 20ParameterSymbol Min Typ Max Unit Test Conditions Pulse width Distortion, |t PLH − t PHL |5PWD5 V/3 V Operation 0.5 2 ns C L = 15 pF, CMOS signal levels 3 V/5 V Operation0.5 3 ns C L = 15 pF, CMOS signal levels Change in Pulse Width Distortion vs. Temperature 65 V/3 V Operation 3 ps/°C C L = 15 pF, CMOS signal levels 3 V/5 V Operation10 ps/°C C L = 15 pF, CMOS signal levels Propagation Delay Skew (Equal Temperature)5, 7t PSK15 V/3 V Operation 12 ns C L = 15 pF, CMOS signal levels 3 V/5 V Operation15 ns C L = 15 pF, CMOS signal levels Propagation Delay Skew (Equal Temperature, Supplies)5, 7t PSK25 V/3 V Operation 9 ns C L = 15 pF, CMOS signal levels 3 V/5 V Operation12 ns C L = 15 pF, CMOS signal levels Output Rise/Fall Time (10% to 90%) t R , t F 3 ns C L = 15 pF, CMOS signal levels Common-Mode Transient Immunity at Logic Low/High Output 8|CM L |, |CM H | 25 35 kV/μs V I = 0 V or V DD1, V CM = 1000 V, transient magnitude = 800 V Refresh Ratef r5 V/3 V Operation 1.2 Mbps 3 V/5 V Operation1.1 Mbps Input Dynamic Supply Current 9 C PD15 V/3 V Operation 0.09 mA/Mbps 3 V/5 V Operation0.08 mA/Mbps Output Dynamic Supply Current 9 C PD25 V/3 V Operation 0.04 mA/Mbps 3 V/5 V Operation0.02mA/Mbps1Output supply current values are with no output load present. See Figure 5 and Figure 6 for information on supply current variation with logic signal frequency. See the Power Consumption section for guidance on calculating the input and output supply currents for a given data rate and output load. 2The minimum pulse width is the shortest pulse width at which the specified pulse width distortion is guaranteed. 3The maximum data rate is the fastest data rate at which the specified pulse width distortion is guaranteed. 4t PHL is measured from the 50% level of the falling edge of the V I signal to the 50% level of the falling edge of the V O signal. t PLH is measured from the 50% level of the rising edge of the V I signal to the 50% level of the rising edge of the V O signal. 5Because the input thresholds of the ADuM1100 are at voltages other than the 50% level of typical input signals, the measured propagation delay and pulse width distortion can be affected by slow input rise/fall times. See the Propagation Delay-Related Parameters section and Figure 14 through Figure 18 for information on the impact of given input rise/fall times on these parameters. 6Pulse width distortion change vs. temperature is the absolute value of the change in pulse width distortion for a 1°C change in operating temperature. 7t PSK1 is the magnitude of the worst-case difference in t PHL and/or t PLH that is measured between units at the same operating temperature and output load within the recommended operating conditions. t PSK2 is the magnitude of the worst-case difference in t PHL and/or t PLH that is measured between units at the same operating temperature, supply voltages, and output load within the recommended operating conditions. 8CM H is the maximum common-mode voltage slew rate that can be sustained while maintaining V O > 0.8 V DD2. CM L is the maximum common-mode voltage slew rate that can be sustained while maintaining V O < 0.8 V. The common-mode voltage slew rates apply to both rising and falling edges. The transient magnitude is the range over which the common-mode is slewed. 9Dynamic supply current is the incremental amount of supply current required for a 1 Mbps increase in signal data rate. See Figure 5 and Figure 6 for information on supply current variation with logic signal frequency. See the Power Consumption section for guidance on calculating the input and output supply currents for a given data rate and output load.ADuM1100Rev. G | Page 9 of 20PACKAGE CHARACTERISTICSTable 4.ParameterSymbol Min Typ MaxUnit Test Conditions Resistance (Input-to-Output)1R I-O 1012 ΩCapacitance (Input-to-Output)1 C I-O 1.0 pF f = 1 MHz Input Capacitance 2C I 4.0 pFIC Junction-to-Case Thermal Resistance, Side 1 θJCI 46 °C/W IC Junction-to-Case Thermal Resistance, Side 2 θJCO 41 °C/W Thermocouple located at center of package underside Package Power DissipationP PD240mW1 The device is considered a 2-terminal device; Pin 1, Pin 2, Pin 3, and Pin 4 are shorted together, and Pin 5, Pin 6, Pin 7, and Pin 8 are shorted together. 2Input capacitance is measured at Pin 2 (V I ).REGULATORY INFORMATIONThe ADuM1100 is approved by the following organizations. Table 5.UL CSA VDERecognized under 1577 component recognition program 1Approved under CSA Component Acceptance Notice #5A Certified according to DIN V VDE V 0884-10 (VDE V 0884-10):2006-122Single/basic insulation, 2500 V rms isolation voltage Basic insulation per CSA 60950-1-03 and IEC 60950-1, 400 V rms (565 V peak) maximum working voltage Reinforced insulation, 560 V peak File E214100 File 205078File 2471900-4880-00011 In accordance with UL 1577, each ADuM1100 is proof tested by applying an insulation test voltage ≥3000 V rms for 1 sec (current leakage detection limit = 5 μA). 2In accordance with DIN V VDE V 0884-10, each ADuM1100 is proof tested by applying an insulation test voltage ≥1050 V peak for 1 sec (partial discharge detection limit = 5 pC). The * marking branded on the component designates DIN V VDE V 0884-10 approval.INSULATION AND SAFETY-RELATED SPECIFICATIONSTable 6.Parameter Symbol Value Unit Conditions Minimum External Air Gap (Clearance) L(I01) 4.90 min mm Measured from input terminals to output terminals,shortest distance through airMinimum External Tracking (Creepage) L(I02) 4.01 min mm Measured from input terminals to output terminals,shortest distance path along bodyMinimum Internal Gap (Internal Clearance) 0.016 min mm Insulation distance through insulation Tracking Resistance (Comparative Tracking Index) CTI >175 V DIN IEC 112/VDE 0303 Part 1 Isolation Group IIIa Material Group (DIN VDE 0110, 1/89, Table I)Maximum Working Voltage Compatible with 50 Years Service LifeV IORM565 V peak Continuous peak voltage across the isolation barrier。

Symbol Test Conditions Maximum RatingsV DSS T J = 25°C to 150°C600 V V DGR T J = 25°C to 150°C, R GS = 1M Ω600 V V GSS Continuous ±30 V V GSM Transient ±40 VI D25T C = 25°C 10 A I DM T C = 25°C, Pulse Width Limited by T JM25 AI A T C = 25°C 10A E AS T C = 25°C500 mJdv/dt I S ≤ I DM , V DD ≤ V DSS , T J ≤ 150°C 10V/ns P D T C = 25°C200W T J -55 ... +150°C T JM 150°C T stg -55 ... +150°C T L 1.6mm (0.062in.) from Case for 10s 300 °C T sold Plastic Body for 10 Seconds 260°C M d Mounting Torque (TO-220) 1.13 / 10 Nm/lb.in.WeightTO-263 2.5 g TO-2203.0gN-Channel Enhancement Mode Avalanche RatedFast Intrinsic RectifierIXFA10N60P IXFP10N60P V DSS = 600V I D25= 10A R DS(on)≤ 740m Ωt rr≤ 200nsG = GateD = Drain S = SourceTab = DrainTO-263 AA (IXFA)GD STO-220AB (IXFP)D (Tab)GSD (Tab)Polar TM HiPerFET TM Power MOSFETSymbol Test Conditions Characteristic Values (T J = 25°C Unless Otherwise Specified) Min. Typ. Max.BV DSS V GS = 0V, I D = 250μA 600VV GS(th)V DS = V GS , I D = 1mA 3.0 5.5 VI GSS V GS = ± 30V, V DS = 0V ±100 nA I DSS V DS = V DSS , V GS = 0V25 μA T J = 125°C 500 μAR DS(on)V GS = 10V, I D = 0.5 • I D25, Notes 1, 2740 m ΩFeaturesz International Standard Packages z Dynamic dv/dt Rating z Avalanche Ratedz Fast Intrinsic Rectifier z Low Q Gz Low R DS(on)z Low Drain-to-Tab Capacitance zLow Package InductanceAdvantagesz Easy to MountzSpace SavingsApplicationszDC-DC Converters zBattery Chargers zSwitch-Mode and Resonant-Mode Power Supplies zUninterrupted Power Supplies zAC Motor Drives zHigh Speed Power Switching ApplicationsIXYS Reserves the Right to Change Limits, Test Conditions, and Dimensions.Symbol Test ConditionsCharacteristic ValuesSource-Drain DiodeNotes: 1. Pulse test, t ≤ 300μs, duty cycle, d ≤ 2%.2. On through-hole packages, R DS(on) Kelvin test contactlocation must be 5mm or less from the package body.IXYS Reserves the Right to Change Limits, Test Conditions, and Dimensions.分销商库存信息:IXYSIXFA10N60P IXFP10N60P。

UMCWB and UMCWBLWideband UHF Diversity Antenna MulticouplersINSTRUCTION MANUALRio Rancho, NM, USA Fill in for your records: Serial Number: Purchase Date:• Assembly and Installation • Antenna TypesUMCWB2LECTROSONICS, INC.UHF Diversity MulticouplerRio Rancho, NM 3Table of ContentsGeneral Technical Description ..............................................................................................................................................................4RF/Power Distribution Module Block Diagram ......................................................................................................................................4Antenna Input .......................................................................................................................................................................................5Power Supply ........................................................................................................................................................................................5Assembly and Installation .....................................................................................................................................................................6Installing the Receivers .........................................................................................................................................................................6Installing the Wire Cover .......................................................................................................................................................................7Installing the Assembled Unit ................................................................................................................................................................7Antenna Types and Bandwidth ..............................................................................................................................................................8Antenna Use and Placement .................................................................................................................................................................9Accessories ..........................................................................................................................................................................................10Specifications .......................................................................................................................................................................................10Service and Repair ...............................................................................................................................................................................11Returning Units for Repair (11)UMCWBLECTROSONICS, INC.4RF/Power Distribution Module Block DiagramGeneral Technical DescriptionThe purpose of wideband architecture is to provide the flexibility needed to deal with a changing RF envi-ronment, and for mobile productions that cover broad geographic areas. The UMCWB provides a mechanical rack mount with power and RF signal distribution for four diversity compact receivers in a single rack space. The standard version covers frequency blocks from 21 through 29. The wideband low version covers frequency blocks from 470 through 26.The RF multicoupler preserves the sensitivity andoverload performance of the finest receivers. Selective filtering in the front end attenuates RF signals above and below the passband to suppress intermodulation and noise. Following the filters is a low noise RF ampli-fier with gain matched to compensate for the losses in the splitter that follows.A precision strip line splitter/isolator divides the RF signal into four isolated signals preventing spurious RF coupling between receivers. The splitter/isolator is termination independent which prevents mismatched or disconnected RF outputs from affecting the other receivers.The assembly is powered from an external source of 11 to 18 VDC with individual auto-reset fuses for each receiver in the RF/power distribution module. This archi-tecture eliminates ground loops and AC hum that can occur when the receiver outputs are connected to other audio equipment operating from a different AC source.RF to Receivers12V DC Power to ReceiversUHF Diversity MulticouplerRio Rancho, NM 5Antenna InputStandard 50 ohm BNC connectors are used for the an-tenna inputs and signal distribution. The RF signals are fed to the receivers via coaxial cables that loop through the front panel to the receiver inputs. The leads are labeled as “A” and “B” and routed so that each receiver has one of each connected for diversity reception.Power SupplyThe multi-coupler is powered by external 12 VDC (11 to 18 VDC is acceptable). The center pin of the input jack is positive. The power supply must be capable of han-dling up to 2 amps of current. DC power is distributed to the receivers via rear panel pigtail connectors.Antenna Inputs12VDC INSerial Number and Frequency12VDC Receiver Power PlugsU-Channel Wire CoverPin diameter .075” (1.8 mm)The Lectrosonics DCR15/2AU is a switching power supply with coaxial connector matched to the 12VDC power jack on the multicoupler. The AC receptacle is a standard, grounded IEC 60320 C14 inlet socket that will accept common cords like those used on computer equipment (AC cord is not included). Output cable is 6 ft. long.“A” leads“B” leadsUMCWBLECTROSONICS, INC.6Assembly and InstallationAssembly of the unit consists of installing the receiv-ers in the frame and connecting the antenna leads and power cables to each receiver.“A” Antenna Leads“B” Antenna LeadsPower Supply LeadsInstalling the Receivers1. Remove the U-channel wire cover by completely re-moving the four counter-sunk phillips head screws from the top of the unit. Underneath the U-channel wire cover is a rectangular metal bar held down by five counter-sunk phillips head screws. Loosen these five screws five to seven turns (it’s not neces-sary to remove them completely.)Note: Before installing the receivers, be sure to record the serial numbers and frequencies. This information is printed on the side panel labels which won’t be visible after installation.2. Route the three longest “B” antenna leads behindthe post nearest the housing as shown here. Re-move the screw from the post next to the housing if necessary to route the longer “B” leads. The short-est “B” lead should be routed along the housing directly to the front panel.“A” leadsThree longest “B” leadsCable routing prior to assembly3. Route the antenna leads through the slots on thefront of the frame before mounting the receivers. Start with the shortest “A” lead and the shortest “B” lead for the receiver closest to the power supply, then the next shortest A and B leads for the next re-ceiver, and so forth. Each diversity receiver must be connected to an “A” lead and a “B” lead for diversity reception.Shortest “B” leadShortest “A” lead4. Insert the first receiver into the slot nearest to thepower switch by sliding it under the wiring harness and the rectangular metal bar. Be sure the front panel of the receiver is fully inserted into the cutout on the inside of the front panel. Install the remainingreceivers in the same manner.5. Secure the receivers into the frame by tighteningthe five counter-sunk phillips head screws in the rectangular metal rod. Don’t overtighten!With each receiver, route the “B” antenna cable under the bar and place it in the gap next to the screw.UHF Diversity MulticouplerRio Rancho, NM7A:B:C:D:E:6. The power cables can be routed outside of the U-channel cover, or routed under the U-channel coveralongside the antenna leads.Note: If you opt to run the power cords outside of the U-channel along the back of the receivers, they might be unplugged accidentally.Installing the Wire CoverInstalling the U-channel wire cover can be difficult if the power cables are routed with the antenna leads under the U-channel wire cover. The cables must lay flat and straight, and not overlap to allow the wire cover to lay flush with the rack mount. The technique described here is the easiest way to install the U-channel wire cover,A) Dress the antenna and power cables so that thebundle is as flat as possible. Make sure no wires are on top of the metal bar.B) Starting at the end opposite the power supply, care-fully place the U-channel wire cover over the wiring bundle and press down.C) While keeping downward pressure on the U-chan-nel, slide it to the left over the wire bundle.D) As you move the U-channel across the bundle,dress the cables with your other hand to make sure the wires remain as flat and neatly aligned as pos-sible. The power cords in particular need to lie flat and not overlap each other.E) While holding the U-channel down, insert the fourphillips head screws and tighten them slowly while watching the wires to make sure none are pinched.Installing the Assembled UnitMount the assembled frame into the rack, connect the antenna and an appropriate power supply. There are no special ventilation requirements.UMCWBLECTROSONICS, INC.8While the wide bandwidth of the multi-coupler is very convenient, it also requires that the antennas used with it also have a bandwidth wide enough to cover the range of the receivers that are installed. If the entire bandwidth from block 21 through block 29 is to be used, the best antenna would be one of the ALP Series logperiodic models.ALP620 Log-periodic antennaThe ALP Series antennas are ideal for use with wide-band multicouplers, offering a directional coverage pat-tern and a gain of 4.5 dBd. Three different models are available to suit your specific needs.Whip antennas can only be used if the frequency block of the antennas is the same as the installed receivers, or one block higher or lower. For example, block 24, 25and 26 receivers can be used with block 25 antennas.Whip antennas can be used as long as the frequency band matches the receivers installed in the multi-coupler.If a circular pattern is needed, the SNA600 dipole model is an excellent choice, however, it is limited to a 100 MHz bandwidth (about 4 blocks). It is tuned to match the frequencies of the installed receivers by adjusting the length of the elements according to the scale on the body of the antenna. It is supplied with a mounting strap, hardware and a rotatable mounting block, and folds for storage.Antenna Types and BandwidthThe SNA600 dipole antenna folds for storageT o achieve wideband, circular coverage, two SNA600 antennas tuned to different frequency ranges can be used with an external combiner, however, loss could occur depending upon how they are positioned and how much overlap exists in their tuning ranges.T o reduce the interaction between two SNA600 anten-nas, mount them in a vertical orientation, about a half wavelength apart, so they will be in each other’s null. In theory, there will be some noise generated by mix-ing the signal from the “out of band” antenna with the intended one, but it is likely to be inconsequential inactual use.Low freq tuning rangeUHF Diversity MulticouplerRio Rancho, NM 9Antenna Use and PlacementTry to position the antennas so that they are not within 3 or 4 feet of large metal surfaces. It is also good to main-tain a direct “line of sight” between the transmitter and the receiver antennas. In situations where the operating range is less than about 50 feet, the antenna position-ing is much less critical.A wireless transmitter sends a radio signal out in all directions. This signal will often bounce off nearby walls, ceilings, metal surfaces, etc. and a strong reflection can arrive at the receiver antenna along with the direct sig-nal. If the direct and reflected signals are out of phase with each other a cancellation will occur as the signals mix at the antenna input. The result will be a “drop-out.”A drop-out usually sounds like a brief noise burst, click, pop, or something similar. In severe cases, it may result in a complete loss of the carrier and the sound. A drop-out situation may be either better or worse as a crowd fills and/or leaves the room, or when the transmitter and receiver antennas are moved to different locations.Diversity receiver designs include a method of select-ing or combining two antennas to reduce or eliminate drop-outs. The antennas must be placed at least a half wavelength apart to achieve a noticeable reduction in drop-outs, or better yet, several feet apart.It is generally best to use two of the same type anten-nas on a diversity receiver, as some designs combine both antenna signals into a single receiver with a phase correction between them to maximize the resultant RF signal. If one antenna signal is significantly stronger than the other, the signal from the weaker antenna will do little to prevent multipath drop-outs that occur at the stronger antenna.The diagram below depicts a classic multipath drop-out situation. In some diversity designs, a second antenna in a different location is selected instead of the first an-tenna, following the logic that a multipath drop-out is not likely to occur simultaneously at both antennas. Other designs combine the two antenna signals and control the phase of one them to make sure they always add to each to provide a stronger signal.UMCWBLECTROSONICS, INC.10This product meets the CE Compliance Standards - EN55022 and EN50082-1:1998. A copy of the Declaration of Conformity may be requested from your dealer or by contacting the factory directly:Lectrosonics, Inc.Marketing Department581 Laser Rd. NE, Rio Rancho, NM 87124 USA tel: 505-892-4501 fax: 505-892-6243e-mail:**************************SpecificationsRF Gain: 0.5 to 1.5dB Bandwidth: UMCWB: 537 to 768 MHz. UMCWBL: 470 to 692 MHzRF Outputs:Eight outputs, 50 Ohm, BNC Isolation between outputs: 25 dB or greaterAny output can be open, shorted or terminated without affecting other outputs.Splitter type: Wilkinson 1/4 waveFiltering: Two pole ceramic filter per antenna Noise figure:3.5dBThird Order Intercept: +27 dBm (input or output)Power Input:+11 to +18V DC;Power Consumption: 2 amps max.Antenna Connectors: 50 ohm BNCShort Circuit Protection: Auto-reset thermal fusesConstruction:Machined aluminum panels and housings.Dimensions: 19” wide, 1.75” high, 6.5” deep Weight:5 lbs. (typical) including 4 receiversSpecifications subject to change without notice.AccessoriesARG2 RF coaxial cable assembly, 2ft length, BNC male connectorsARG15 RF coaxial cable assembly, 15 ft. length, BNC male connectorsARG25 RF coaxial cable assembly, 25 ft. length, BNC male connectorsARG50 RF coaxial cable assembly, 50 ft. length, BNC male connectorsARG100 RF coaxial cable assembly, 100 ft. length, BNC male connectors ALP500 Log periodic dipole array (“shark fin”) antenna; standard versionALP620Log periodic dipole array (“shark fin”) antenna; “skeletal” body reduces wind loading in outdoor useALP650Log periodic dipole array (“shark fin”) antenna; built-in RF amplifier with adjustable gainSNA600 T unable dipole antenna; 100 MHz bandwidthPF25 Passive inline filter; 30 MHz bandwidth; BNC to BNC connectors; bidirectional PF50 Passive inline filter with bias-T; 50 MHz bandwidth; BNC to BNC connectors PS70Power supply; 100-240 VAC; 13.8 VDC, 2.8 A outputUHF Diversity MulticouplerRio Rancho, NM 11Service and RepairIf your system malfunctions, you should attempt to correct or isolate the trouble before concluding that the equipment needs repair. Make sure you have followed the setup procedure and operating instructions. Check the interconnect-ing cables and then go through the Troubleshooting section in this manual.We strongly recommend that you do not try to repair the equipment yourself and do not have the local repair shop attempt anything other than the simplest repair. If the repair is more complicated than a broken wire or loose connec-tion, send the unit to the factory for repair and service. Don’t attempt to adjust any controls inside the units. Once set at the factory, the various controls and trimmers do not drift with age or vibration and never require readjustment. There are no adjustments inside that will make a malfunctioning unit start working .LECTROSONICS’ Service Department is equipped and staffed to quickly repair your equipment. In warranty repairs are made at no charge in accordance with the terms of the warranty. Out-of-warranty repairs are charged at a modest flat rate plus parts and shipping. Since it takes almost as much time and effort to determine what is wrong as it does to make the repair, there is a charge for an exact quotation. We will be happy to quote approximate charges by phone for out-of-warranty repairs.Returning Units for RepairFor timely service, please follow the steps below:A. DO NOT return equipment to the factory for repair without first contacting us by email or by phone. We need to know the nature of the problem, the model number and the serial number of the equipment. We also need a phone number where you can be reached 8 A.M. to 4 P .M. (U.S. Mountain Standard Time).B. After receiving your request, we will issue you a return authorization number (R.A.). This number will help speed your repair through our receiving and repair departments. The return authorization number must be clearly shown on the outside of the shipping container.C. Pack the equipment carefully and ship to us, shipping costs prepaid. If necessary, we can provide you with the proper packing materials. UPS is usually the best way to ship the units. Heavy units should be “double-boxed” for safe transport.D. We also strongly recommend that you insure the equipment, since we cannot be responsible for loss of or dam-age to equipment that you ship. Of course, we insure the equipment when we ship it back to you.Lectrosonics USA:Mailing address: Shipping address: Telephone: Lectrosonics, Inc. Lectrosonics, Inc. (505) 892-4501 PO Box 15900 581 Laser Rd. (800) 821-1121 Toll-free Rio Rancho, NM 87174 Rio Rancho, NM 87124 (505) 892-6243 FaxUSA USAWeb: E-mail: **********************Lectrosonics Canada:Mailing Address: Telephone: E-mail: 720 Spadina Avenue, (416) 596-2202 Sales: ***********************Suite 600 (877) 753-2876 Toll-free Service:*********************Toronto, Ontario M5S 2T9 (877-7LECTRO) (416) 596-6648 Fax03 November 2017581 Laser Road NE • Rio Rancho, NM 87124 USA • (505)892-4501•(800)821-1121•fax(505)892-6243•**********************LIMITED ONE YEAR WARRANTY The equipment is warranted for one year from date of purchase against defects in materials or workmanship provided it was purchased from an authorized dealer. This warranty does not cover equipment which has been abused or damaged by careless handling or shipping. This warranty does not apply to used or demonstrator equipment.Should any defect develop, Lectrosonics, Inc. will, at our option, repair or replace any defective parts without charge for either parts or labor. If Lectrosonics, Inc. cannotcorrect the defect in your equipment, it will be replaced at no charge with a similar new item. Lectrosonics, Inc. will pay for the cost of returning your equipment to you.This warranty applies only to items returned to Lectrosonics, Inc. or an authorized dealer, shipping costs prepaid, within one year from the date of purchase.This Limited Warranty is governed by the laws of the State of New Mexico. It states the entire liablility of Lectrosonics Inc. and the entire remedy of the purchaser for any breach of warranty as outlined above. NEITHER LECTROSONICS, INC. NORANYONE INVOLVED IN THE PRODUCTION OR DELIVERY OF THE EQUIPMENT SHALL BE LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, CONSEQUENTIAL, OR INCIDENTAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THIS EQUIPMENT EVEN IF LECTROSONICS, INC. HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. IN NO EVENT SHALL THE LIABILITY OF LECTROSONICS, INC. EXCEED THE PURCHASE PRICE OF ANY DEFECTIVE EQUIPMENT.This warranty gives you specific legal rights. You may have additional legal rights which vary from state to state.。

Quick GuideFiber Optic Cable InstallationIntroductionFiber optic cables can be easily damaged if they are improperly handled orinstalled. It is imperative that certain procedures be followed in the handlingof these cables to avoid damage and/or limiting their usefulness. Theinformation contained in this manual should serve as a guide to properhandling, installing, testing, and for troubleshooting problems with fiberoptic cables.For:See page:Important User Information 2Overview 3 Fiber Optic Cable Mechanical Limits 4Fiber Optic Cable Installation Guidelines 5Fiber Optic Cable Pulling Techniques 5Fiber Optic Cable Routing Guidelines 7Installation Checklist 9Cleaning Techniques for Fiber Optic Cables 10Additional Fiber Optic Cable Installation and Handling Instructions 10Rockwell Automation Support BackCoverPublication 2090-QR001D-EN-P – April 20052 Fiber Optic Cable InstallationImportant User InformationSolid state equipment has operational characteristics differing from those of electromechanical equipment. Safety Guidelines for the Application, Installation and Maintenance of Solid State Controls (Publication SGI-1.1 available from your local Rockwell Automation sales office or online at) describes some important differences between solid state equipment and hard-wired electromechanical devices. Because of this difference, and also because of the wide variety of uses for solid state equipment, all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable.In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment.The examples and diagrams in this manual are included solely for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or liability for actual use based on the examples and diagrams.No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or software described in this manual.Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation, Inc. is prohibited.Throughout this manual, when necessary we use notes to make you aware of safety considerations.Publication 2090-QR001D-EN-P – April 2005Fiber Optic Cable Installation 3OverviewOptical fibers require special care during installation to ensure reliable operation. Installation guidelines regarding minimum bend radius, tensile loads, twisting, squeezing, or pinching of cable must be followed. Cable connectors should be protected from contamination and scratching at all times. Violation of any of these parameters causes increased attenuation or permanent damage to the cable. The following are a few general comments to consider when installing fiber optic cables.Do Not Exceed Maximum Cable LengthsMake sure you check the installation instructions of the module for the appropriate cable lengths to ensure proper operation.You may experience additional attenuation loss when using bulkhead connectors to join cables even when the total length is less than maximum. Care should be used in maintaining total attenuation budget when joining cables with bulkhead connectors.Do Not Exceed Minimum Bend Radius for a Given Cable Type Exceeding the bend radius of the cable can cause unseen damage to the fibers of the cables that may not manifest itself for a period of time. This can lead to an expensive restringing of cables at a later date. See the following cable specification tables for appropriate bend radii for each catalog number.Figure 1 Correct Bend RadiusPublication 2090-QR001D-EN-P – April 20054 Fiber Optic Cable InstallationPublication 2090-QR001D-EN-P – April 2005Fiber Optic Cable Mechanical Limits Catalog Number Lengthmeters (in.) Long Term Bend Radius No Loadmillimeter (in.) Maximum Tensile Load Newton (lbs.)2090-SCVGx-0 Glass 50 to 200 (1968 to 7872) 30.0 (1.2) < 98 (22)2090-SCVPx-x Plastic 0.1 to 32 (4 to 1260) 40.0 (1.6)< 245 (55)2090-SCEPx-x Plastic 0.1 to 32 (4 to 1260) 25.4 (1.0) < 70 (15)2090-SCNPx-xPlastic 0.1 to 32 (4 to 1260) 25.4 (1.0)< 70 (15)Fiber Optic Cable Installation 5Publication 2090-QR001D-EN-P – April 2005Fiber Optic Cable Installation GuidelinesGeneral practices to follow when installing fiber optic cables include: Avoid Twisting Fiber Optic CableUse proper pulling techniques in laying out your cable. Putting twists in the cable greatly increases your chances of breaking the fibers.Use Proper Pulling Techniques for Fiber Optic CableInstallation methods for both wire cables and optical fiber cables are similar. Just remember these rules:•Never pull on the connector. The connector/cable interface is not designed for pulling.•Use a pulling grip designed for pre-connected fiber optic cables. Grips with a fixed pull ring should use a swivel to attach the pull rope. •Monitor tension. Do not exceed the maximum tensile load.–On runs from 40m to 100m, use proper lubricants and make sure they are compatible with the cable jacket.–On runs over 100m, use proper lubricants and pull from the middle out to both ends.If possible, use an automated puller with tension control or at least a breakaway-pulling eye.•Always use a straight pull. Use cable guides to maintain the recommended bend radius. Do not exceed the cable bend radius.Exceeding the bend radius harms the fibers. It may not be immediate, and it may even take a few years but eventually by exceeding therecommended bend radius of the cable you reduce the useful life of the cable.Figure 2 Proper Pulling Technique Through ConduitCable Conduit ConduitCable6 Fiber Optic Cable InstallationPublication 2090-QR001D-EN-P – April 2005•Do not twist the cable. Putting a twist in the cable can stress the fibers. •Figure 8 for a 40m or longer pull. If you are installing cable of lengths 40m or longer, use a “figure 8" on the ground to prevent twisting (the figure 8 puts a half twist in on one side of the 8 and takes it out on the other, preventing twists.).Figure 3 Prevent Twisting the Cable By Laying Cable in a Figure 8 Patterny cable on floor in a figure 8 pattern.2.Turn Figure 8 cable 360 degrees (upside down) beforecontinuing.3.Pull in opposite direction (may require two people).• Use a swivel-pulling eye , to prevent additional twisting of the cableduring installation.Fiber Optic Cable Installation 7Publication 2090-QR001D-EN-P – April 2005Properly Route Fiber Optic CablesTake care when routing through cabinets and right angle raceways.•Install cables in raceways without loops . Avoid placing fiber optic cables in raceways and conduits with copper cables to avoid excessive loading or twisting.Figure 4 Using Raceways and ConduitsFigure 5 Using Raceways and Conduits Power CablesFiber Optic Cables8 Fiber Optic Cable InstallationPublication 2090-QR001D-EN-P – April 2005•Protect cables from excessive or frequent bending. Cables do not have a flex rating. Routing on a cabinet door should be used as a last resort.Figure 6 Routing Technique for Cabinet Door•Use proper cable pulling techniques when routing cables. See the section entitled Use Proper Pulling Techniques for Fiber Optic Cable earlier in this manual.•Attach cables with plastic clamps having large surface areas. Avoid pinching or squeezing cable. Cable clamps should be installed manually with gentle pressure.Figure 7 Proper Use of Plastic ClampsFiber Optic Cable Installation 9Installation ChecklistUse the following installation checklist to ensure proper handling.Installation procedure Complete Comments Maximum cable length not exceededBending radius not exceededMaximum tensile load not exceeded;proper pulling techniques usedCable not squeezed or bentCable installed without loops in racewaysCable protected from sharp edgesFiber cable installed in separate raceways fromcopperCable connector cleanliness maintainedCable connector finger tight to transceiversHand tighten connectors. Do not use tools to tighten connectors as theymay cause damage to cables and inhibit signal transmission.Publication 2090-QR001D-EN-P – April 200510 Fiber Optic Cable InstallationCleaning Techniques for Fiber Optic CablesProper cleaning of the fiber optic cable ends and transceivers is essential to minimize system attenuation. Dirty fiber optic cables cross contaminate their mating transceivers. Conversely a dirty transceiver contaminates its mating fiber optic cable.There are a variety of ways to clean fiber optic components.Cleaning Fiber Optic Cable EndsUse a wet wipe to loosen particles on the end of the cable connector using a circular or straight wiping motion while using care to avoid wiping over area of pad that has already been used. Do not use a back and forth scrubbing action. Always use a clean area of the swab for each connector. When in doubt use a fresh wipe. Follow up the wet wipe cleaning with a dry wipe to remove any residue. Use canned air to remove any lint from the cable end. Cleaning Fiber Optic TransceiversChoose an optical grade lint free swab that fits easily into the transceiver barrel. The swab should be gently placed into the barrel of the connector and rotate no more than one turn. Do NOT rotate back-and-forth or round-and-round because debris may be ground into the transceiver. Swabs should only be used ONCE. Use a dry clean swab and insert into barrel and rotate once. Discard swab. Use canned air to blow out the barrel. Fiber Optic Cable Installation and Handling InstructionsFor more detailed information on the proper care, handling, and installation of these cables see the Fiber Optic Cable Installation and Handling Instructions manual, publication number 2090-IN010x-EN-P. This manual can be downloaded free of charge in pdf format from the following website:Publication 2090-QR001D-EN-P – April 2005Fiber Optic Cable Installation 11 Notes:Publication 2090-QR001D-EN-P – April 2005Publication 2090-QR001D-EN-P – April 2005PN 957955-27Supersedes publication 2090-IN010B-EN-P – September 2004Copyright © 2004 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.Rockwell Automation SupportRockwell Automation provides technical information on the web to assist you in using our products. At , you can find technical manuals, a knowledge base of FAQs, technical and application notes, sample code and links to software service packs, and a MySupport feature that you can customize to make the best use of these tools.For an additional level of technical phone support for installation, configuration and troubleshooting, we offer TechConnect Supportprograms. For more information, contact your local distributor or Rockwell Automation representative, or visit . Installation AssistanceIf you experience a problem with a hardware module within the first 24 hours of installation, please review the information that's contained in this manual. You can also contact a special Customer Support number for initial help in getting your module up and running: United States1.440.646.3223Monday – Friday, 8am – 5pm EST Outside UnitedStates Please contact your local Rockwell Automation representative for any technical support issues. Ultra3000 and Kinetix are trademarks of Rockwell Automation.。

Copper CablingSystemsInnovative Connectivity Solutions for Maximum PerformancePanduit® Copper Cabling SystemsPanduit offers a range of copper cabling solutions to fit the needs of all types of applications. From trading floors to operating rooms, classrooms to store fronts, Panduit’s copper systems provide the infrastructure needed to support networks of all shapes and sizes. At Panduit, quality is our number one concern, resulting in products that are engineered and produced with reliability and durability in mind.Innovations in Structured Cabling From Panduit• Industry’s first tool-less jack for ease of installation and better performance• 500+ patents on network infrastructure• Invented cable management to improve organization, air flow, and aesthetics• Pioneered 28AWG cabling to helpreduce footprint• Hundreds of millions of jacks installed globally Applications Supported by Copper Cabling• Power over Ethernet• Wireless connectivity• Intelligent lighting• Security cameras• Audio/visual, including HDBaseT*• Building automation systems*HDBaseT is a registered trademark of Valens Semiconductor Ltd.Mini-Com® Cabling SystemFor the most demanding applications, the Panduit®Mini-Com Copper Cabling System is designed toprovide the most innovative features and the lowestcost of ownership over the life of your network.We strive to provide the perfect solution for anyapplication, which means offering custom cableassemblies, a wide range of colors and lengths,and a large selection of patch panel and faceplatetypes to suit your needs. If network performance iscritical to helping you achieve your business goals,choose the Mini-Com Copper Cabling System forunsurpassed performance, quality, and innovationto accommodate the latest technologies.NetKey® Cabling SystemThe Panduit Keystone Copper Cabling System delivers thequality and trusted performance you’ve come to expect fromPanduit with an industry-compatible footprint for use with anykeystone opening. Designed to support the network demandsof our daily lives, the NetKey Product Family is ideal for theclassroom, conference room, office building, or doctor’soffice. With component-compliant jacks and the same qualitymeasures as our Mini-Com Product Line, NetKey Productsprovide the performance and durability you need with theflexibility to integrate with specialty applications such asaudio/visual systems, office furniture with integratedconnectivity, designer faceplates, and brownfield retrofits.3Mini-Com Connector rated to 65C for optimal PoE++ performanceConnectivity rated to 2500 mating cycles with integrated arc suppression for longest-lasting performance, even running PoE++Tool-less termination maintains conductor twist to the point of termination for reliable performance and provides the industry’s highest performing and fastest termination Easily connect cabling directly to end device2-piece construction for easy installationStraight or angled termination optionsJack features optional integrated shutter for protection against dust and debris45-degree termination allows for installations in tight-spaces where bend radius is a concern4100% production tested for quality performanceReterminate up to 20 timesTerminates 22 – 26 AWG cable (28 – 30 AWG jack also available)Category 6A utilizes MaTriXtechnology to provide end-to-end integrated alien crosstalk suppressionIndustry’s smallest Category 6A patch cord – 28AWG, 0.185in (4.7mm)QuickNet ™ Trunk and Harness Assemblies for quick deployment – reduces deployment time by up to 75%5Category 6A, Vari-MaTriX foil provides best-in-classimmunity to external noise while optimizing alien crosstalk and PoE performance with the industry’s smallest Category 6A cable diameter.Pioneered angled patch panel designIndustry’s most stringent testing requirements for headroomCategory 6A cable is rated to 90CMini-Com ® Copper Cabling System – ShieldedCategory 6A 28AWG shielded patch cordsTool-less terminationmaintains conductor twist to the point of termination, for reliable performance and provides the industry’s highest performing and fastest termination6Optional shutter feature protects connections from dust and debrisAngled wire cap makes it easy to install in tight spaces while maintaining bend radiusConnector rated to 65C for optimal PoE++ performanceConnectivity rated to 2500 mating cycles with integrated arcsuppression for longest lasting performance, even running PoE++Third-party testedSimplified grounding with Panduit ® Shielded Jack ModulesTwo piece construction terminates with familiar forward-motion termination technologyEasily connect cabling directly to end deviceProven electrical performance Highest density shielded Category 6A solution, 48 ports in 1 RUGrounding Made Easy1Jack module with integralshield and grounding tabprovides 360° conductivepath for proper grounding.3The patch panel is bonded tothe rack using thread-formingbonding screws that providemetal to metal contact.2Contact between themodule grounding taband patch panel latchprovide bond necessaryfor grounding.4The entire system is bondedto a common grounding pointlocated in the floor, usingPanduit® StructuredGround™Common Bonding Network(CBN) Jumper Kit.• Integrated grounding and bonding provides an easy to install shielded cabling system7NetKey ®Third-party tested, component-compliantconnectivity for reliable performanceFamiliar 110-punchdownterminationIndustry’s most stringenttesting requirements forCategory 6 headroom 100% productiontested for qualityperformanceKeystone footprint forcompatibility with anykeystone opening8Tangle free latchConnectivity rated to 2500 mating cycles for longest-lasting performanceAvailable as an end-to-end Panduit for easy order and deliveryCompatible with Fluke* JackRapid Tool for fast, easy terminationMolded patch panel option provides durability*Fluke is a registered trademark of Fluke Corporation.9100% production tested for quality performance10Vari-MaTriX Technology• Discontinuous metallic foil used on cable and connectors • Offers optimal PoE performance• Benefits of unshielded and shielded combined• Industry’s smallest diameter cable (0.250") for ideal fill ratio • Variable-length foil delivers optimal alien crosstalk and immunity to external noiseIndustry-Leading Category 6A SolutionIndustry’s Leading Headroom Performance• Installed performance using real world testers • True worst-case scenarios, with 48 1 RU panels and 6 around 1 for 100 meters• Minimum channel length of 5 metersDesigned for Next Generation Applications• 100BASE-T, 1000BASE-T, 2.5GBASE-T, 5GBASE-T, 10GBASE-T • Wireless access points 802.11ac • Power over Ethernet 802.3af, 802.3at, and 802.3bt • HDBaseT*Designed for Next Generation Power over EthernetThe unique Panduit ® Category 6A Vari-MaTriX system provides the industry’s best cabling solution to support the PoE++ 802.3bt standard for power levels up to 100 watts.Cable• Vari-MaT riX foil provides optimal heat dissipation • Industry’s highest operating temperature – 90°C • Industry’s largest bundle sizes• Longest allowed cable runs in hotter temperatures • LP ratings of 0.7A (plenum) and 0.5A (riser)Connectors• Integrated arc suppression technology • Rated to 2,500 live PoE++ connections• Industry’s highest operating temperature – 65°C • Deliver PoE++ over 24AWG to 28AWG patch cordsGuaranteed Channel HeadroomElectrical ValueTIACategory 6AISO Class E AInsertion Loss 3%3%NEXT 3.5 dB 2.5 dB PSNEXT 5 dB 4 dB PSACR-F 10 dB 10 dB Return Loss 3 dB 3 dB PSACR-N 6.5 dB 6.5 dB PSANEXT 2 dB 2 dB PSAACR-F10 dB10 dB*Electrical values are above specified standards and consist of worst pair margin per ANSI/TIA-568-C.2 Category 6A and ISO 11801 Class E A standards.*HDBaseT is a registered trademark of Valens Semiconductor Ltd.11The Highest Quality Category 6 OfferingGuaranteed Channel HeadroomElectrical ValueEnhanced*Insertion Loss 5%NEXT 6.0 dB PSNEXT 7.5 dB Return Loss 3.0 dB ACR-N 7.0 dB PSACR-N 9.0 dB ACR-F 7.0 dB PSACR-F9.0 dB*Electrical values are above specified standards and consist of worst pair margin per ANSI/TIA-568-C.2 Category 6 and ISO 11801 Class E standards.Guaranteed Channel HeadroomElectrical ValueNetKey ®*Insertion Loss 3%NEXT 3.0 dB PSNEXT 3.0 dB Return Loss 2.0 dB ACR-N 3.0 dB PSACR-N 4.0 dB ACR-F 4.0 dB PSACR-F6.0 dB*Electrical values are above specified standards and consist of worst pair margin per ANSI/TIA-568-C.2 Category 6 and ISO 11801 Class E standards.Keystone footprint for interoperability with industry faceplates and panels Reliable punchdown terminationsQuality cable technology with 350 MHz cable bandwidthSuperior Category 6 headroom• Protects from standard usage and installation • Minimum channel length of 9 meters • Channel performance guaranteed with NK688M** jack and PUP/PUR6C04 cable• Mini-Com ® and NetKey ® Products built to the same quality standards• All products held to the same stringent quality standards• Jacks, patch cords, and cable are component compliant• Supports PoE, PoE+, and PoE++• Robust constructionEnhanced Category 6 System Keystone Category 6 SystemCustom assemblies and parts availableAdvanced TG-style data communications termination• Reduced installation time • Minimizes untwist for highest performance• Easily reterminatedAdvanced cable technology with 550 MHz cable bandwidth Industry leading Category 6 headroom• Extra margin protects cable from installation and usage• Supports 10GBASE-T over limited distances • Minimum channel length of 5 meters • Channel performance guaranteed with CJ688TG** jack and PUP/PUR6004 cableOrder number of pieces required, in multiples of Standard Package Quantity.1212Mini-Com ®Jack ModulesCategory5eCategory6Category6AStandard Jack Modules CJ5E88TG**CJ688TG**CJ6X88TG**Shuttered Jack Modules CJH5E88TG**CJH688TG**CJH6X88TG**45° Up/Down Angled Wire Cap CJUDCAPRD-C CJUDCAPWH-C CJUDCAPBU-C 45° Left/Right Angled Wire CapCJLRCAPRD-CCJLRCAPWH-CCJLRCAPBU-CFieldTerminable PlugsStraightAngledModular Plug (Compatible with Category 5e, 6 and 6A)FP6X88MTGFPUD6X88MTGPunchdown Patch PanelsCategory5eCategory6Category6A24-Port Flat DP245E88TGY DP24688TGY DP246X88TGY 24-Port Angled DPA245E88TGY DPA24688TGY DPA246X88TGY 48-Port Flat DP485E88TGY DP48688TGY DP486X88TGY 48-Port AngledDPA485E88TGYDPA48688TGYDPA486X88TGYPatch CordsCategory5eCategory6Category6AStandard Patch Cords UTPCH*^Y UTPSP*^Y UTP6ASD*^28AWG Patch Cords UTP28CH*^UTP28SP*^UTP28X*^* = Length in fee t1 – 20 feet (every 1 ft.) 20 – 50 feet (every 5 ft.) ^ =2 character color code.Bulk Packs: Standard jack modules available in bulk packs, which package jacks in a single box with no bag.Add -24 after part number for packs of 24.Add -C after part number for packs of 100.IW EI IG BL BU GR RD OR VL YL WHOff White BL BU GR RD OR VL YL GYIW = Off White, EI = Electric Ivory, IG = International Gray, BL = Black, BU = Blue, GR = Green, RD = Red, OR = Orange, VL = Violet, YL = Yellow, WH = White.Note: Colors shown may differ slightly from actual jack colors.Off White (default, no designation needed), BL = Black, BU = Blue, GR = Green, RD = Red, OR = Orange, VL = Violet, YL = Yellow, GY = Gray.Note: Colors shown may differ slightly from actual cable colors. For service and technical support, call 1-800-PANDUIT. 1313CableCategory5eCategory6Category6APlenum Copper Cable PUP5504BU-UY PUP6004BU-W PUP6AV04BU-G Riser Copper CablePUR5504BU-UYPUR6004BU-WPUR6AV04BU-GAlso available in WH as standard, contact Panduit customer service for more color options.Mini-Com Faceplates1-Port2-Port4-PortFurniture Faceplate——CFFP4BL Furniture Faceplate with Labeling ——CFFPL4BL Furniture Faceplate, Herman Miller ——CFFPHM4BL Classic Faceplate Single Gang CFP1**CFP2**CFP4**Classic Faceplate Single Gang with Label—CFPL2**YCFPL4**Y** Colors available: EI (Electric Ivory), IW (Off White), WH (White).ModularPatch PanelsFlatAngledFlush Mount Modular Patch Panels, 24-port, 1 RUCPP24FMWBLY CPPA24FMWBLY Flush Mount Modular Patch Panels, 48-port, 2 RUCPP48FMWBLY CPPA48FMWBLY High Density Flush Mount Modular Panels, 48-port, 1 RUCPP48HDWBLYCPPA48HDWBLY14Mini-Com Bulk Packs: Standard jack modules available in bulk packs, which package jacks in a single box with no bag.Add -24 after part number for packs of 24.** = Color; # = LR for left/right angle; UD for Up/Down angle.(Compatible with Category 5e, 6 and 6A)Also available in WH as standard, contact Panduit customer service for more color options.Mini-ComJack ModulesCategory5eCategory6Category6AStandard Jack Modules CJS5E88TG**Y CJS688TG**Y CJS6X88TG**Y Shuttered Jack Modules CJSH5E88TG**Y CJSH688TG**Y CJSH6X88TG**Y Angled Jack ModulesCJS#5E88TG**YCJS#688TG**YCJS#6X88TG**YFieldTerminable PlugsStraightModular PlugFPS6X88MTGCableCategory5eCategory6APlenum Copper Cable,F/UTP PFP5504BU-UY PFP6X04BU-UG Riser Copper Cable, F/UTPPFR5504BU-UYPFR6X04BU-CGBlackBU GR RD VL YLNo designation = Black, BU = Blue, GR = Green, RD = Red, VL = Violet, YL = Yellow.Note: Colors shown may differ slightly from actual jack colors.ModularPatch PanelsFlatAngledFlush Mount Modular Patch Panels, 24-port, 1 RU CP24BLY CPA24BLY Flush Mount Modular Patch Panels, 48-port, 2 RU CP48BLY CPA48BLY High Density Flush Mount Modular Panels, 48-port, 1 RUCP48HDBLCPA48HDBL* = Length in meters available in: 0.2, 0.5, 0.5 to 5m (every 0.5m) 6 to 15m (every 1m), 20m Patch CordsCategory 6/6ACategory 6A Standard Patch Cords (26 AWG)STP6X*M^Category 6A 28 AWG Patch CordsSTP28X*M^Notes: Colors shown may differ slightly from actual cable colors.BL BU GR RD OR VL YLIG15NetKey® System Components*Replace BU in part number with any color shown. Replace XX in part number with length designation: 3, 5, 7, 10, 14, or 20 feet. For lengths other than listed, see .Standard colors: Blue and White. Replace BU in part number with WH for White. Contact Customer Service for additional colors.KeystoneJack ModulesCategory5eCategory6Category6ANetKey Punchdown Jack Modules^%NKP5E88MBUNK688MBUNK6X88MBU^Add -Q to end of part number for box of 25 jacks.% = Color. Replace BU in part number with any color shown.NetKey Patch CordsCategory5eCategory6Category6APatch Cords*NK5EPCXXBUYNK6PCXXBUYNK6APCXXBUCopper CableCategory5eCategory6Category6APanduit Plenum Copper Cable PUP5C04BU-U PUP6C04BU-UPUP6AS04BU-GGeneral Cable Plenum Copper Cable 5131278E 71318007141819Panduit Riser Copper Cable PUR5C04BU-U PUR6C04BU-UPUR6AM04BU-CGGeneral Cable Riser Copper Cable5133299E71338007133786IW = Off White, EI = Electric Ivory, IG = International Gray, BL = Black, BU = Blue, GR = Green, RD = Red, OR = Orange, VL = Violet, YL = Yellow, WH = White.Note: Colors shown may differ slightly from actual jack colors.Off White BL BU GR RD YLNote: Colors shown may differ slightly from actual cable colors.KeystoneFaceplate Frames+2-Port4-PortNetKey Classic Faceplates with labelsNK2FIWY NK4FIWY NetKey Classic Faceplates with no labelsNK2FNIWNK4FNIW NetKey Furniture Faceplate —NK4MFBL NetKey Surface Mount BoxesNK2BXIW-ANK4BXIW-AYKeystone Modular Patch Panels24-Port Flat24-Port Angled48-Port Flat48-Port AngledFlush Mount Modular Patch Panels NKPP24FMY NKPPA24FMYNKPP48FMY NKPPA48FMYMolded Modular Patch PanelsNKPP24P—NKPP48P—Colors: Replace IW (Off White) in part number with WH (White) or EI (Electric Ivory).IW EI IG BL BU GR RD OR VL YL WHNetKey Punchdown Patch PanelsCategory5eCategory6Category6A24-Port Flat NK5EPPG24Y NK6PPG24Y NK6XPPG24Y 24-Port Angled NKA5EPPG24Y NKA6PPG24Y NKA6XPPG24Y 48-Port Flat NK5EPPG48Y NK6PPG48Y NK6XPPG48Y 48-Port AngledNKA5EPPG48YNKA6PPG48YNKA6XPPG48YPlease see /NetKey for additional information on the complete NetKey Line.Order number of pieces required, in multiples of Standard Package Quantity.16© 2019 Panduit Corp. ALL RIGHTS RESERVED. COCB29--SA-ENG 8/2019Panduit Corp.World Headquarters Tinley Park, IL 60487800.777.3300All trademarks, service marks, trade names, product names, and logos appearing in this document are the property of their respective owners.。

TX6A™ 10Gig™ UTP COPPER CABLING SYSTEM STANDARD COMPLIANT CATEGORY 6A CABLE INSTALLATION GUIDELINES PN576The standard compliant TX6A™ 10Gig™ UTP Copper Cabling System is to be installed in accordance to the cable management requirements set forth in ANSI/TIA-568-C.2(Commercial Building Telecommunications Cabling Standard) and in ANSI/TIA-569-C (Commercial Building Standard for Telecommunications Pathways and Spaces). To aid compliant installation, guidelines for Panduit standard compliant TX6A™ 10Gig™UTP Copper Cabling System are provided below.Pathways and Spacing Management•Pathways should be located to minimize occupant disruption and allow for easy moves, adds, and changes.•For initial installation, the maximum fill capacity for pathways (i.e. conduit, raceways, trays, baskets) is 40 percent.Number cables = Pathway Internal Area X 40%Cable AreaTX6A™ 10Gig™ Cable AreaFlame Rating P/N inches2 mm2Plenum PUP6XC04** 0.083 54Riser PUR6XC04** 0.091 58LSZH PUL6XC04** 0.083 54CM/PVC PUC6XC04** 0.083 54•The maximum fill capacity of 60 percent is allowed to accommodate future additions after initial installation.•Proper cable bend radius control must be maintained throughout the pathways. The bend radius needs to be four (4) times the cable diameter.TX6A™ 10Gig™ Bend RadiusFlame Rating P/N inches mmPlenum PUP6XC04** 1.30 33Riser PUR6XC04** 1.36 34LSZH PUL6XC04** 1.30 33CM/PVC PUC6XC04** 1.30 33Pathways and Spacing Management•For data center applications, it is recommended to use Panduit® F iber Runner™ or GridRunner™Underfloor Cable Routing Systems for cable raceway management.The fittings provide minimum 1.5-inch bend radius to protect against signal loss due to excessive cable bends.•Pathways should be designed to allow for future expansion (minimum two cables per work area, with pathways supporting three cables per work area).Therefore when designing a pathway, the pathway needs to accommodate 150% of the initial cable installation. For example, if the initial design requires 2 cables each for ten workareas, the pathway shall be designed to accommodate 30 cables.•Conduit should be run in the most direct route possible with no more than two 90 degree bends between pull boxes and serve no more than three outlet boxes.Conduit bends should be at least six times the conduit diameter.•Cable trays are to be installed per manufacturing guidelines and loading capacities must be considered during cabling installation.•Cable trays used in the ceiling should allow for at least 12 inches (305 mm) of clearance above the tray. Cable trays used in the floor should allow for at least 2 inches (51 mm) of clearance between the top part of the tray and the bottom of the floor tile.•J-Mod or J-Pro Cable Support System should be located at 5 foot intervals maximum and have at least 3 inches (76 mm) of clearance above suspendedceilings.•Please reference Panduit website for J-Mod or J-Pro Cabling Support System fill capacity information for various sizes available.Cable Separation Management•TX6A™ 10Gig™UTP Copper Cables do not have any specific limitations with sharing pathways with other category copper cables throughout the whole cable run.•Separation and physical barriers between TX6A™ 10Gig™ UTP Copper Cable and power cables must be maintained within raceways. If TX6A™ 10Gig™UTP Copper Cable and power cables need to cross install perpendicular to each other. Please reference the National Electric Code for local installation guidelines.•The maximum channel distance for the TX6A™10Gig™ UTP Copper Cabling System in the backbone and/or horizontal is 328 feet (100 meters). The total length of equipment cords, patch cords and work area cords shall not exceed 33 feet(10 meters).•The maximum permanent link distance for the TX6A™10Gig™ UTP Copper Cabling System in the backbone and/or horizontal is 295 feet (90 meters).•Please reference Appendix B for Panduit Recommended Standard Compliant Cat 6A Cable Channel Configurations with no restrictions (including HD applications).Cable Pulling & Installation Management•The maximum pulling tension is not to exceed 25 lbf. Cable installation should not in any way deform the cable jacket.•The cable should not come in contact with any water or chemicals (ex. paint, lubricants), or be exposed to any high humidity during or after installation.•Avoid any cable kinks and maintain proper bend radius control during cabling pulling.If any kinks should occur, kinked cable should be removed and replaced.•Tak-Ty®Hook & Loop Cable Ties,Contour-Ty® Cable Ties, Belt-Ty™ In-Line Cable Ties or Pan-Ty® Cable Ties should be applied loosely and at random intervals tocable bundles to avoid any pinching or crushing of the cable jackets.•For aesthetics and ease of bundling, the Cable Bundling and Organizing Tool (i.e.P/N CBOT24K) is recommended.Cable Management in the Telecommunication Room•Organize and manage cables for quick and easy moves, adds and changes •Termination procedures at the patch panel include:▪Feed cables from both sides of the panel▪Maintain acceptable bend radius levels▪Do not kink cables▪Do not cinch cable ties so tightly as to deform the cable in any way▪To enhance wire management in the back of the panel, it isrecommended that a strain relief bar (i.e. P/N SRBM19BLY) be mountedto the rack. The strain relief bar includes Tak-Ty® Hook & Loop CableTies for additional cable management.•Termination procedures for the DP6A™ 10Gig™ Punchdown Patch Panel include: ▪Follow installation instruction sheet PN379.▪Outer cable jacket should be as close as possible to point of termination▪Last twist should be no further than 0.5 inches from the point oftermination.Cable Management in the Work Area•For surface raceway applications, the Pan-Way®TG Surface Raceway System is the optimal solution in the work area for routing TX6A™ 10Gig™Copper Cables. The TG Raceway system provides adequate space to maintain proper cable bend radius control.•Allow for at least one outlet per work area with a minimum of two cable terminations.•Pathways should be designed to allow for future expansion. For example, work areas with two cables must be served by pathways that can accommodate aminimum of three cables.•Allow for at least 12 inches (305 mm) of slack at the work area. Pull slack up into the ceiling or back into the raceway and store it there, where it can later be pulled into the box if re-termination is necessary.•Terminate Mini-Com® TX6A™10Gig TM UTP Jack Modules per installation instruction sheet PN511.•To improve bend radius control of TX6A™ 10Gig™ Copper Cable in junction boxes, it is recommended that Panduit sloped faceplates (i.e. P/N UICFPSE2**) be used in the work area.•With Panduit sloped faceplates, the following junction boxes can be used with TX6A™10Gig™ UTP Copper Cable (i.e. P/N JBX3510**-A, JB1**-A, JBP1**-A,JBP1I**-A, JB1FS**-A, JBP2**-A, JB1D**-A, JBP1D**-A, JBP2D**-A).•With Panduit®flush faceplates, the following junction boxes can be used with TX6A™ 10Gig™ UTP Copper Cable (i.e. P/N JB1D**-A, JBP1D**-A, JBP2D**-A).Reference DocumentsANSI/TIA-568-C (Commercial Building Telecommunications Cabling Standard)ANSI/TIA-569-C (Commercial Building Standard for Telecommunications Pathways and Spaces)DP6TM 10Gig TM Patch Panel installation instruction sheet PN379Mini-Com® TX6A TM 10Gig TM UTP Jack Modules installation instruction sheet PN511TX6A TM or TX6A-SD TM 10Gig TM UTP Copper Cabling Systems with MaTriX Technology Installation Guidelines PN390Panduit Standard Compliant TX6A TM 10Gig TM UTP Copper Cabling SystemConduit Fill Capacity TableStandard Compliant TX6A™ 10Gig™ UTP Copper Cable (PUP6XC04, PUL6XC04, PUC6X04)Conduit Trade Size Inches (mm)Internal Conduit Area Cable AreaMax. No. CablesUsing 40% Fill Rate Internal Diameter Area-.79D2 Total 100% Area 40% Fillinches mm inches2mm2inches2mm2inches2mm23/4 (21) 0.82 20.9 0.53 345 0.21 138 0.083 54 3 1 (27) 1.05 26.6 0.87 559 0.35 224 0.083 54 4 1 (35) 1.38 35.1 1.50 973 0.60 389 0.083 54 7 1 (41) 1.61 40.9 2.05 1322 0.82 529 0.083 54 102 (53) 2.07 52.5 3.39 2177 1.35 871 0.083 54 16 2-1/2 (63) 2.47 62.7 4.82 3106 1.93 1242 0.083 54 23 3 (78) 3.07 77.9 7.45 4794 2.98 1918 0.083 54 36 3-1/2 (91) 3.55 90.1 9.96 6413 3.98 2565 0.083 54 484 (103) 4.03 102.3 12.83 8268 5.13 3307 0.083 54 615 (129) 5.05 128.2 20.15 12984 8.06 5194 0.083 54 966 (155) 6.07 154.1 29.11 18760 11.64 7504 0.083 54 139Standard Compliant TX6A™ 10Gig™ UTP Copper Cable (PUR6XC04)Conduit Trade Size Inches (mm)Internal Conduit Area Cable AreaMax. No. CablesUsing 40% Fill Rate Internal Diameter Area-.79D2 Total 100% Area 40% Fillinches mm inches2mm2inches2mm2inches2mm23/4 (21) 0.82 20.9 0.53 345 0.21 138 0.083 58 2 1 (27) 1.05 26.6 0.87 559 0.35 224 0.083 58 4 1 (35) 1.38 35.1 1.50 973 0.60 389 0.083 58 7 1 (41) 1.61 40.9 2.05 1322 0.82 529 0.083 58 92 (53) 2.07 52.5 3.39 2177 1.35 871 0.083 58 15 2-1/2 (63) 2.47 62.7 4.82 3106 1.93 1242 0.083 58 21 3 (78) 3.07 77.9 7.45 4794 2.98 1918 0.083 58 33 3-1/2 (91) 3.55 90.1 9.96 6413 3.98 2565 0.083 58 444 (103) 4.03 102.3 12.83 8268 5.13 3307 0.083 58 575 (129) 5.05 128.2 20.15 12984 8.06 5194 0.083 58 906 (155) 6.07 154.1 29.11 18760 11.64 7504 0.083 58 129Panduit Recommended Category 6A Channel Configurations with MinimumPatch Cord and Cable Lengths(PUP6XC04, PUR6XC04, PUC6XC04, PUL6XC04)。

Introduction and Applications for Ceramic Band Pass FiltersDATA SHEETFeaturesGHigh Q ceramic G RuggedG Temperature compensated G Custom designsBenefitsGLow insertion loss G Small compact design G Frequency stability G MechanicalstabilityIntroductionTrans-Tech Inc.,a wholly-owned subsidiary of Skyworks Solutions Inc.,is a world-class supplier of high performance ceramic band pass filters.Specializing in band pass,notch and diplexing applications,Trans-Tech can cover a frequency range from 300MHz to 6000MHz with surface mount or connectorized devices.Utilizing state of the art assembly automation,Trans-Tech provides cost-effective solutions meeting high performance specifications.Trans-Tech surface mount PCB configured filters are designed to comply with “green”manufacturing initiatives eliminating heavy metal elements.This configuration is designed to comply with pending European regulations regarding the elimination of lead in electronic assemblies.Custom assemblies can be obtained with flat pack style SMT devices,through-hole or Sn/Pb coated PCB surface mount designs.Trans-Tech assembly methodology offers a wide array of designs,from 2mm x 2pole –8mm x 10pole band pass filters and diplexers,to advanced band stop (notch)designs and high-pass or low-pass filters.For typical applications and ranges of prod-ucts,refer to the Standard Filters/Duplexers listing included in this document.Detailed specifications,both mechanical andelectrical,are maintained for many popular designs on our Web site,or by contacting your local sales representative.The nature of applications utilizing a band pass filter,duplexer or notch filter,necessitates the close interaction of the customer and Trans-Tech application engineering.Our application engi-neers employ the latest in simulation and circuit analysis software with accurately defined design rules to provide rapid turnaround on new filter designs.With our experience and design aids,Trans-Tech can provide the necessary support for your application from prototype through production.In addition to the personal attention,Trans-Tech offers a computer-aideddesign tool,CRaFT,to assist engineers designing filters (the latest version can be downloaded from our Web site,.The strength of Trans-Tech designs begin with our ability to produce our own coaxial resonators from proprietary ceramic formulations.These resonators provide a high Q element that allows us to maintain our low filter insertion loss values.With numerous design package styles,Trans-Tech offers aggressive leadtimes on both prototype and volume applications.DATA SHEET •INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSCenter frequency 300MHz to 6GHzStandard filter type Ceramic band pass,duplexer,notch,LPF Number of poles 2–10Resonator sizes 2,3,4,6,8and 12Bandwidth 1.0%–10%(May vary depending on resonator size,F O &εR )Insertion loss 1–4dB typical by design Attenuation Varies by number of poles Impedance 50or 75ΩVSWR2.0:1maximum Operating temperature range -40to +85°CMechanical packaging options PCB surface mount,thru-hole,&flat pack surface mount Power handling (continuous)1W typical*Figure 1.1Standard Capabilities**Contact Skyworks application engineering for assistance with any other requirement.Standard Filters/Duplexers*This list contains Trans-Tech most popular filter and diplexer designs.A variety of footprints and configurations are available for application-specific needs.Please contact the factory or your local representative with your specifications or for more informa-tion on any of these designs.Trans-Tech maintains a list of over 700active filters and diplexers.We welcome every opportunity to assist in the selection or creation of a filter or diplexer that will meet your specifications.Standard Filter Selection GuideTrans-Tech has a wide range of standard filters,as well as the capability to rapidly create new custom designs.Figure 1.1illus-trates our general capability for filters.If a desired requirement falls within the listed categories,Trans-Tech can easily offer a suitable design.Beyond this general list,Trans-Tech has a staff of experienced filter designers who can provide new custom and more technologically difficult filters.In addition,the CRaFT pro-gram functions as a useful tool when analyzing filter requirements.Trans-Tech welcomes the chance to review specifications and determine a design solution.Center FrequencyBandwidth Insertion LossPart Number Filter Type Size/Poles (MHz)(MHz)(dB)Package TT3P2-1068P0-3507Band Pass 3mm/2pole 1068350.7PCB SMT TT4P2-1013P2-2020Band Pass 4mm/2pole 1013202PCB SMT TT4P2-1082.5P2-0720Band Pass 4mm/2pole 1082.572PCB SMT TT4P2-1082P2-0620Band Pass 4mm/2pole 108262PCB SMT TT4P2-1090P2-0610Band Pass 4mm/2pole 109061PCB SMT TT4P3-1030P2-1535Band Pass 4mm/3pole 103015 3.5PCB SMT TT4P3-1067P2-4420Band Pass 4mm/3pole 1067442PCB SMT TT6P4-1080P4-7015Band Pass 6mm/4pole 108070 1.5PCB SMT TT6P4-1090P2-1036Band Pass6mm/4pole1090103.6PCB SMTCATVCenter FrequencyBandwidth Insertion LossPart Number Filter Type Size/Poles (MHz)(MHz)(dB)Package TT6P6-0750P0-5017Band Pass 6mm/4pole 75050 1.7PCB SMT TT6P5-0765P0-11225Band Pass 6mm/5pole 765112 2.5PCB SMT TT6P2-0770T-1215Band Pass 6mm/2pole 77012 1.5PCB SMT TT6P3-0770T-1225Band Pass 6mm/3pole 77012 2.5PCB SMT TT6P3-0770T-2020Band Pass6mm/3pole770202PCB SMTWCSDATA SHEET•INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSMDSCenter Frequency Bandwidth Insertion Loss Part Number Filter Type Size/Poles(MHz)(MHz)(dB)PackageTT4P3-2120P2-6020Band Pass4mm/3pole2120602PCB SMTTT4P6-2122P0-2835Band Pass4mm/6pole212228 3.5PCB SMTTT6P4-2158P2-14220Band Pass4mm/4pole2158142PCB SMTTT6P6-2500P3-3635Band Pass6mm/6pole250036 3.5PCB SMTISMCenter Frequency Bandwidth Insertion Loss Part Number Filter Type Size/Poles(MHz)(MHz)(dB)PackageTT4P2-0915P2-2620Band Pass4mm/2pole915262PCB SMTTT6P2-0902F-2518Band Pass6mm/2pole90225 1.8PCB SMTTT6P2-0915T-2518Band Pass6mm/2pole91525 1.8PCB SMTTT6P3-0902T-2520Band Pass6mm/3pole902252PCB SMTTT6P3-0915T-2520Band Pass6mm/3pole915252PCB SMTTT6P3-0917F-1425Band Pass6mm/3pole91714 2.5PCB SMTTT3P3-2400P1-1030Band Pass3mm/3pole2400103PCB SMTTT3P3-2450P1-1445Band Pass3mm/3pole245014 4.5PCB SMTTT6P3-2467P0-3330Band Pass6mm/3pole2467333PCB SMTCellular/PCS/DCS/UMTSCenter Frequency Bandwidth Insertion Loss Part Number Filter Type Size/Poles(MHz)(MHz)(dB)PackageTT3P2-1880P0-6010Band Pass3mm/2pole1880601PCB SMTTT3P3-0881.5P2-2530Band Pass3mm/3pole881.5253PCB SMTTT3P3-1880P0-6022Band Pass3mm/3pole188060 2.2PCB SMTTT3P3-1960P0-6022Band Pass3mm/3pole196060 2.2PCB SMTTT3P3-1960P2-6030Band Pass3mm/3pole1960603PCB SMTTT3P4-0836.5P2-2525Band Pass3mm/4pole836.525 2.5PCB SMTTT3P4-0881.5P2-2525Band Pass3mm/4pole881.525 2.5PCB SMTTT3P4-1880P2-6020Band Pass3mm/4pole1880602PCB SMTTT3P4-1880P2-6030Band Pass3mm/4pole1880603PCB SMTTT4P3-0863P0-0585Band Pass4mm/3pole86358.5PCB SMTTT4P3-2180P1-2540Band Pass4mm/3pole2180254PCB SMTTT4P4-1880P0-6216Band Pass4mm/4pole188062 1.6PCB SMTTT4P4-1960P0-6216Band Pass4mm/4pole196062 1.6PCB SMTTT4P5-2240P2-1032Band Pass4mm/5pole224010 3.2PCB SMTTT4P6-0860.5P0-1937Band Pass4mm/6pole860.519 3.7PCB SMTTT6P3-0836T-2520Band Pass6mm/3pole836252PCB SMTTT6P3-0860P3-2020Band Pass6mm/3pole860202PCB SMTTT6P3-0860T-2020Band Pass6mm/3pole860202PCB SMTTT6P3-0881F-2520Band Pass6mm/3pole881252PCB SMTTT6P5-1960P0-6025Band Pass6mm/5pole196060 2.5PCB SMTTT6P5-2280P1-7032Band Pass6mm/5pole228070 3.2PCB SMTTT6P6-1900P3-8035Band Pass6mm/6pole190080 3.5PCB SMTTT6P3-2140P2-6011Band Pass6mm/3pole214060 1.1PCB SMTTT6P10-R1950-T2140Diplexer6mm/10pole1950--PCB SMTDATA SHEET•INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSGPSCenter Frequency Bandwidth Insertion Loss Part Number Filter Type Size/Poles(MHz)(MHz)(dB)Package TT4P4-R1227.6-T1575.42Diplexer6mm/3pole1227.6--PCB SMT TT4P3-1227.6P1-2030Band Pass6mm/3pole1227.6203PCB SMT TT4P3-1575.42P2-2040Band Pass6mm/3pole1575.42204PCB SMT TT3P3-1227.6P1-1030Band Pass6mm/3pole1227.6103PCB SMT TT3P3-1575.42P2-1030Band Pass6mm/3pole1575.42103PCB SMTOtherCenter Frequency Bandwidth Insertion Loss Part Number Filter Type Size/Poles(MHz)(MHz)(dB)Package TT3P4-2513P2-5055Band Pass6mm/3pole251350 5.5PCB SMT TT3P5-3687P1-7466Band Pass6mm/3pole368774 6.6PCB SMT TT4P3-3417P2-0220Band Pass6mm/3pole341722PCB SMT TT4P5-1090P0-1050Band Pass6mm/3pole1090105PCB SMT TT6P5-0810P3-5030Band Pass6mm/3pole810503PCB SMT TT6P4-0509P7-0148Band Pass6mm/3pole5091 4.8PCB SMT TT4P4-1000P2-1030Band Pass6mm/3pole1000103PCB SMT TT6P3-0826.5P3-0520Band Pass6mm/3pole826.552PCB SMT TT6P3-0827P3-0620Band Pass6mm/3pole82562PCB SMT TT6P6-1000P5-8530Band Pass6mm/3pole1000853PCB SMT TT6P6-0545P6-3022Band Pass6mm/3pole54530 2.2PCB SMT TT4P3-3500P2-10020Band Pass6mm/3pole3500102PCB SMT TT6P6-0889P3-4029Band Pass6mm/3pole88940 2.9PCB SMT TT6P4-0722P4-4817Band Pass6mm/3pole72248 1.7PCB SMT TT3P3-1088P2-9015Band Pass6mm/3pole108890 1.5PCB SMT TT6P3-0740P3-2020Band Pass6mm/3pole740202PCB SMT TT6P5-1950P3-6040Band Pass6mm/3pole1950604PCB SMT TT3P4-0917P2-4524Band Pass6mm/3pole91745 2.4PCB SMT TT6P3-1090P2-1029Band Pass6mm/3pole109010 2.9PCB SMT TT6P4-0770P0-1240Band Pass6mm/3pole770124PCB SMT TT6P3-1030P2-1029Band Pass6mm/3pole103010 2.9PCB SMT TT6P5-0881.5P0-2530Band Pass6mm/3pole881.5253PCB SMT TT6P3-0730P3-1213Band Pass6mm/3pole73012 1.3PCB SMT TT6P3-0445.25T-0145Band Pass6mm/3pole445.251 4.5PCB SMT TT4P3-2400P1-20015Band Pass6mm/3pole240020 1.5PCB SMT TT6P3-1080P2-0650Band Pass6mm/3pole108065PCB SMT TT6P3-0745.3P3-1920Band Pass6mm/3pole745.3192PCB SMT TT6P4-0435P0-3019-NS Band Pass6mm/3pole43530 1.9PCB SMT TT3P4-0895.5P2-3926Band Pass6mm/3pole895.539 2.6PCB SMTDATA SHEET •INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSAvailable PackagesTrans-Tech offers filters in a number of standard packages.In addition to SMT,Trans-Tech offers a flat-pack and through-hole configuration.Mechanical drawings are provided for most of our filters.In addition to our standard offering,Trans-Tech has the capability and experience to meet many unique footprint layouts and custom packages.For each of our 2to 6pole packages,Trans-Tech can offer pro-files ranging from 2mm to 6mm.2mm SMTTT2P2—P—TT2P3—P—TT2P4—P—TT2P5—P—TT2P6—P—SMT FilterLengthFilter Inches mm P10.43411P20.51213P30.59015P40.66917P50.74819P60.82721P70.90623P0CustomCustomDimension ‘L’will vary in length dependent upon filter’s frequency.DATA SHEET •INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSTT3P2—P—3mmSMTTT3P3—P—TT3P4—P—TT3P5—P—TT3P6—P—Dimension ‘L’will vary in length dependent upon filter’s frequency.SMT Filter LengthFilter Inches mm P10.43411P20.51213P30.59015P40.66917P50.74819P60.82721P70.90623P0CustomCustomDATA SHEET •INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSTT4P2—P—4mmSMTTT4P3—P—TT4P4—P—TT4P5—P—TT4P6—P—Dimension ‘L’will vary in length dependent upon filter’s frequency.SMT Filter LengthFilter Inches mm P10.43411P20.51213P30.59015P40.66917P50.74819P60.82721P70.90623P0CustomCustomDATA SHEET •INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSTT6P2—P—6mmSMTTT6P3—P—TT6P4—P—TT6P5—P—TT6P6—P—Dimension ‘L’will vary in length dependent upon filter’s frequency.SMT Filter LengthFilter Inches mm P10.43411P20.51213P30.59015P40.66917P50.74819P60.82721P70.90623P0CustomCustomDATA SHEET •INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERS6mm Flat Pack (F)6mm Thru-Hole (T)TT6P2—FTT6P2—TTT6P3—TTT6P3—FDimension ‘L’will vary in length dependent upon filter’s frequency.DATA SHEET•INTRODUCTION AND APPLICATIONS FOR CERAMIC BAND PASS FILTERSCopyright©2006,2007,Trans-Tech Inc.,Inc.All Rights Reserved.Information in this document is provided in connection with Trans-Tech,Inc.("Trans-Tech"),a wholly-owned subsidiary of Skyworks Solutions,Inc.These materials,including the information contained herein,are provided by Trans-Tech as a service to its customers and may be used for informational purposes only by the customer.Trans-Tech assumes no responsibility for errorsor omissions in these materials or the information contained herein.Trans-Tech may change its documentation,products,services,specifications or product descriptions at any time,without notice.Trans-Tech makes no commitment to update the materials or information and shall have no responsibility whatsoever for conflicts,incompatibilities,or other difficulties arising fromany future changes.No license,whether express,implied,by estoppel or otherwise,is granted to any intellectual property rights by this document.Trans-Tech assumes no liability for any materials,products or information provided hereunder,including the sale,distribution,reproduction or use of Trans-Tech products,information or materials,except as may be provided in Trans-Tech Terms and Conditions of Sale.THE MATERIALS,PRODUCTS AND INFORMATION ARE PROVIDED"AS IS"WITHOUT WARRANTY OF ANY KIND,WHETHER EXPRESS,IMPLIED,STATUTORY,OR OTHERWISE,INCLUDING FITNESS FOR A PARTICULAR PURPOSE OR USE,MERCHANTABILITY,PERFORMANCE,QUALITY OR NON-INFRINGEMENT OF ANY INTELLECTUAL PROPERTY RIGHT;ALL SUCH WARRANTIES ARE HEREBY EXPRESSLY DISCLAIMED.TRANS-TECH DOES NOT WARRANT THE ACCURACY OR COMPLETENESS OF THE INFORMATION,TEXT,GRAPHICS OR OTHER ITEMS CONTAINED WITHIN THESE MATERIALS.TRANS-TECH SHALL NOT BE LIABLE FOR ANY DAMAGES,INCLUDING BUT NOT LIMITED TO ANY SPECIAL,INDIRECT,INCIDENTAL,STATUTORY,OR CONSEQUENTIAL DAMAGES,INCLUDING WITHOUT LIMITATION, LOST REVENUES OR LOST PROFITS THAT MAY RESULT FROM THE USE OF THE MATERIALS OR INFORMATION,WHETHER OR NOT THE RECIPIENT OF MATERIALS HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.Trans-Tech products are not intended for use in medical,lifesaving or life-sustaining applications,or other equipment in which the failure of the Trans-Tech products could lead to personal injury, death,physical or environmental damage.Trans-Tech customers using or selling Trans-Tech products for use in such applications do so at their own risk and agree to fully indemnify Trans-Tech for any damages resulting from such improper use or sale.Customers are responsible for their products and applications using Trans-Tech products,which may deviate from published specifications as a result of design defects,errors,or operation of products outside of published parameters or design specifications.Customers should include design and operating safeguards to minimize these and other risks.Trans-Tech assumes no liability for applications assistance,customer product design,or damage to any equipment resulting from the use of Trans-Tech products outside of stated published specifications or parameters.。

L o n g-L a s t i n g B r i g h t n e s s PT-F200NT U PT-F200ULCD ProjectorsA Bright Choice for New Installations and Replacement UseAuto R olling Filter (AR F) and Anti-Dust Design A Micro Cut Filter,a high-efficiency electrostatic filter,with superior dust-collecting performance combines with Panasonic’s original Auto RollingFilter and anti-dust design to minimize brightness loss due to dust accumulation.The projector automatically detects when dustaccumulates on the high-efficiency electrostatic filter and impairs performance.The affected section of the filter is wound into the casing,so the filter maintains its dust-catching capability.In developing the anti-dust design,Panasonic totally re-engineered the airflow path,from intake to exhaust,to create a cabinet that hermetically seals off the projector interior.This design and the Auto Rolling Filter team up to keep the air inside the projector dust-free at all times.ARF unitARF unitMicro Cut FilterA high-efficiency electrostatic filter in the air intake sec-tion traps dust particles that are 1 microns or larger.By capturing approximately 7 times as much dust as our pre-vious filters,it guards against optical blocks and reduces the penetration of dust into the interior to provide stable operation by preventing drops in brightness.1A D V A N C E D T E C H N O L O G I E S T H A T M A I N T A I N H I G HB R I G H T N E S S O V E R A L O N G E R S E R V IC E L I F EThe projector can also b e set on a shelf at the b ack of the room,greatly simplifying installation.Thanks to the wireless LAN function,you can set up a sys-tem using multiple PCs quickly and easily.The PT-F200N TU and PT-F200U are high-performance LCD projectors designed for use in fixed installations.Each model combines Panasonic’s original Auto Rolling Filter with an original lamp drive system to deliver crisp,bright images over extended periods of time and enable a 5,000-hour*1lamp replacement cycle.Each also offers outstanding installation flexibility,with 2x zoom lens,lens shift and wireless/wired LAN *2functions that accommodate everything from permanent ceiling-mounted use to simple placement on a shelf.Whether you're looking to install a new system or considering a replacement,Panasonic answers the call for projectors that provide long-lasting brightness,simple maintenance,and easy,casual use even in fixed installations.*1The value given above does not imply a guaranteed amount of time.The value may vary considerably depending on usage conditions.*2The PT-F200N TU only.2Original Lamp Drive System for Optimal Lamp Performance Lamps used in a projector require much higher precision than ordinary household lamps.Panasonic employs a number of new technologies—including an original lamp drive system—that help maintain optimal lamp performance for longer-lasting brightness.This has resulted in a 5,000-hour* lamp replacement cycle.*The value given above does not imply a guaranteed amount of time.The value may vary considerably depending on usage conditions.Daylight View 4 Technology: R emarkable Detail withDaylight View 4 technology.achieved with the new “EdgeEnhancer Control”and “GammaCurve Control.”Remarkable detail is provided and perceived brightness and contrast are enhanced,soimages appear crisp,vivid,3-dimen-sional and easy to see even in brightly lit rooms.Daylight View 4also includes a built-in ambient lightsensor that automatically detects room brightness and adjustsoperation accordingly.Wide 2x Zoom and Horizontal/Vertical Lens Shift Give You More Installation FlexibilityEach can project a 120-inch image (diagonal) from any distance between 11.8 feet (3.6 m) and 23.6 feet (7.2 m).In new installa-tions,this lets you accommodate a wide range of room sizes andshapes.And when replacing existing projectors,the new 2x zoom greatly expands your installation flexibility.Wired LAN: Web Browser Control/Monitoring,E-Mail Message Alert (PT-F200NTU)Anybody can operate the PT-F200N TU by remote control or moni-tor its status over a LAN network,because it is all done using the computer’s familiar web browser.Furthermore,the projector sends an e-mail message to notify the operator when an error hasoccurred,or a lamp needs to be replaced.PJLink ™compatibility (PT-F200NTU)The LAN terminals support PJLink ™class 1 connection.Control with the same specifications is also possiblewhen used in a multi-projector sys-tem with projectors of another brand.Direct Power OffBecause the cooling fan keeps operating until the lamp is cooled,you can turn off the room’s main power without waiting for the projector to cool down.Easy Lamp R eplacement from the R ear For easier maintenance,you can replace the lamp from the rear.The lamp is easilyreplaced even after the projector is installed on the ceiling.3* There is no actual change in the rated brightness or contrast ratio. Simulated image with Daylight View 4 turned on.Detail,depth,brightness and con-trast over the entire image are enhanced.Simulated image with Daylight View 4 turned off.Overall contrast appears lower,and images in dark areas are blackened.C O N V E N I E N T F E A T U R E SF O RF I X E D I N S T A L L A T I O NEasy Wireless Projection from Multiple PCsWith the PT-F200N TU’s wireless capability,you don’t need cables to connect a PC.That means it’s easy to bring in a laptop (with a wireless LAN function) and deliver a smooth,hassle-free presenta-ral mode)•Picture mode selection (standard/dynamic/natural)•Blackboard mode allows you to project images onto an ordinary classroom or conference room blackboard •Shutter function for image/sound muting •Selectable 17-language onscreen menuSecurity anchor 4Wireless Manager Control Panel (Launcher)To begin wireless projection,simply use the control panel (launcher) displayed in the PC window.PT-F200NTUPT-F200UD VE R S A T IModelPower supplyPower consumption LCD panel Panel sizeDisplay method Drive method PixelsPixel configuration Lens LampProjection size ColorsBrightness *Center-to-corner uniformity *Contrast ratio *R esolution (R GB)Scanning frequency RGB YP B P RS-Video/VideoOptical axis shift *Keystone correction range On-screen menuInstallationBuilt-in speakers TerminalsCOMPUTER 1 IN COMPUTER 2 IN/COMPUTER 1 OUT COMPONENT IN VIDEO IN S-VIDEO INAUDIO IN (COMPUTER 1) AUDIO IN (COMPUTER 2)AUDIO IN (COMPONENT/VIDEO/S-VIDEO)AUDIO OUT SERIAL REMOTE LAN Power cord length Cabinet materialDimensions (W x H x D)*WeightOperating environment Temperature Humidity Wireless LAN StandardOperation range *Infrastructure modeAd-hoc modeWireless R emote Control Unit Power supply Operation range *Dimensions (W x H x D)WeightSupplied AccessoriesPT-F200NTU 100–240 V AC,50/60 Hz330 W (Approx.3.5 W in standby mode with fan stopped)0.7˝ (17.78 mm) diagonal (4:3 aspect ratio)Transparent LCD panel (x 3,R/G/B)Active matrix786,432 (1,024 x 768) x 3,total of 2,359,296 pixels StripeManual zoom (1:1–1:2),manual focus,F 1.7–2.6,f 21.6–43.0 mm 250 W UHM™ lamp33–300 inches/838–7,620 mm diagonally (4:3 aspect ratio)Full color (16,777,216 colors)3,500 lumens 80%400:1 (full on/full off)1,024 x 768 pixels*Horizontal:15–91 kHz,Vertical:50–85 Hz 480i (525i):f H 15.75 kHz; f V 60 Hz 576i (625i):f H 15.63 kHz; f V 50 Hz 480p (525p):f H 31.5 kHz; f V 60 Hz 576p (625p):f H 31.25 kHz; f V 50 Hz 720/60p (750/60p):f H 45 kHz; f V 60 Hz 720/50p (750/50p):f H 37.5 kHz; f V 50 Hz 1080/60i (1125/60i):f H 33.75 kHz; f V 60 Hz 1080/50i (1125/50i):f H 28.125 kHz; f V 50HzNTSC,NTSC4.43,PAL-M,PAL60:f H 15.75 kHz; f V 60 Hz PAL,SECAM,PAL-N:f H 15.63 kHz; f V 50 Hz Vertical:±50%,horizontal:±32%Vertical:±30°17 languages:English,French,German,Spanish,Italian,Korean,Russian,Chinese,Japanese,Swedish,Norwegian,Danish,Portuguese,Polish,Hungarian,Czech,and Thai Front/rear ceiling/desk (menu selection)4 cm (round),x 1,3.0 W (monaural) output power D-sub HD 15-pin x 1D-sub HD 15-pin x 1(input/output selectable using on-screen menu)RCA pin x 3RCA pin x 1Mini DIN 4-pin x 1M3 (stereo) x 1M3 (stereo) x 1RCA pin (L,R) x 1M3 (stereo) x 1 (variable)D-sub 9-pin x 1 (RS-232C)D-sub 9-pin x 1RJ-45x 1,10BASE-T/100BASE-TX/1000BASE-T 2 m (6´7˝)Molded plastic (PC+ABS)432 x 124.5 x 319 mm (17˝ x 4-29/32˝ x 12-9/16˝)6.2 kg (13.7 lbs.)0°–40°C (32°–104°F)20%–80% (no condensation)IEEE802.11b/gApprox.30 m (98´5˝)WPA-PSK (TKIP/AES),128/64-bit WEP 128/64-bit WEP3 V DC (AA battery x 2)Approx.10 m (32.8 feet) when operated from directly in front of the signal receptor48 x 163 x 24.5 mm (1-7/8˝ x 6-13/32˝ x 31/32˝)117 g (4.2 oz) (including batteries)•Power cord•Power cord secure lock •Wireless remote control •Batteries for remote control •Safety wire rope•Wireless Manager ME 4.5(CD-ROM)PT-F200U –––PT-F200NTU1-07DEC30K Printed in Japan.Ple a se cont a ct P a n a sonic or your de a ler for a demonstr a tion.Projector s G lobal Web S ite: http://p a n a sonic.co.jp/p a vc/glob a l/projectorPanasonic Projector Systems Company,Unit of Panasonic Corporation of North America /projectors Headquarters3 Panasonic Way, 4B-9Secaucus, NJ 07094888-411-1996Panasonic Canada Inc.5770 Ambler Drive Mississauga, Ontario Canada L4W 2T3905 624 5010Weights and dimensions shown are approximate.Specifications are subject to change without notice.Product availability differs depending on region and country.This product may be subject to export control regulations.UHM is a trademark of Matsushita Electric Industrial Co.,Ltd.Intel and Pentium are registered trade-marks of Intel Corporation.Windows is either a registered trademark or trademark of Microsoft Corporation in the United States and/or other countries.All other trademarks are the property of their respective trademark owners.Projection images simulated.(C) 2006 Panasonic Projector Systems Company is a Unit Companyof Panasonic Corporation of N orth America.All rights reserved.(C) 2006 Matsushita Electric Industrial Co,Ltd.All rights reserved.SpecificationsReplacement lamp unit ET-LAF100Replacement filter unit ET-RFF100Ceiling mount bracket for high ceilings ET-PKF100H Ceiling mount bracket for low ceilings ET-PKF100SProjection Distance (4:3)Project s ize (diagonal)Height from the edge of s creento center of len s (H)Min (wide)Projection di s tance (L)Max (telephoto)////////////////////////////////////0.84 m 1.02 m 1.52 m 2.03 m 2.54 m 3.05 m 3.81 m 5.08 m 7.62 m–1.2 m 1.8 m 2.4 m 3.0 m 3.6 m 4.5 m 6.0 m 9.1 m1.9 m2.4 m3.6 m4.8 m 6.0 m 7.2 m 9.0 m 12.1 m 18.1 m0.25 m 0.30 m 0.46 m 0.61 m 0.76 m 0.91 m 1.14 m 1.52 m 2.29 m0 –0 –0 –0 –0 –0 –0 –0 –0 –33˝40˝60˝80˝100˝120˝150˝200˝300˝–3.8´5.8´7.8´9.8´11.8´14.8´19.8´29.8´6.4´7.8´11.7´15.7´19.7´23.7´29.6´39.6´59.5´0 –0 –0 –0 –0 –0 –0 –0 –0 –0.8´1.0´1.5´2.0´2.5´3.0´3.7´5.0´7.5´Options*1:Measurement,measuring conditions,and method of notation all comply with ISO 21118 international standards.*2:Input signals that exceed this resolution will be converted to 1,024 x 768 pixels.*3:Shift range is limited during simultaneous horizontal and vertical shifting.*4:Including protruding parts.*5:Operation range differs depending on the environment.All information included here i s valid a s of December 2007.。

XG 2000C XG 2000XG2000Switches XG2000 Series SpecificationsFujitsu Frontech North AmericaPrinted in the U.S.A. DS_XG_2000_0311For more information, call us at 877-766-7545 or visit us at: /ethernet Fujitsu Frontech North America, 25902 Towne Centre Drive, Foothill Ranch, CA. 92610©2011 Copyright 2011 Fujitsu Frontech North America Inc. All rights reserved. Fujitsu and the Fujitsu logo are registered trademarks. All other trademarks are the property of their respective owners. Statements herein are based on normal operating conditions and are not intended to create any implied warranty of merchantability or fitness for a particular purpose. Fujitsu Frontech North America Inc. reserves the right to modify at any time without notice these statements, our services, products, and their warranty and performance specifications.Virtual LANs Port-based and Tag-based VLAN Multi-tagged VLAN (Q-in-Q)User-defined VLAN ID/VLAN priority DiffServ Class (IPv4, IPv6)Ingress Filtering Administration Industry standard Command Line Interface with command help and completion Serial or 10/100 BASE-T Ethernet Telnet session TFTP client SYSLOG SNMP (v1/v2)RMON (Statistics, History, Alarms, Events)NTP Spanning Tree Protocol STP/RSTP Link Aggregation Static or LACP Jumbo Frame Support 9KB/12KB/15KB/16KB Congestion Management Pause frame flow control IGMP IGMP Snooping (v1/v2/v3)Security Features Multiple accounts with class privileges SSH (v2)Port security RADIUS/TACACS+ IEEE Compliance 802.3ae 10GbE fiber 802.3ak 10GbE CX4802.3ad Link Aggregation 802.1D MAC Bridges - Spanning Tree Protocol (STP, RSTP)802.1D MAC Bridges - Unicast/Multicast forwarding 802.1D MAC Bridges - Aging/Learning 802.1Q VLAN (virtual LAN)802.1p QoS (8 classes, 4 queues)802.3x Pause Frame Flow Control RFC Compliance RFC768 User Datagram Protocol RFC783 Trivial File Transfer Protocol RFC791 Internet Protocol RFC792 Internet Control Message Protocol RFC793 Transmission Control Protocol RFC854 Telnet Protocol Specification RFC1042 IPv4 Transmission RFC1157 Simple Network Management Protocol (SNMP)RFC1212 Concise MIB definitions RFC1213 MIB-2 SNMP group RFC1215 Traps for SNMP RFC1492 TACACS+RFC1493 Bridges MIB RFC2474 DiffServ IPv4 and IPv6 Headers RFC2475 DiffServ RFC2665 Ethernet-Like MIB RFC2674 P-Bridge & Q-Bridge MIBs RFC2819 RMON MIB (Statistics Group)RFC2863 IF MIB RFC2865 RADIUS RFC3164 BSD Syslog Protocol RFC3418 MIB-2 System Group RFC3376 IGMP, v3RFC3577 RMON MIBs RFC4594 DiffServ Class Configuration RoHS EU RoHS compliant with Pb exemption (RoHS 5)Physical Characteristics 20 ports, 10GbE, 300ns latency, 400Gbps non-blocking Layer 2 switching operation 1 DB-9M RS232 console/management port 1 RJ45 10/100 BASE-T Ethernet management port Status and Fault LED Indicators front and rear Dimension (W x D x H)440mm x 480mm x 43.8mm 17.3” x 18.9” x 1.72”1 RU high, 19” rack mountable Hot pluggable and redundant power supplies and cooling fans Weight 14kg (30lbs)AC Voltage/Current Requirements 100-240V - 50/60 Hz 2.0-1.0A Power Consumption XG2000 less than 145W XG2000C less than 110W Operating Specification Temperature: 5° to 40° Celsius Humidity: 20 - 80% RH (non-condensing)Non-Operating Specification Temperature: 0° to 50° Celsius Humidity: 8 - 80% RH (non-condensing)Included Accessories 4-post rack mount kit with fasteners 2 power cords Serial crossover cable Hardware/Installation Guide User Guide (CD)Warranty 3 year return to factory warrantyPart Number DescriptionXG200020-port XFP Optical 10GbE Switch (XFPs sold separately)XG2000C 20-port Copper (16 ports CX4 with 4 additional ports of XFP optics) 10GbE Switch (XFPs sold separately)XG2000CR XG2000C product with fans reversedXG2000FAM-OOW-YR1XG2000 Family additional one year of warranty (total of 4 years)XG2000FAM-OOW-YR2XG2000 Family additional two years of warranty (total of 5 years)AccessoriesXFPCX4CX4 XFPXFPSR SR XFPXFPLR LR XFP。

Proteus常用器件中英文对照表AND 与门ANTENNA 天线BATTERY 直流电源BELL 铃,钟BVC 同轴电缆接插件BRIDEG 1 整流桥(二极管)BRIDEG 2 整流桥(集成块)BUFFER 缓冲器BUZZER 蜂鸣器—CAP 电容CAPACITOR 电容CAPACITOR POL 有极性电容CAPVAR 可调电容CIRCUIT BREAKER 熔断丝COAX 同轴电缆CON 插口CRYSTAL 晶振DB 并行插口DIODE 二极管"DIODE SCHOTTKY 稳压二极管DIODE VARACTOR 变容二极管DPY_3-SEG 3段LEDDPY_7-SEG 7段LEDDPY_7-SEG_DP 7段LED(带小数点) ELECTRO 电解电容FUSE 熔断器INDUCTOR 电感INDUCTOR IRON 带铁芯电感"INDUCTOR3 可调电感JFET N N沟道场效应管JFET P P沟道场效应管LAMP 灯泡LAMP NEDN 起辉器LED 发光二极管METER 仪表MICROPHONE 麦克风MOSFET MOS管MOTOR AC 交流电机>MOTOR SERVO 伺服电机NAND 与非门NOR 或非门NOT 非门NPN NPN三极管NPN-PHOTO 感光三极管OPAMP 运放OR 或门PHOTO 感光二极管PNP 三极管?NPN DAR NPN三极管PNP DAR PNP三极管POT 滑线变阻器PELAY-DPDT 双刀双掷继电器电阻可变电阻RESISTOR BRIDGE 桥式电阻RESPACK 电阻SCR 晶闸管PLUG 插头.PLUG AC FEMALE 三相交流插头SOCKET 插座SOURCE CURRENT 电流源SOURCE VOLTAGE 电压源SPEAKER 扬声器SW 开关SW-DPDY 双刀双掷开关SW-SPST 单刀单掷开关SW-PB 按钮&THERMISTOR 电热调节器?中英文对照1.电阻；固定电阻：RES半导体电阻：RESSEMT电位计；POT变电阻；RVAR可调电阻;res1.....2.电容定值无极性电容；CAP定值有极性电容;CAP半导体电容：CAPSEMI[可调电容：CAPVAR3.电感：INDUCTOR4.二极管：发光二极管：LED5.三极管:NPN16.结型场效应管：}场效应管场效应管9.继电器：PELAY. LIB10.灯泡:LAMP11.运放:OPAMP！12.数码管：DPY_7-SEG_DP (MISCELLANEOUS13.开关;sw_pb原理图常用库文件：MiscellaneousDallasIntelProtel DOS Schematic-PCB元件常用库：General部分分立元件库元件名称及中英对照AND 与门（ANTENNA 天线BATTERY 直流电源BELL 铃,钟BVC 同轴电缆接插件BRIDEG 1 整流桥(二极管)BRIDEG 2 整流桥(集成块)BUFFER 缓冲器BUZZER 蜂鸣器CAP 电容CAPACITOR 电容|CAPACITOR POL 有极性电容CAPVAR 可调电容CIRCUIT BREAKER 熔断丝COAX 同轴电缆CON 插口CRYSTAL 晶体整荡器DB 并行插口DIODE 二极管DIODE SCHOTTKY 稳压二极管DIODE VARACTOR 变容二极管"DPY_3-SEG 3段LEDDPY_7-SEG 7段LEDDPY_7-SEG_DP 7段LED(带小数点) ELECTRO 电解电容FUSE 熔断器INDUCTOR 电感INDUCTOR IRON 带铁芯电感INDUCTOR3 可调电感JFET N N沟道场效应管JFET P P沟道场效应管：LAMP 灯泡LAMP NEDN 起辉器LED 发光二极管METER 仪表MICROPHONE 麦克风MOSFET MOS管MOTOR AC 交流电机MOTOR SERVO 伺服电机NAND 与非门NOR 或非门）NOT 非门NPN NPN三极管NPN-PHOTO 感光三极管OPAMP 运放OR 或门PHOTO 感光二极管PNP 三极管NPN DAR NPN三极管PNP DAR PNP三极管POT 滑线变阻器！PELAY-DPDT 双刀双掷继电器电阻可变电阻RESISTOR BRIDGE 桥式电阻RESPACK 电阻SCR 晶闸管PLUG 插头PLUG AC FEMALE 三相交流插头SOCKET 插座SOURCE CURRENT 电流源。