CAT28F202TR-20TE7中文资料

深圳市恒宝通光电子股份有限公司产品说明书HSFP28-2C21xxHPT3-D-S-0283制订部门研发中心版本号Rev 修订状态 1.0发放编号受控印章制订审核批准制订日期审核日期批准日期修改记录版本号修改状态修改内容修订人/日期Rev 1.0 首次发布杜中勇 2019/5/5CWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055Tel: +86 755 2675 3088 Fax: +86 755 2675309 Rev1.0 Page 1 of 7Features✧ Compliant with MSA SFP+ Specification SFF-8402 ✧ Monitoring Interface Compliant with SFF-8472 ✧ Single +3.3V Power Supply ✧ Hot-Pluggable ✧ Built-in dual CDR✧ Support 25.78 Gb/s Data Links ✧ Up to 10Km on 9/125um SMF✧ Very low EMI and excellent ESD protection ✧ Operating Case Temperature:0~+70℃℃ ✧ Power Dissipation < 1.2W ✧ RoHS Compliant ProductsApplications✧ 25GbE ✧ CPRI✧ Other Optical LinksProductor SelectionProduct Code Bail Color Center Wavelength HSFP28-2C2101 Gray 1271nm HSFP28-2C2102 Violet 1291nm HSFP28-2C2103 Blue 1311nm HSFP28-2C2104Green1331nm HSFP28-2C2105 Yellow 1351nm HSFP28-2C2106 Orange1371nmCWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055 Tel: +86 755 2675 3088 Fax: +86 7552675309 Rev1.0 Page 2 of 7DescriptionHSFP28-2C21xx is SFP28 module for duplex optical data communications support 25.78Gb/s data links. It is with the SFP+ 20-pin connector to allow hot plug capability. Digital diagnostic functions are available via an I2C. It has built-in dual clock and data recovery (CDR).This module is designed for single-mode fiber and operates at a nominal wavelength of 1310nm.The transmitter section uses a high performance CWDM DFB laser and is a class 1 laser compliant according to International Safety Standard IEC-60825. The receiver section uses an integrated InGaAs detector pre-amplifier (IDP) mounted in an optical header and a limiting post-amplifier IC.SpecificationElectrical Characteristics: (Condition: T a =T OP )Parameter Symbol Min. Typical Max. Unit Link Distance with G.652 - - - 10 Km Power Dissipation - - - 1.2 W Transmitter:Transmitter Differential Input V olt *Note1 +/-TX_DAT 180 1600 mV p-p Input Impedance (Differential) Zin 100 Ω Tx_Disable Input V oltage – Low V IL -0.3 0.8 V Tx_Disable Input V oltage – High V IH 2.0 Vcc+0.3V Tx_Fault Output V oltage – Low V OL -0.3 0.8 V Tx_Fault Output V oltage – High V OH 2.0 Vcc+0.3VCWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055Tel: +86 755 2675 3088 Fax: +86 755 2675309 Rev1.0 Page 3 of 7Receiver:Receiver Differential Output V olt *Note1 +/-RX_DAT 370 850 mV p-p Output Impedance (Differential) Zout 100 Ω Rx_LOS Output V oltage- Low V OL -0.3 0.8 V Rx_LOS Output V oltage- High V OH 2.0 Vcc+0.3V Note1: AC coupled.Optical Characteristics: (Condition: T a =T OP ) Transmitter:Parameter Symbol Min. Typical Max. Unit Data Rate B - 25.78 - Gb/s Centre Wavelength λc λc - 6.5 λc λc + 6.5 nm Output Spectral Width ᇞλ(-20dB)- - 1 nm Average Output Power *Note1 Po -7 - 2 dBm Extinction Ratio *Note2 E.R. 3 - - dB Transmitter Dispersion Penalty TDP-3.2 dB Eye Mask{X1, X2, X3, Y1, Y2, Y3}{0.31, 0.4, 0.45, 0.34, 0.38, 0.4}Hit ratio 5x10 -5 persampleReceiver:Parameter Symbol Min. Typical Max. Unit Date Rate B - 25.78 - Gb/s Receiver Sensitivity (OMA) *Note3 SEN -12 dBm (for BER =5x10 -5)Maximum Input Power P max 2.0 - - dBm Signal Detect Threshold-De-Assert S D -17 dBm Signal Detect Threshold-Assert S A -30 dBm Hysteresis - 0.5 - dB Optical Return Loss ORL - - -26 dB Operating Wavelength λc 1260 - 1355 nm Note1: Measured with 9/125µm single-mode fiber.Note2:MeasuredwithaPRBS2^***********************/sNote3: Measured with ER=3.5dB, 2^31-1 PRBS data pattern, BER less than 5E-5@25GBE and less than 1E-6@32GFC.CWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055Tel: +86 755 2675 3088 Fax: +86 755 2675309 Rev1.0 Page 4 of 7Absolute Maximum Ratings: (T C =25℃)Parameter Symbol Min. Max. Unit Storage Temperature T ST -40 +85 ℃ Operating Temperature T IP 0 +70 ℃ Input V oltage T CC 0 +4.0 V Operating Relative Humidity RH 5 95 % Note: Exceeding any one of these values may destroy the device permanently.Recommended Operating Environment:Parameter Symbol Min. Typical Max. Unit Supply V oltage V CC +3.135 +3.3 +3.465 V Operating Temperature T OP 0 - +70 ℃Regulatory ComplianceNote: For the latest certification information, please check with Hi-Optel.Feature Standard Performance Electrostatic Discharge(ESD) to the Electrical Pins MIL-STD-883EMethod 3015.7 Class 1(>500 V)Electrostatic Discharge(ESD)To the Duplex Receptacle IEC61000-4-2 Class 2(>4000V)ElectromagneticInterference (EMI)FCC Part 15 Class B Compatible with standardsImmunity IEC61000-4-3 Compatible with standardsLaser eye safetyFDA21CFR1040.10and1040.11 EN60950, EN (IEC) 60825-1,2 Compatible with Class I laserproductComponent Recognition UL and CE Compatible with standards ROHS ROHS6 Compatible with standardsCWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055Tel: +86 755 2675 3088 Fax:+86 7552675309 Rev1.0Page 5 of 7Pin AssignmentCWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055Tel: +86 755 2675 3088 Fax: +86 755 2675309 Rev1.0 Page 6 of 7Pin DescriptionPin Symbol Name/Description Ref 1 VeeT Transmitter Ground(Common with Receiver Ground) 1 2 Tx Fault Transmitter Fault. Low normal operation, High Fault indication 3 Tx Disable Transmitter Disable. Laser output disabled on high or open 2 4 SDA Module Definition 2.Data line for Serial ID 3 5 SCL Module Definition 1.Clock line for Serial ID 3 6 MOD-ABS Module Definition 0.Grounded within the module 7 RS0 Rate Select 0, optionally controls SFP28 module receiver. LVTTL Logic. 5 8 LOS Loss of Signal indication. Logic 0 indicates normal operation. 4 9 RS1 Rate Select 1, optionally controls SFP28 module transmitter. LVTTL Logic. 5 10 VeeR Receiver Ground(Common with Transmitter Ground) 1 11 VeeR Receiver Ground(Common with Transmitter Ground) 1 12 RD- Receiver Inverted DATA out.AC Coupled 13 RD+ Receiver Non-inverted DATA out.AC Coupled 14 VeeR Receiver Ground(Common with Transmitter Ground) 1 15 VccR Receiver Power Supply 16 VccT Transmitter Power Supply 17 VeeT Transmitter Ground(Common with Receiver Ground) 1 18 TD+ Transmitter Non-inverted DATA in.AC Coupled 19 TD- Transmitter Inverted DATA in.AC Coupled 20 VeeT Transmitter Ground(Common with Receiver Ground) 1 Notes:1. Circuit ground is internally isolated from chassis ground. VeeR and VeeT may be internally connected within the SFP28 module.2. Laser output disabled on TDIS >2.0V or open, enabled on TDIS <0.8V .3. Should be pulled up with4.7k – 10kohms on host board to a voltage between 2.0V and 3.6V . 4. LOS is open collector output. Should be pulled up with 4.7k – 10kohms on host board to a voltage between 2.0V and 3.6V . Logic 0 indicates normal operation; logic 1 indicates loss of signal.5. Pulled low to VeeR or VeeT with a >30K resistor within the SFP28 module.CWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055Tel: +86 755 2675 3088 Fax: +86 7552675309 Rev1.0 Page 7 of 7Data Field DescriptionsThe Module provides diagnostic information about the present operating conditions. The transceiver generates this diagnostic data by digitization of internal analog signals. Calibration and alarm/warning threshold data is written during device manufacture. Received power monitoring, transmitted power monitoring, bias current monitoring, supply voltage monitoring and temperature monitoring all are implemented.The digital diagnostic memory map specific data field define as following .For detail EEPROM information, please refer to the related document of SFF 8472 Rev 12.2.Digital Diagnostic Monitor CharacteristicsA2h addressParameterCalibrationAccuracyUnit96-97 Temperature Internal +/- 3 ℃98-99 Vcc Internal +/- 3% V 100-101 Tx bias Internal +/- 10% mA 102-103Tx powerInternal+/- 3dBdB104-105 Rx Power Internal +/- 3dB dBCWDM DFB/PIN-TIA, 10Km, 0~70℃Shenzhen Hi-Optel Technology Co., Ltd.Hi-Optel Building,BLOG2,Gaofa Technology Park,Longjing,Nanshan Shenzhen,China. 518055Tel: +86 755 2675 3088 Fax: +86 755 2675309 Rev1.0 Page 8 of 7Mechanical Dimensions:。

双绞线视频传输设备及其线缆的选型参考我公司的视频双绞线传输器，包括其他厂家的设备，基本上都可以简单一点分类有以下器材：1、无源转换器：包括：TA-201T/ R、TA-202T/ R 等型号，实际上它们是同一回事,仅仅是结构不同以适应在不同的工程环境。

其中TA-201T/ R自带优质纯铜的BNC头，可以直接套在摄像机或者DVR 的BNC座上，但不能用在活动的带云台的前端（网线并不耐折），TA-202T/ R是需要接线的结构，应用更加灵活，工程上可以根据需要选择。

它们都是用作平衡/非平衡变换的器材，并且除了少数特殊定制的之外，内部等效电路是对称的。

一般情况下，它会被用在前端作为无源发射器（或者叫转换器、变换器都是这意思），配合后端的接收器使用。

这是如果后端使用的也是这种无源设备，那就构成了所谓双无源的双绞线收发设备(TA-302TR)。

后端如果是有源的接收设备，那就构成了单有源的双绞线接收设备（TA-306TR)。

2、有源发射器：型号为TA-305T,它除了起到平衡/非平衡变换的作用外，对视频信号还有防大增强、高频预加重的作用，一般放在前端，配合后端的有源接收器使用，一般用在距离1000米以上的监控点。

3、有源接收器：TA-305R:一般放在后端使用，作为有源接收器，除了起到平衡/非平衡变换的作用外，对视频信号还有防大增强、高频补偿的作用，内置总增益、高频增益调节电路，可以根据实际情况将传过来的图像调节到最佳状态，配合不同的前端设备，可以实现不同的传输距离。

无源转换器TA-202T/R(上图左)和TA-201T/R(上图右)有源发射器TA-305T 有源接收器TA-305R实际应用时，工程单位一般是成对的整套购买和使用的，所以我们根据不同的使用要求，组合成以下三种常用的套装产品：一、双无源套装TA-302TR：前端发射和后端接收都是用无源转换器TA-201T/ R或TA-202T/ R或者各配一个, 二者可以互换。

A 0FEATURESs Fast read access time: 90/120 ns s Low power CMOS dissipation:– Active: 30 mA max (CMOS/TTL levels)– Standby: 1 mA max (TTL levels)– Standby: 100 µA max (CMOS levels)s High speed programming:– 10 µs per byte– 4 seconds typical chip programs 0.5 seconds typical chip-erases 12.0V ± 5% programming and erase voltages Commercial, industrial and automotivetemperature rangess Stop timer for program/erase s On-chip address and data latches s JEDEC standard pinouts:– 32-pin DIP – 32-pin PLCC– 32-pin TSOP (8 x 20)s 100,000 program/erase cycles s 10 year data retention s Electronic signatureusing a two write cycle scheme. Address and Data are latched to free the I/O bus and address bus during the write operation.The CAT28F020 is manufactured using Catalyst’s advanced CMOS floating gate technology. It is designed to endure 100,000 program/erase cycles and has a data retention of 10 years. The device is available in JEDEC approved 32-pin plastic DIP, 32-pin PLCC or 32-pin TSOP packages.DESCRIPTIONThe CAT28F020 is a high speed 256K x 8-bit electrically erasable and reprogrammable Flash memory ideally suited for applications requiring in-system or after-sale code updates. Electrical erasure of the full memory contents is achieved typically within 0.5 second.It is pin and Read timing compatible with standard EPROM and E 2PROM devices. Programming and Erase are performed through an operation and verify algorithm. The instructions are input via the I/O bus,5115 FHD F02BLOCK DIAGRAM2 Megabit CMOS Flash Memory CAT28F020Licensed Intel second sourceCAT28F020PIN FUNCTIONSPin Name Type FunctionA0–A17Input Address Inputs formemory addressingI/O0–I/O7I/O Data Input/OutputCE Input Chip EnableOE Input Output EnableWE Input Write EnableV CC Voltage SupplyV SS GroundV PP Program/EraseVoltage SupplyPIN CONFIGURATION5115 FHD F01TSOP Package (Standard Pinout) (T, H)5115 FHD F14TSOP Package (Reverse Pinout) (TR, HR)I/O0I/O1I/O2V SSI/O6I/O5I/O4I/O3A3A2A1A0OEA10CEI/O7A7A6A5A4V PPA16A15A12A13A8A9A11V CCWEA17A14A7A6A5A45678A3A2A1A09101112I/O013A14A13A8A929282726A11OEA10CE25242322I/O721I/O1I/O2VSSI/O3I/O4I/O5I/O6141516171819204321323130A12A15A16VPPVCCWEA171234567891011121314151632313029282726252423222120191817OEA10CEI/O7I/O6I/O5I/O4I/O3V SSI/O2I/O1I/O0A0A1A2A3A4A5A6A7A12A15A16V PPV CCWEA17A14A13A8A9A111234567891011121314151632313029282726252423222120191817OEA10CEI/O7I/O6I/O5I/O4I/O3V SSI/O2I/O1I/O0A0A1A2A3A4A5A6A7A12A15A16V PPV CCWEA17A14A13A8A9A11PLCC Package (N, G)DIP Package (L)CAT28F020CAPACITANCE T A = 25°C, f = 1.0 MHz Symbol TestConditions MinTypMax Units C IN (3)Input Pin Capacitance V IN = 0V 6pF C OUT (3)Output Pin Capacitance V OUT = 0V 10pF C VPP (3)V PP Supply CapacitanceV PP = 0V25pFABSOLUTE MAXIMUM RATINGS*Temperature Under Bias .................–45°C to +130°C Storage Temperature.......................–65°C to +150°C Voltage on Any Pin withRespect to Ground (1)...........–2.0V to +V CC + 2.0V Voltage on Pin A 9 withRespect to Ground (1)...................–2.0V to +13.5V V PP with Respect to Groundduring Program/Erase (1)..............–2.0V to +14.0V V CC with Respect to Ground (1)............–2.0V to +7.0V Package Power DissipationCapability (T A = 25°C)..................................1.0 W Lead Soldering Temperature (10 secs)............300°C Output Short Circuit Current (2)........................100 mARELIABILITY CHARACTERISTICS Symbol Parameter Test MethodMin TypMaxUnits N END (3)Endurance MIL-STD-883, Test Method 1033100K Cycles/Byte T DR (3)Data Retention MIL-STD-883, Test Method 100810Years V ZAP (3)ESD SusceptibilityMIL-STD-883, Test Method 30152000Volts I LTH (3)(4)Latch-UpJEDEC Standard 17100mANote:1.The minimum DC input voltage is –0.5V. During transitions, inputs may undershoot to –2.0V for periods of less than 20 ns. Maximum DCvoltage on output pins is V CC +0.5V, which may overshoot to V CC + 2.0V for periods of less than 20ns.2.Output shorted for no more than one second. No more than one output shorted at a time.3.This parameter is tested initially and after a design or process change that affects the parameter.tch-up protection is provided for stresses up to 100 mA on address and data pins from –1V to V CC +1V.*COMMENTStresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device.These are stress ratings only, and functional operation of the device at these or any other conditions outside of those listed in the operational sections of this specification is not implied. Exposure to any absolute maximum rating for extended periods may affect device performance and reliability.CAT28F020D.C. OPERATING CHARACTERISTICSV CC = +5V ±10%, unless otherwise specified. (See Note 2)Symbol Parameter Test Conditions Min Typ Max UnitI LI Input Leakage Current V IN = V CC or V SS±1µAV CC = 5.5V, OE = V IHI LO Output Leakage Current V OUT = V CC or V SS,±1µAV CC = 5.5V, OE = V IHI SB1V CC Standby Current CMOS CE = V CC±0.5V,100µAV CC = 5.5VI SB2V CC Standby Current TTL CE = V IH, V CC = 5.5V1mAI CC1V CC Active Read Current V CC = 5.5V, CE = V IL,30mAI OUT = 0mA, f = 6 MHzI CC2(1)V CC Programming Current V CC = 5.5V,15mAProgramming in ProgressI CC3(1)V CC Erase Current V CC = 5.5V,15mAErasure in ProgressI CC4(1)V CC Prog./Erase Verify Current V CC = 5.5V, Program or15mAErase Verify in ProgressI PPS V PP Standby Current V PP = V PPL±10µAI PP1V PP Read Current V PP = V PPH200µAI PP2(1)V PP Programming Current V PP = V PPH,30mAProgramming in ProgressI PP3(1)V PP Erase Current V PP = V PPH,30mAErasure in ProgressI PP4(1)V PP Prog./Erase Verify Current V PP = V PPH, Program or5mAErase Verify in ProgressV IL Input Low Level TTL-0.50.8V V ILC Input Low Level CMOS-0.50.8V V OL Output Low Level I OL = 5.8mA, V CC(2) = 4.5V0.45V V IH Input High Level TTL2V CC+0.5V V IHC Input High Level CMOS V CC*0.7V CC+0.5V V OH1Output High Level TTL I OH = -2.5mA, V CC(2) = 4.5V 2.4V V OH2Output High Level CMOS I OH = -400µA, V CC(2) = 4.5V V CC-0.4V V ID A9 Signature Voltage A9 = V ID11.413VI ID(1)A9 Signature Current A9 = V ID200µAV LO V CC Erase/Prog. Lockout Voltage 2.5V Note:1.This parameter is tested initially and after a design or process change that affects the parameter.2.CAT28F020-90, V CCMIN = 4.75 V.CAT28F020SUPPLY CHARACTERISTICSFigure 1. A.C. Testing Input/Output Waveform (3)(4)(5)Testing Load Circuit (example)A.C. CHARACTERISTICS, Read OperationV CC = +5V ±10%, unless otherwise specified. (See Note 8)JEDEC Standard 28F020-90(7)28F020-12(7)Symbol Symbol Parameter Min TypMaxMin Typ MaxUnit t AVAV t RC Read Cycle Time 90120ns t ELQV t CE CE Access Time 90120ns t AVQV t ACC Address Access Time 90120ns t GLQV t OE OE Access Time3550ns t AXQX t OH Output Hold from Address OE /CE Change 00ns t GLQX t OLZ (1)(6)OE to Output in Low-Z 00ns t ELQX t LZ (1)(6)CE to Output in Low-Z 0ns t GHQZ t DF (1)(2)OE High to Output High-Z 3030ns t EHQZ t DF (1)(2)CE High to Output High-Z 4040ns t WHGL (1)-Write Recovery Time Before Read66µsL INCLUDES JIG CAPACITANCEINPUT PULSE LEVELSREFERENCE POINTS2.0 V0.8 V 2.4 V0.45 VNote:1.This parameter is tested initially and after a design or process change that affects the parameter.2.Output floating (High-Z) is defined as the state where the external data line is no longer driven by the output buffer.3.Input Rise and Fall Times (10% to 90%) < 10 ns.4.Input Pulse Levels = 0.45 V and 2.4 V. For High Speed Input Pulse Levels 0.0 V and 3.0 V.5.Input and Output Timing Reference = 0.8 V and 2.0 V. For High Speed Input and Output Timing Reference = 1.5 V.6.Low-Z is defined as the state where the external data may be driven by the output buffer but may not be valid.7.For load and reference points, see Fig. 1.8.CAT28F020-90, V CCMIN = 4.75 V.l o b m y S r e t e m a r a P n i M p y T x a M t i n U C C V e g a t l o V y l p p u S C C V 09-020F 8257.45.5V 21-020F 825.45.5V L P P V s n o i t a r e p O d a e R g n i r u D P P V 05.6V HP P V ma r g o r P /e s a r E /d a e R g n i r u D P P V 4.116.21VCAT28F020A.C. CHARACTERISTICS, Program/Erase OperationV CC = +5V ±10%, unless otherwise specified. (See Note 6)JEDEC Standard28F020-9028F020-12Symbol Symbol Parameter Min Typ Max Min Typ Max Unit t AVAV t WC Write Cycle Time90120ns t AVWL t AS Address Setup Time00ns t WLAX t AH Address Hold Time4040ns t DVWH t DS Data Setup Time4040ns t WHDX t DH Data Hold Time1010ns t ELWL t CS CE Setup Time00ns t WHEH t CH CE Hold Time00ns t WLWH t WP WE Pulse Width4040ns t WHWL t WPH WE High Pulse Width2020nst WHWH1(2)-Program Pulse Width1010µst WHWH2(2)-Erase Pulse Width9.59.5ms t WHGL-Write Recovery Time Before Read66µs t GHWL-Read Recovery Time Before Write00µs t VPEL-V PP Setup Time to CE100100nsERASE AND PROGRAMMING PERFORMANCE(1)28F020-9028F020-12 Parameter Min Typ Max Min Typ Max Unit Chip Erase Time(3)(5)0.5100.510sec Chip Program Time(3)(4)425425secNote:1.Please refer to Supply characteristics for the value of V PPH and V PPL. The V PP supply can be either hardwired or switched. If V PP is switched,V PPL can be ground, less than V CC + 2.0V or a no connect with a resistor tied to ground.2.Program and Erase operations are controlled by internal stop timers.3.‘Typicals’ are not guaranteed, but based on characterization data. Data taken at 25°C, 12.0V V PP.4.Minimum byte programming time (excluding system overhead) is 16 µs (10 µs program + 6 µs write recovery), while maximum is 400 µs/byte (16 µs x 25 loops). Max chip programming time is specified lower than the worst case allowed by the programming algorithm since most bytes program significantly faster than the worst case byte.5.Excludes 00H Programming prior to Erasure.6.CAT28F020-90, V CCMIN = 4.75 VCAT28F020FUNCTION TABLE(1)PinsMode CE OE WE V PP I/O Notes Read V IL V IL V IH V PPL D OUTOutput Disable V IL V IH V IH X High-ZStandby V IH X X V PPL High-ZSignature (MFG)V IL V IL V IH X31H A0 = V IL, A9 = 12V Signature (Device)V IL V IL V IH X BDH A0 = V IH, A9 = 12V Program/Erase V IL V IH V IL V PPH D IN See Command Table Write Cycle V IL V IH V IL V PPH D IN During Write Cycle Read Cycle V IL V IL V IH V PPH D OUT During Write Cycle WRITE COMMAND TABLECommands are written into the command register in one or two write cycles. The command register can be altered only when V PP is high and the instruction byte is latched on the rising edge of WE. Write cycles also internally latch addresses and data required for programming and erase operations.PinsFirst Bus Cycle Second Bus Cycle Mode Operation Address D IN Operation Address D IN D OUT Set Read Write X00H Read A IN D OUT Read Sig. (MFG)Write X90H Read0031H Read Sig. (Device)Write X90H Read01BDH Erase Write X20H Write X20HErase Verify Write A IN A0H Read X D OUT Program Write X40H Write A IN D INProgram Verify Write X C0H Read X D OUT Reset Write X FFH Write X FFHNote:1.Logic Levels: X = Logic ‘Do not care’ (V IH, V IL, V PPL, V PPH)CAT28F020READ OPERATIONSRead ModeA Read operation is performed with both CE and OE low and with WE high. V PP can be either high or low,however, if V PP is high, the Set READ command has to be sent before reading data (see Write Operations). The data retrieved from the I/O pins reflects the contents of the memory location corresponding to the state of the 18address pins. The respective timing waveforms for the read operation are shown in Figure 3. Refer to the AC Read characteristics for specific timing parameters.Signature ModeThe signature mode allows the user to identify the IC manufacturer and the type of device while the device resides in the target system. This mode can be activated in either of two ways; through the conventional method of applying a high voltage (12V) to address pin A 9 or by sending an instruction to the command register (see Write Operations).Figure 3. A.C. Timing for Read Operation28F020 F05ADDRESSES CE (E)OE (G)WE (W)DATA (I/O)POWER UPSTANDBYDEVICE ANDADDRESS SELECTIONOUPUTS ENABLEDDATA VALIDSTANDBYPOWER DOWNThe conventional mode is entered as a regular READ mode by driving the CE and OE pins low (with WE high),and applying the required high voltage on address pin A 9while all other address lines are held at V IL .A Read cycle from address 0000H retrieves the binary code for the IC manufacturer on outputs I/O 0 to I/O 7:CATALYST Code = 00110001 (31H)A Read cycle from address 0001H retrieves the binary code for the device on outputs I/O 0 to I/O 7.28F020 Code = 1011 1101 (BDH)Standby ModeWith CE at a logic-high level, the CAT28F020 is placed in a standby mode where most of the device circuitry is disabled, thereby substantially reducing power con-sumption. The outputs are placed in a high-impedance state.CAT28F020Figure 4. A.C. Timing for Erase Operation28F020 F11ADDRESSESCE (E)OE (G)WE (W)DATA (I/O)V CC VPP V CC POWER-UP & STANDBYSETUP ERASE COMMANDERASE COMMANDERASINGERASE VERIFY COMMANDERASE VERIFICATION V CC POWER-DOWN/STANDBYWRITE OPERATIONSThe following operations are initiated by observing the sequence specified in the Write Command Table.Read ModeThe device can be put into a standard READ mode by initiating a write cycle with 00H on the data bus. The subsequent read cycles will be performed similar to a standard EPROM or E 2PROM Read.Signature ModeAn alternative method for reading device signature (see Read Operations Signature Mode), is initiated by writing the code 90H into the command register while keeping V PP high. A read cycle from address 0000H with CE and CATALYST Code = 00110001 (31H)A Read cycle from address 0001H retrieves the binary code for the device on outputs I/O 0 to I/O 7.28F020 Code = 1011 1101 (BDH)Erase ModeDuring the first Write cycle, the command 20H is written into the command register. In order to commence the erase operation, the identical command of 20H has to be written again into the register. This two-step process ensures against accidental erasure of the memory con-tents. The final erase cycle will be stopped at the rising edge of WE, at which time the Erase Verify command (A0H) is sent to the command register. During this cycle,the address to be verified is sent to the address bus and latched when WE goes low. An integrated stop timer allows for automatic timing control over this operation,eliminating the need for a maximum erase timing speci-fication. Refer to AC Characteristics (Program/Erase)for specific timing parameters.CAT28F020Figure 5. Chip Erase Algorithm (1)5108 FHD F10Note:(1)The algorithm MUST BE FOLLOWED to ensure proper and reliable operation of the device.分销商库存信息:ONSEMICAT28F020G-90T CAT28F020LI12CAT28F020G-12T CAT28F020G12CAT28F020G90CAT28F020GI12 CAT28F020GI90CAT28F020GI-90T CAT28F020HI-12T CAT28F020L12CAT28F020GI-12T CAT28F020H-12T CAT28F020HI12CAT28F020H12CAT28F020H90 CAT28F020HR90CAT28F020L90CAT28F020LI90。

SIGNAL TEK™Cable Performance T esterI Gigabit PerformanceQualification – Test toIEEE 802.3 standardsI Selectable PerformanceT esting – qualify performanceof Data, Voice over IP, andIP Video applicationsI Performs Gigabit Ethernetlink establishment test in10 secondsI Data Monitoring to detectintermittent network problemsI Smart Autotest Functiondetects the presence of theSIGNAL TEK remote, activenetwork device or open endedcable and automatically runsthe appropriate test suiteI Intuitive Graphical UserInterface for fast andeasy operationI Internal and USBData Storage –store 20,000 tests internallyor unlimited on USB driveI Prints Easy-to-Read Pass/Fail Qualification ReportsSIGNALTEK™– High-Performance Gigabit Ethernet TestingSIGNALTEK™is the most cost-effective Gigabit Ethernet cableAutotest key to initiate tests from the remote end for one personoperation2.8Љ(7.1cm) 1⁄4VGA Color Display with backlighting for use in low light conditionMulti-color LEDs indicate link status,loopback mode,10/100 and Gigabit device detection,Autotest pass/fail,and battery conditionEasy-to-navigate user interfaceCompact design and soft over-mold sides fit well into any sized handContext sensitive softkeysSingle button cable testingQuick navigation key returns to Job Manager screenSingle button push for active network testing and monitoring Port status function detects 10/100 or Gigabit Ethernet devicesDisplays result for last autotest via red or green LED indicationSIGNAL TEK ™Standard KitCatalog No. 33-974I1 SIGNALTEK ™Near-end and remote-end handset IDEAL INDUSTRIES, INC.03/06Printed in U.S.A.ISO 9001:2000 QMSNo. 33-974SIGNALTEK ™OptionalPower Adapter – 4010-00-0136DESCRIPTION CAT NUMBER SIGNALTEK™ Cable Performance Tester 33-974Replacement cable accessory kit –Contains all original cables in SIGNALTEK™ kit 1219-91-0003RJ45 to 8 head alligator clipK-7920OPTIONALUniversal (120-240V) AC-DC power adapter (1)4010-00-0136。

6-port sector antenna, 2x 698–960 and 4x 1710–2690 MHz, 65°HPBW, 3x RET with manual override.Integrated Internal Remote Electrical Tilt (RET), with independent control of electrical tilt withmanual override on all arraysOBSOLETEThis product was discontinued on: March 27, 2020General SpecificationsAntenna Type SectorBand MultibandGrounding Type RF connector inner conductor and body grounded to reflector andmounting bracketPerformance Note Outdoor usageRadome Material ASA, UV stabilizedRadiator Material Brass | Low loss circuit boardReflector Material AluminumRF Connector Interface7-16 DIN FemaleRF Connector Location BottomRF Connector Quantity, high band4RF Connector Quantity, low band2RF Connector Quantity, total6Remote Electrical Tilt (RET) InformationRET Interface8-pin DIN Female | 8-pin DIN MaleRET Interface, quantity 3 female | 3 maleInput Voltage10–30 VdcInternal RET High band (2) | Low band (1)Power Consumption, idle state, maximum 2 WPower Consumption, normal conditions, maximum13 WProtocol3GPP/AISG 2.0 (Single RET)16Page ofPage of 26DimensionsWidth 353 mm | 13.898 in Depth 209 mm | 8.228 in Length2065 mm | 81.299 in Net Weight, without mounting kit28 kg | 61.729 lbArray LayoutElectrical SpecificationsImpedance50 ohmOperating Frequency Band 1710 – 2690 MHz | 698 – 960 MHz Polarization±45°Electrical SpecificationsFrequency Band, MHz698–790790–890890–9601710–19201920–21702300–2690 Gain, dBi15.315.516.11818.419.2 Beamwidth, Horizontal,degrees68.268.8636263.362 Beamwidth, Vertical, degrees12.41110.1 5.8 5.1 4.2Beam Tilt, degrees0–100–100–100–100–100–10 USLS (First Lobe), dB181818181814Null Fill, dB-22-22-22-22-22-22Front-to-Back Ratio at 180°,dB252425293331CPR at Boresight, dB171212191615CPR at Sector, dB109.697.1 5.34 Isolation, Cross Polarization,dB252525252525 Isolation, Inter-band, dB303030303030VSWR | Return loss, dB 1.43 | 15.0 1.43 | 15.0 1.43 | 15.0 1.5 | 14.0 1.5 | 14.0 1.5 | 14.0 PIM, 3rd Order, 2 x 20 W, dBc-150-150-150-150-150-150Input Power per Port,maximum, watts300300300250250250 Electrical Specifications, BASTAFrequency Band, MHz698–790790–890890–9601710–19201920–21702300–2690 Gain by all Beam Tilts,average, dBi14.815.115.717.618.118.6Gain by all Beam TiltsTolerance, dB±0.2±0.2±0.2±0.6±0.3±0.6Gain by Beam Tilt, average, dBi 0 ° | 14.95 ° | 14.810 ° | 14.70 ° | 15.15 ° | 15.110 ° | 15.00 ° | 15.75 ° | 15.710 ° | 15.60 ° | 17.65 ° | 17.610 ° | 17.60 ° | 18.05 ° | 18.010 ° | 18.10 ° | 18.65 ° | 18.710 ° | 18.3Beamwidth, HorizontalTolerance, degrees±1.2±2±1.7±2.8±5.4±6.6Beamwidth, VerticalTolerance, degrees±0.8±0.6±0.4±0.3±0.4±0.3USLS, beampeak to 20° abovebeampeak, dB181818181818Front-to-Back Total Power at180° ± 30°, dB25.323.123.623.424.925.4CPR at Boresight, dB16131319181811108755Page of36CPR at Sector, dB11108755 Mechanical SpecificationsWind Loading @ Velocity, frontal926.0 N @ 150 km/h (208.2 lbf @ 150 km/h)Wind Loading @ Velocity, lateral355.0 N @ 150 km/h (79.8 lbf @ 150 km/h)Wind Loading @ Velocity, rear951.0 N @ 150 km/h (213.8 lbf @ 150 km/h)Wind Speed, maximum250 km/h (155 mph)Packaging and WeightsWidth, packed430 mm | 16.929 inDepth, packed325 mm | 12.795 inLength, packed2260 mm | 88.976 inWeight, gross45 kg | 99.208 lbRegulatory Compliance/CertificationsAgency ClassificationCE Compliant with the relevant CE product directivesCHINA-ROHS Above maximum concentration valueISO 9001:2015Designed, manufactured and/or distributed under this quality management system REACH-SVHC Compliant as per SVHC revision on /ProductComplianceROHS Compliant/ExemptedUK-ROHSCompliant/ExemptedIncluded ProductsT-029-GL-E–Adjustable Tilt Pipe Mounting Kit for 2.362"-4.5" (60-115mm) OD round members for panelantennas. Includes 2 clamp sets.* FootnotesPerformance Note Severe environmental conditions may degrade optimum performancePage of46Adjustable Tilt Pipe Mounting Kit for 2.362"-4.5" (60-115mm) OD roundmembers for panel antennas. Includes 2 clamp sets.Product ClassificationProduct Type Adjustable tilt mounting kitGeneral SpecificationsApplication OutdoorColor SilverDimensionsCompatible Length, maximum2850 mm | 112.205 inCompatible Length, minimum1500 mm | 59.055 inCompatible Diameter, maximum115 mm | 4.528 inCompatible Diameter, minimum60 mm | 2.362 inAntenna-to-Pipe Distance85 mm | 3.346 inBracket-to-Bracket Distance1400 mm | 55.118 inWeight, net 6 kg | 13.228 lbMaterial SpecificationsMaterial Type Galvanized steelMechanical SpecificationsMechanical Tilt0°–8°Packaging and WeightsIncluded Brackets | HardwarePackaging quantity1Regulatory Compliance/CertificationsAgency ClassificationCE Compliant with the relevant CE product directives56Page ofCHINA-ROHS Below maximum concentration valueISO 9001:2015Designed, manufactured and/or distributed under this quality management system REACH-SVHC Compliant as per SVHC revision on /ProductCompliance ROHS CompliantUK-ROHSCompliantPage of66。

F2X16V2系列IP MODEM 使用说明书此说明书适用于下列型号产品：客户热线：400-8838-199电话：+86-592-6300320传真：+86-592-5912735网址：地址：厦门集美软件园三期A06栋11层F2X16V2系列IP MODEM使用说明书文档版本密级V1.0.2产品名称：F2X16V2共31页型号产品类别F2116V2GPRS IP MODEM F2A16V2LTE IP MODEM F2C16V2Cat.1IP MODEM文档修订记录日期版本说明作者2020-02-24V1.0.0初建ZDM 2020-04-16V1.0.1更新输入电源范围和产品图片ZDM 2020-05-12V1.0.2增加F2C16型号ZCL2/31著作权声明本文档所载的所有材料或内容受版权法的保护，所有版权由厦门四信通信科技有限公司拥有，但注明引用其他方的内容除外。

未经四信公司书面许可，任何人不得将本文档上的任何内容以任何方式进行复制、经销、翻印、连接、传送等任何商业目的的使用，但对于非商业目的的、个人使用的下载或打印（条件是不得修改，且须保留该材料中的版权说明或其他所有权的说明）除外。

商标声明Four-Faith、四信、、、均系厦门四信通信科技有限公司注册商标，未经事先书面许可，任何人不得以任何方式使用四信名称及四信的商标、标记。

3/31/314注：不同型号配件和接口可能存在差异，具体以实物为准。

目录第一章产品简介 (6)1.1产品概述 (6)1.3工作原理框图 (7)1.4产品规格 (8)第二章安装 (10)2.1概述 (10)2.2开箱 (10)2.3安装与电缆连接 (10)2.4电源说明 (13)2.5指示灯说明 (13)第三章参数配置 (14)3.1配置连接 (14)3.2参数配置方式介绍 (14)3.3参数配置详细说明 (14)3.3.1配置工具运行界面 (15)3.3.2设备上电 (16)3.3.4中心服务 (22)3.3.5串口 (23)3.3.6无线拔号 (24)3.3.7全局参数 (26)3.3.8设备管理 (27)3.3.9其它功能项 (28)第四章数据传输试验环境测试 (29)4.1试验环境网络结构 (29)4.2测试步骤 (29)5/316/31第一章产品简介1.1产品概述F2X16V2系列IP MODEM 是一种物联网无线数据终端，利用公用蜂窝网络为用户提供无线长距离数据传输功能。

599 Menlo Drive, Suite 100Rocklin, California 95765, USAOffice: (916) 624-8333Fax: (916) 624-8003General: info@Technical: support@Web Site: Educational: Gripper Kit for the Boe-Bot® Robot (#28202)The Gripper KitThis kit allows your Parallax Boe-Bot® Robot to pick up objects. TheBoe-Bot robot (#28132 serial or #28832 USB) is sold separately.Before getting started, take an inventory of the parts in your kit. UseFig #1 to identify each part to the parts list. Once you haveinventoried your kit, proceed to Step #1.11423456791011121315161783Recommended Tools•Small needle nosed pliers•Phillips #2 point screwdriver•Small flat-blade screwdriver• A sharp-tipped hobby knife,such as an X-Acto® knife-OR-A hand drill with 5/64″ bitWARNING!DO NOT use electricscrewdrivers with this kit. Pleaseassemble using hand tools onlyto avoid damaging your Gripper.Step #1: SpacersItem Qty Description 4 (2) Gripper link 5 (2) #4 x 1" spacer• Insert spacers into plastic Gripper links. • Use Fig #2 as a guide to install the spacers. Whendone, the pieces will appear as shown in Fig #3.Fig #2Fig #3Step #2: Gripper LinksItem Qty Description6 (1) Gripper plate7 (2) 4-40 x 1.25" pan head screw8 (2) 4-40 Hex Nut•Be sure the angled portions on top of the plastic links match the angles on top of the Gripper as shown in Fig #5.• Move links and spacers into the Gripper plate, thensecure with 4-40 screws and nuts as shown in Fig #4. • Tighten securely.• Before continuing, double check your work to ensurethat the pieces are angled as in Fig #5.Fig #4 Fig #5Step #3: Foam TapeItem Qty Description14 (4) foam tape• Cut four pieces of foam tape, each 2 inches long. •Apply foam tape to the Gripper plate as shown in Fig #7.This completes the left-side Gripper sub-assembly.Fig #6Fig #7Step #4: Second Gripper Sub-assemblyItem Qty Description4 (2) Gripper link5 (2) #4 x 1" spacer6 (1) Gripper plate7 (2) 4-40 x 1.25" pan head screw8 (2) 4-40 hex nut 14 (4) foam tape• Repeat Steps #1 through #3 to build the right-sideGripper sub-assembly in a similar fashion.• Be sure the angled portions of the links match with theGrippers face to face. Position the pieces exactly as they appear in Fig #8.• Double check your work, then proceed to Step #5.Fig #8•Assemble the Gripper sub-assemblies to the upperand lower linkage plates as shown in Fig #9. In turn, insert each plastic link, a spacer, and secure with 4-40 screws and nuts.• When all four plastic links are installed, tighten securely.•Double check your work against Fig #10. Note that the hinge tabs on the bottom plate face up, while hinge tabs on top plate face down.Step #5: Linkage PlatesItem Qty Description3 (2) linkage plate 5 (4)#4 x 1" spacer 7(4) 4-40 x 1.25" pan head screw 8 (4) 4-40 hex nutStep #6: Control ArmsItem Qty Description 10 (2) control arm 15 (4) 4-40 x ¼" pan head screw• Attach control arms with 4-40 x ¼" screws as shown in Fig #11.•Final assembly must match Fig #12. Double check your work, then proceed to Step #7.Fig #11Fig #12Step #7: E-Z ConnectorsItem Qty Description 13 (2) Brass 0.072 E-Z Connector• Follow the directions on the package to install the E/Z Connector into the control arms. Use the nylon washers, but set the screws aside for now.• Check your work; your final assembly should match Fig #13.Fig #13Step #8: Install Gripper Hinge PlateItem Qty Description1 (1) hinge mount 15 (3) 4-40 x ¼" pan head screw 8 (3) 4-40 hex nutNote: It is recommended that the servos and tires on the Boe-Bot be installed with the wheels biased toward the front of the unit as shown below. This will prevent the Boe-Bot from tipping when it picks up objects.• Attach hinge mount to the Boe-Bot with the 4-40 x ¼" screws and nuts as shown in Fig #14 and Fig #15. • Double check your work against Fig #16.Fig #14 Top ViewFig #15 Bottom ViewFig #16Assembled ViewStep #9: Position Gripper on Boe-BotItem Qty Description(1) Gripper assembly (1) Boe-Bot robot• Remove one wheel to allow for dowel pin installation in the next step, Step #10.• Position the Gripper assembly onto the hinge mount as shown in Fig #17 below.•Place the top hinge tabs over the tabs on the hinge mount so the top of the Gripper stays on the hinge mount.Fig #17Step #10: Insert Dowel Pin Item Qty Description2 (1) dowelpin• Insert dowel pin.•If dowel pin slips in very easily, use needle nose pliers to slightly crimp the center of the hinge plate.• Replace wheel.Fig #18Fig #19Fig #21Step #12: Servo BracketsItem Qty Description16 (2) servo brackets 17 (4) 4-40 x 3/8" pan head screw 8 (4) 4-40 hex nut 11 (1) Parallax Standard Serv o• Attach servo brackets to servo with 4-40 screws and nuts. Make sure the metal brackets are placed below the plastic servo tabs as shown in Fig #22.•The final assembly should match Fig #23. Double check your work, then proceed to Step #13.Note: Only one arm of the servo horn is shown for clarity.Fig #22Fig #23Step #13: Bend Actuator RodItem Qty Description 12 (1) actuator rod•Using the needle nose pliers, bend actuator rod at mid-point. Then bend as shown in Fig #24.Fig #24Step #14: Install Actuator Rod Item Qty Description12 (1) actuatorrod11 (1) Parallax Standard Servo•Thread bent rod through servo horn as shown in Fig #25.Fig #25分销商库存信息: PARALLAX 28202。

安装指南将交换机连接到网络注意：如果网络中使用的是静态 IP 地址，请先配置交换机 IP 地址，然后再将其连接到网络。

参见使用静态 IP 地址配置交换机。

1. 将计算机或设备连接到交换机前面板上的 RJ-45 网络端口。

进行万兆网络连接时，请使用末端为 RJ-45 接头的超五类 (Cat 5e) 或更高速度的以太网线（六类、超六类或七类）。

2. 将交换机上的一个端口连接到提供互联网连接的网络路由器。

注意：若您使用的是 SFP 端口，则必须插入一个 SFP 光纤模块，此模块可从 NETGEAR 购买。

3. 打开交换机电源。

注意：我们建议在线缆传输距离超过 45 米（148 英尺）时使用超六类或七类 网线。

发现和注册交换机如果交换机连接到无线路由器或接入点以及互联网，您可以使用 NETGEAR Insight app 来发现网络中的交换机，使用 NETGEAR 注册交换机并激活保修。

1. 在您的移动设备上，访问 App Store ，搜索 NETGEAR Insight 并下载最新版app 。

2. 将手机终端连接至交换机所在的同一个 WiFi 网络。

3. 打开 NETGEAR Insight app 。

4. 如果尚未设置 NETGEAR 帐户，轻触 Create NETGEAR Account （创建 NETGEAR 帐户）并按照界面说明操作。

5. 输入您帐户的电子邮件地址和密码，然后轻触 LOG IN （登录）。

登录到您的帐户后，交换机将显示在设备列表中。

28 端口和 48 端口万兆铜缆智能网管 Pro 交换机， 配有 4 个 SFP 端口型号 XS728T 和 XS748T包装内容• 交换机• 电源线• 用于桌面安装的橡胶脚垫• 机架安装套件•安装指南注意：如需安装说明，请参阅硬件安装指南，指南可从 /support/ 下载。

6. 轻触右上角的 +。

7. 使用手机上的摄像头扫描位于交换机底部的条形码，或输入序列号。

ATT7022E/26E/28E用 户 手 册 钜泉光电科技（上海）股份有限公司Tel: ************Fax: ************Email: *********************Web: 目录版本修改说明 (2)1芯片概况 (6)1.1芯片简介 (6)1.2芯片特性 (6)1.3芯片比较列表 (7)1.4整体框图 (7)1.5引脚定义 (8)1.6应用示意图 (11)2功能描述 (12)2.1电源管理 (12)2.2SLEEP模式 (12)2.3复位系统 (12)2.4A/D转换 (13)2.5电能质量测量 (14)2.5.1SAG功能 (14)2.5.2过流检测功能 (14)2.5.3闪变功能实现方案 (14)2.5.4电压相序检测 (14)2.5.5电流相序检测 (15)2.5.6电压夹角测量 (15)2.5.7电压电流相角的测量 (15)2.5.8功率因数测量 (15)2.5.9电压频率测量 (15)2.5.10失压检测 (15)2.6有效值测量 (16)2.6.1电流有效值测量 (16)2.6.2电压有效值测量 (16)2.7有功计量 (16)2.7.1有功功率计算 (16)2.7.2有功能量计算 (17)2.8无功计量 (17)2.8.1无功功率计算 (18)2.8.2无功能量计算 (18)2.9视在计算 (18)2.9.1视在功率计算 (18)2.9.2视在能量计算 (19)2.10基波谐波功能 (20)2.11功率方向判断 (20)2.12起动/潜动 (21)2.13硬件端口检测 (21)2.15基波测量功能 (21)2.16三相三线/四线应用 (22)2.17能量脉冲输出 (22)2.18ADC采样数据缓冲功能 (23)2.19同步采样数据缓冲功能 (24)2.20V REF数字自动补偿功能 (24)3通信接口 (26)3.1SPI通讯接口介绍 (26)3.2SPI读操作 (27)3.3SPI写操作 (28)3.4SPI写特殊命令字操作 (29)4寄存器 (31)4.1计量参数寄存器 (31)4.1.1r_YIc (31)4.1.2Ic和参考向量之间的相角 (31)4.1.3YUa (32)4.1.4Ua和参考向量之间的相角 (32)4.1.5YUb (32)4.1.6Ub和参考向量之间的相角 (32)4.1.7YUc (32)4.1.8Uc和参考向量之间的相角 (32)4.2计量参数寄存器说明 (34)4.2.1功率寄存器（地址：0x01~0x0C，0x40~0x43，0x57~0x5A） (34)4.2.2有效值寄存器（地址：0x0D~0x013、0x29、0x2B、0x48~0x4D） (35)4.2.3功率因数寄存器（地址：0x14~0x017） (36)4.2.4功率角和电压夹角寄存器（地址：0x18~0x1A、0x26~0x28） (37)4.2.5线频率寄存器（地址：0x1C） (38)4.2.6温度传感器数据寄存器（地址：0x2A） (38)4.2.7能量寄存器（地址：0x1E~0x25，0x35~0x38，0x44~0x47） (38)4.2.8快速脉冲计数寄存器（地址：0x39~0x3C） (39)4.2.9标志状态寄存器（地址：0x2C） (40)4.2.10电能寄存器工作状态寄存器（地址：0x1D,0x4E） (41)4.2.11功率方向寄存器（地址：0x3D） (42)4.2.12中断标志寄存器（地址：0x1B） (42)4.2.13ADC采样数据寄存器（地址：0x2F~0x34、0x3F） (43)4.2.14校表数据校验和寄存器（地址：0x3E/5E） (43)4.2.15通讯数据备份寄存器（地址：0x2D） (44)4.2.16通讯校验和寄存器（地址：0x2E） (44)4.2.17SAG标志寄存器(0x4F) (44)4.2.18峰值电压寄存器(0x50~0x52) (45)4.2.19芯片ID（地址：0x5D） (45)4.3校表参数寄存器 (45)4.4校表参数寄存器说明 (47)4.4.2ADC0x02 (48)4.4.3EMU单元配置（地址：0x03） (48)4.4.4功率增益补偿寄存器(地址：0x04~0x0C) (49)4.4.5相位校正寄存器(地址：0x00D~0x12，0x61~0x63) (50)4.4.6功率offset校正(地址：0x13~0x15，0x21~0x23，0x64~0x69) (50)4.4.7基波无功相位校正寄存器(地址：0x16) (51)4.4.8电压增益校正寄存器(地址：0x17~0x19) (51)4.4.9电流增益校正寄存器(地址：0x1A~0x1C，0x20) (52)4.4.10起动电流设置寄存器(地址：0x1D) (52)4.4.11高频脉冲常数设置(地址：0x1E) (53)4.4.12失压阈值设置寄存器(地址：0x1F) (53)4.4.13有效值offset校正(地址：0x24~0x29，0x6A) (54)4.4.14ADC offset校正(地址：0x2A~0x2F) (54)4.4.15中断使能寄存器(地址：0x30) (55)4.4.16模拟模块使能寄存器(地址：0x31) (55)4.4.17全通道增益寄存器(地址：0x32) (56)4.4.18脉冲加倍寄存器(地址：0x33) (56)4.4.19基波增益寄存器(地址：0x34) (57)4.4.20IO状态配置寄存器(地址：0x35) (57)4.4.21起动功率寄存器(地址：0x36) (57)4.4.22相位补偿区域设置寄存器(地址：0x37/0x60) (58)4.4.23SAG数据长度设置寄存器(0x38) (58)4.4.24SAG检测阈值设置寄存器(0x39) (58)4.4.25过流检测阈值设置寄存器(0x71) (59)4.4.26自动温度补偿相关寄存器(0x6B~0x6F) （新增） (59)4.4.27算法控制寄存器(0x70) (60)5电气规格 (62)5.1电气参数 (62)6校表过程 (63)校表及推荐 (64)7芯片封装 (66)8典型应用 (67)8.1从采样数据得到FFT的推荐流程 (67)8.2同步缓冲数据分次谐波分析推荐流程 (67)8.3典型运用电路原理图 (67)1.1芯片简介ATT7022E/26E/28E系列多功能高精度三相电能专用计量芯片，适用于三相三线和三相四线应用。

N8020A主控卡硬件手册权所有恩智（上海）恩智测控技术有限公司版本V1.002016-10-26前言尊敬的用户：首先，非常感谢您选择本公司N8020A-SWITCH交流电流测量卡。

本手册适用于N8020A-SWITCH交流电流测量卡（下文简称N8020A），内容包括N8020A接口，参数指标，使用方法等详细信息。

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◆非专业人员请勿进行维修或调整。

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ELC-PV28NNDR ELC-PV28NNDTELC that is micro, multi-functional, and with various instructionsInstruction SheetWARNINGx This instruc ion sheet only provides introductory information on electrical specification, functions, trouble-shoo ing and peripherals. For more information, please refer to “ELC System Manual ”.x This is an OPEN TYPE Controller. The ELC should be kept in an enclosure away from airborne dust, humidity, electric shock risk and vibration. Also, it is equipped with protective methods such as some special tools or keys to open the enclosure, so as to avoid the hazard to users and the damage to the ELC.x Never connect the AC main circuit power supply to any of the input/output terminals, as it will damage the ELC. Check all the wiring prior to power up. To avoid any electromagnetic noise, make sure the ELC is properly grounded. DO NOT touch terminals when power on.x Power, input and output (I/O) wiring must be in accordance wi h Class І, Division 2 wiring methods – Article 501-10(B)(1) of he National Electrical Code.x Suitable for use in Class І, Division 2, Groups A, B, C, D or non-hazardous loca ions only. x Explosion hazard - Substitution of components may impair suitability for Class І, Division 2.x Explosion hazard - DO NOT disconnect equipment unless power has been switched off or he area is known to be non hazardous. x Ambient temperature 55°C.xOperating Temperature Code T4A.1INTRODUCTION1.1 Model Name Explanation & PeripheralsThank you for choosing Eaton Logic Controller (ELC) series products. The ELC-PV series are 28-point (16 inputs + 12 outputs) controllers offering various instructions and 16K Steps program memory to connect with ELC series extension models which includes digital input/ output (max. 512 input/ output extension points), analog modules (A/D, D/A transforma ion and temperature units) and all kinds of new high-speed extension modules. Its 4-grouphigh-speed (200KHz) pulse outputs and the two new 2-axis interpola ion instructions satisfy all kinds of applications. ELC-PV is small in size and easy to install.1.2 Product Profile & Outline12345671410981312117039031718161560201921Unit: mm1 Status indicators of POWER, RUN, BAT LOW and ERROR2 COM1(RS-232) (Rx) indicator3 COM2(RS-485) (Tx) indicator 4/O point indicators 5 RUN/STOP switch6 VR0: Start-up by M1178/D1178 corresponding value7 VR1: Start-up by M1179/D1179 corresponding value 8/O terminal 9 COM1(RS-232) port10 D N rail clip11 Extension module positioning hole12 Extension port for wire to connect extension module/unit 13 D N rail track (35mm) 14 Extension unit clip15 RS-485 communication port (Master/Slave) 16 DC Power input17 3 pin removable terminal (standard component) 18 Power input cable (standard accessory)19 New high-speed extension module connection port 20 Nameplate21 Direct fastening hole2SPECIFICATIONStemSpecificationNoteOperation control method Stored program; cyclic scanning systemI/O control methodBatch processing and refresh /O status when ENDinstruction is executed With instruction that can immediately refresh I/O status Operation processing speed Basic instruction (min. 024 us) Application instruction Program language Instruction + ladder diagram + SFC With step instructionProgram capacity 15,872 STEPSSRAM + rechargeable battery + Flash Instruction type32 basic sequential instructions (including step ladder instructions)193 application instructionstemSpecificationNoteR e l a y (b i t )X External input relay X0 ~ X377, octal encoding; 256 points Total512 points Corresponds to external input pointsYExternal output relayY0 ~ Y377, octal encoding; 256 points Corresponds to external output pointsMAuxiliary relayGeneral purposeM0 ~ M499, 500 points (*2) Total4,096pointsThe contact can be On/Off in theprogram.Latched M500 ~ M999, 500 points (*3) M2000 ~ M4095, 2,096 points (*3) Special purposeM1000 ~ M1999, 1,000 points (part for latched)T Timer100 msT0 ~ T199, 200 points (*2) Total 256 points Timer indicated by TMR instruction. If timing reaches its target the T contact of the same No. will be On.T192 ~ T199 for subroutineT250 ~ T255, 6 accumulative points (*4) 10 ms T200 ~ T239, 40 points (*2)T240 ~ T245, 6 accumulative points (*4) 1 ms T246 ~ T249, 4 accumulative points (*4) C Counter16-bit counting up C0 ~ C99, 100 points (*2) Total253pointsCounter indicated by CNT (DCNT)instruction. If counting reaches itstarget, the C contact of the sameNo. will be On.C100 ~ C199, 100 points (*3) 32-bit counting up/downC200 ~ C219, 20 points (*2) C220 ~ C234, 15 points (*3)32-bit high-speedcounting up/downC235 ~ C244, 1 phase 1 input, 10 points (*3)C246 ~ C249, 1 phase 2 inputs, 4 points (*3)C251 ~ C254, 2 phase 2 inputs, 4 points (*3)S Step points InitialS0 ~ S9, 10 points (*2)Total 1,024 pointsUsed for SFCLatched area setup Start: D1214ΰK500α End: D1215ΰK899αFor zero returnS10 ~ S19, 10 points, used with IST instruction (*2)General purposeS20 ~ S499, 480 points (*2) Latched S500 ~ S899, 400 points (*3) For alarmS900 ~ S1023, 124 points (*3) R e g i s t e r (w o r d d a t a )T Present value in timer T0 ~ T255, 256 pointsWhen timing reaches the target, the contact continuity of timer appears. CPresent value in counterC0 ~ C199, 16-bit counter, 200 pointsWhen counting reaches the target, the contact continuity of counter appears.C200 ~ C254, 32-bit counter, 53 points DData registerGeneral purposeD0 ~ D199, 200 points (*2) Total 10,000 points Memory area for data storage can be used for special indirect indication.Latched D200 ~ D999, 800 points (*3) D2000 ~ D9999, 8,000 points (*3) Special purpose D1000 ~ D1999, 1,000 points For Indirect indicationE0 ~ E7, F0 ~ F7, 16 points (*1) N/A File register0 ~ 9,999 (10,000 points) (*4) Extension register for data storage I n d e xN For main control loop N0 ~ N7, 8 points Control point for main control loop PFor CJ, CALL instructions P0 ~ P255, 256 pointsPosition index of CJ and CALLII n t e r r u p t i o n s u b r o u t i n eExternal interruptionI0000/I0001(X0), I1000/I1001(X1), I2000/I2001(X2), I3000/I3001(X3), I4000/I4001(X4), I5000/I5001(X5),6 points (01: rising-edge trigger; 00: falling-edge trigger) Position index for interruption subroutineTime interruption I601~I699 (1ms), I701~I799 (1ms), I801~I899 (0.1ms) Interruption when high-speed counting reaches its target I010, I020, I030, I040, I050, 060, 6 points Interruption during pulse outputI110, I120, I130, I140, 4 points Interruption during communicationI150, I160, I170, 3 pointsC o n s t a n tK Decimal K-32,768 ~ K32,767 (16-bit operation)K-2,147,483,648 ~ K2,147,483,647ΰ32-bit operation αH HexH0000 ~ HFFFF (16-bit operation), H00000000 ~ HFFFFFFFF (32-bit operation) FFloating pointDisplaying floating points by the length of 32 bits with IEEE754 standard ±1.1755 × 10-38 ~ ±3.4028 × 10+38Serial communication ports (program write in/read out) COM1: RS-232; COM2: RS-485 (can be master or slave); COM1 and COM2 can be used at the same time Potentiometer / RTC Built-in 2 points VR / Built-in RTCSpecial extension moduleRight-side extension module and PB series share all modules (max. 8 modules extendable) Left-side can be connected with new high-speed extension modules (max. 8 module extendable)*1: Non-latched area cannot be modified.*2: The preset non-latched area can be modified into latched area by set ing up parameters. *3: The preset latched area can be modified into non-latched area by setting up parameters. *4: The fixed latched area cannot be modified.After the 24V DC power is switched off, the data in the latched area is stored in SRAM memory which is powered by he rechargeable battery. When the battery is damaged or cannot be changed, the data in the program and latched area will be lost. If the user needs to permanently save the data in he latched area in the program and device D, please refer to “Flash ROM permanently saved and recover mechanism ” as stated below. Permanently saved mechanism:The user can use ELCSoft (Options -> ELC<=>Flash) to indicate whether to permanently store the data in the latched area in the program (including password) and device D in Flash ROM memory (new indicated data will replace all data previously saved in the memory). Recover mechanism:If the rechargeable battery is in low voltage, resulting in the loss of data in the program, ELC will automatically restore he data in the latched area in the program and device D of Flash ROM into SRAM memory (M1176 = On) next time when 24V DC is re-powered. The ERROR LED flashing will remind the user that if the recorded program is able to resume its execution, the user only needs to shut down and re-power the ELC once to restart its operation (RUN).3ELECTRICAL SPECIFICATIONSInput pointTypeCurrent Motion levelResponding timeDC (Sink or Source)24VDC 5mAX0~X7,X12~X13,X16~X17Off On Ї165VDCX10~X11,X14~X15Off On Ї18.5VDCX0~X17 On Off І8VDCApprox. 10 ms (can be adjusted within the range of 10 ~ 60 ms by D1020 and D1021)Output pointType Current Voltage Max. loadingRespondingtimeMechani-cal life Electrical life relay-R1.5A/1 point (5A/COM)250VAC,Ї30VDC75VA (inductive) 90 W (resistive)Approx. 10 ms2×107times (without load)1.5×105times (5A 30VDC) 5×105 times (3A 120VAC)3×104 times (5A 250VAC)transistor-TGeneral: 0.3A/1 point @40ºCHigh-speed: І1kHz, 0.3A/1 point @ 40ºC; ≥ 1kHz,30mA/1point@40 ºC30VDCMax. 10kHz for Y5, Y7, Y10 ~ Y13Off On 20us On Off 30usMax. 200kHz for Y0, Y1, Y2, Y3, Y4, Y6Off On 0.2us On Off 0.2us4MODEL NAME & I/O CONFIGURATION5INSTALLATION & WIRING5.1 Mounting & WiringThe ELC can be secured to a cabinet by using the DIN rail of 35mm in height and 75mm in depth. When mounting ELC to DIN rail, be sure to use he end bracket to stop any side-to-side movement of ELC and reduce the chance of wires being loose. A small retaining clip is at the bottom of ELC. To secure ELC to DIN rail, place the clip onto he rail and gently push it up. To remove it, pull the retaining clip down and gently remove ELC from DIN rail, as shown in figure 1.Please use M4 screw (see figure 2) according to the dimension of the product. Please install ELC in an enclosurewith sufficient space around it to allow heat dissipation (see figure 3).9053.270101109.4D > 50 mmFigure 1Figure 2 (Unit: mm)Figure 35.2 Wiring1. Use 22-16AWG (1.5mm) single or multiple core wire on I/O wiring terminals. Thespecification of the terminal is shown in the figure on the left. The ELC terminalscrews shall be tightened to 1.95 kg-cm (1.7 in-lbs).2. DO NOT place the I/O signal wires and power supply wire in the same wiring duct.3. Use 60/75 ºC copper wires only.DO NOT install ELC in an environment with:1. Dust, smoke, metallic debris, corrosive or flammable gas2. High temperature, humidity3. Direct shock and vibration5.3 Power Input WiringThe power input of ELC-PV series is DC. When operating ELC-PV series, please make sure that:1. The power is connected to the two terminals, 24VDC and 0V, and the range of power is 20.4VDC ~28.8VDC. If the power voltage is less than 20.4VDC, ELC will stop running, all outputs will go “Off” andERROR indicator will flash continuously.2. A power shutdown of less than 10 ms will not affect the operation of ELC. However, power shutdown timethat is too long or a drop of power voltage will stop the operation of ELC and all outputs will go “Off”. When the power supplied again, ELC will automatically return to its operation. (Please be aware of the latched auxiliary relays and registers inside ELC when programming.)DC power input5.4 Input point wiringThere are two types of DC inputs, SINK and SOURCE.5.5 Output point wiring5.6 Relay (R) contact circuit wiring5.7 Transistor (T) contact circuit wiring6 TRIAL RUN■Preparation1. Prior to applying power, please verify that the power lines and the input/output wiring are correct. And beadvised not to supply 110V AC or 220V AC into he I/O terminals, or it might short-circuit the wiring and would cause direct damage to the ELC.2. After using the peripheral devices to write the program into he ELC and that the ERROR LED of the ELCis not on, it means that the program in use is legitimate, and it is now waiting for the user to give the RUN command.3. Use ELC-HHP to execute the forced On/Off test of the output contact.■Operation & test1. If the ERROR indicator does not flash, you can use the RUN/STOP switch or a peripheral device(ELC-HHP or ELCSoft) to give a RUN instruction. The RUN indicator should be continuously on at thistime. That the RUN indicator does not flash indicates ELC has no program in it.2. When ELC is in operation, use ELC-HHP or ELCSoft to monitor the set value or temporarily saved valuein timer (T), counter (C), and register (D) and force On/Off of output contacts. That the ERROR indicator is on (not flashes) indicates that part of the program exceeds the preset time-out. In this case, you have to set the RUN/STOP switch as STOP first, check special register D1008 and obtain the location in theprogram where time-out takes place. Please refer to he WDT instruction to solve this problem.■Operation of ELC basic sequential instruc ions & application instruc ions1. The basic sequential instructions and application instructions of ELC-PV series are compatible with allELC series ELCs. See Eaton “ELC System Manual” for relevant information.2. All ELC series ELCs are compatible with ELC-HHP handheld programming panel, ELCSoft ladderdiagram for program editing and exclusive transmission cables to connect with ELC-PV for programtransmission, ELC control, program monitoring and so on.7 TROUBLESHOOTINGBased on the indicators on the front panel, please check the following for errors:☼POWER indicatorWhen ELC is powered, the POWER LED indicator on the front panel will be on (in green). If this indicator is not on or the ERROR indicator keeps flashing when ELC is powered indicates that the power supply +24V are insufficient or DC power supply 24V is overloaded. In this case, change another 24V DC power supply. If the indicator is still off at this time, your ELC is malfunctioned. Send your ELC back to your distributor for repair.☼RUN indicatorCheck your ELC status. When ELC is running, this indicator will be on. You can use ELC-HHP, the ladder diagram editing program or the switch on the panel to RUN or STOP ELC.☼ERROR indicatorIf you enter illegal program into ELC or use instructions or devices that exceed their range, this indicator will flash (approx. every 1 second). When this happens, you have to obtain the error code from D1004 and save the address where the error occurs in register D1137 (if the error is a general circuit error, the address of D1137 will be invalid). Find out the cause of the error, amend the program and resend the program to ELC. If you cannot connect to ELC and this indicator keeps flashing quickly (approx. every 0.2 second), it means that the 24VDC power voltage is insufficient. Please check if the 24V DC is overloaded.If the ERROR indicator is on, you have to check the special relay M1008. If M1008 is on indicates that the execution time of program loop exceeds the preset time-out (in D1000). In this case, turn the RUN/STOP switch to STOP, check the special register D1008 and obtain the location in the program where the time-out takes place. Please refer to the WDT instruction to solve this problem. After amending the program, you only need to resend the program to stop the indicator from flashing. If the indicator still keeps flashing at this time, switch off he power and check if there is any interference existing or conductive matter inside ELC.For details of error codes (in D1004, hex coding), see “ELC System Ma nual: Programming”.☼BAT.LOW indicatorThe rechargeable lithium-ion battery in ELC-PV is mainly used on the latched procedure and data storage.The lithium-ion battery has been fully charged in the factory and is able to retain the latched procedure and data storage for 12 months. If ELC-PV has not been powered and used for more than 12 months, the battery will be out of power upon normal consumption and the procedure and data will be lost.The lithium-ion battery has longer life span than ordinary battery; therefore there is no need to change battery very frequently. You can charge the battery at any time without having to worry about a decrease in chargeability.You can also recharge the battery even when there is still power in the battery.Please be aware of the date of manufacturing; the charged battery can sustain for 12 months from this date. If you find that the BAT.LOW indicator stays on after ELC is powered, the battery voltage is low and the battery is being charged. ELC-PV has to remain on for more than 24 hours to fully charge the battery. If the indicator turns from on to “flash” (every 1 second), it indicates that the battery cannot be charged anymore. Please correctly process your data in time and send the ELC back to Eaton for changing a new battery.Precision of calendar timer:At 0̓C/32̓F, less than –117 seconds error per month.At 25̓C/77̓F, less than 52 seconds error per month.At 55̓C/131̓F, less than –132 seconds error per month.☼Input indicatorOn/Off of input point is indicated by input indicator or monitored by ELC-HHP. When the action condition of the input point is true, this indicator will be on. If abnormality is identified, check if the indicator and input circuit are normal. Use of electronic switch with too much electricity leakage often results in unexpected actions of the input point.☼Output indicatorOn/Off of output point is indicated by the output indicator. When the output indicator (On/Off) does notcorrespond to the action of its load, please be aware of the following:1. The output contact may be melted or blocked due to an over loaded or short-circuited load, which will resultin poor contact.2. If you are suspicious that he output point may execute an undesired action, check the output wiring circuitand whether the screw is properly tightened.。

PT-G7728SeriesIEC61850-328-port Layer2full Gigabit modular managed Ethernet switchesFeatures and Benefits•IEC61850-3Edition2Class2compliant•Hot-swappable interface and power modules for continuous operation•Built-in MMS server based on IEC61850-90-4switch data modeling forpower SCADA•IEEE1588hardware time stamp supportedCertificationsIntroductionThe PT-G7728modular switches provide up to28Gigabit ports,including4fixed ports,6interface module slots,and2power module slots to ensure sufficient flexibility for a variety of applications.The PT-G7728Series is designed to meet evolving network requirements,including a hot-swappable module design that enables you to change or add devices without shutting down your device.The multiple Ethernet modules(RJ45,SFP,and PoE)and power units(24/48VDC,110/220VAC/VDC)provide even greater flexibility as well as suitability for different operating conditions.The switches support a full Gigabit platform that provides enough bandwidth to set up an Ethernet backbone.Certifications include IEC61850Edition2Class2to ensure high availability and wide usage.SpecificationsEthernet Interface10/100/1000BaseT(X)Ports(RJ45connector)2100/1000BaseSFP Ports2Module6Slot Combination See the LM-7000H datasheet for Ethernet and PoE+modules informationStandards IEEE802.3for10BaseTIEEE802.3u for100BaseT(X)and100BaseFXIEEE802.3ab for1000BaseT(X)IEEE802.3z for1000BaseXIEEE802.1D-2004for Spanning Tree ProtocolIEEE802.1w for Rapid Spanning Tree ProtocolIEEE802.1p for Class of ServiceIEEE802.1Q for VLAN TaggingIEEE802.1X for authenticationIEEE802.3ad for Port Trunk with LACPIEEE802.3x for flow controlEthernet Software FeaturesManagement IPv4/IPv6,SNMP Inform,SNMPv1/v2c/v3,DHCP Server/Client,DHCP Option66/67/82,BOOTP,TFTP,LLDP,RARP,HTTP,HTTPS,Telnet,Flow control,Back Pressure FlowControl,Port Mirror,Fiber check,Dying Gasp,SMTP,SyslogMIB MIB-II,Ethernet-like MIB,Bridge MIB,P-BRIDGE MIB,Q-BRIDGE MIB,RSTP MIB,RMON MIB Groups1,2,3,9Filter IGMP v1/v2/v3,GMRP,GVRP,802.1Q,QinQ VLANRedundancy Protocols Link Aggregation,MSTP,RSTP,STP,Turbo Chain,Turbo Ring v1/v2,V-ONSecurity RADIUS,TACACS+,SSH,Port Lock,Broadcast storm protection,MAB authentication,Sticky MAC,Access control listTime Management NTP Server/Client,SNTP,IEEE1588v2PTP(hardware-based)Power Substation IEC61850QoS,GOOSE CheckIndustrial Protocols EtherNet/IP,Modbus TCPSwitch PropertiesPriority Queues8Max.No.of VLANs512VLAN ID Range1to4094IGMP Groups4096MAC Table Size16KPacket Buffer Size12MbitsJumbo Frame Size9.6KBSerial InterfaceConsole Port Micro USB Type BUSB InterfaceStorage Port USB Type APower ParametersInput Voltage with PWR-HV-P48installed:110/220VDC/VAC for the switch system48VDC for PoE system(53to57VDC is recommended for PoE+devices)with PWR-LV-P48installed:24/48VDC for the switch system48VDC for PoE system(53to57VDC is recommended for PoE+devices)with PWR-HV-NP installed:110/220VDC/VAC for the switch systemwith PWR-LV-NP installed:24/48VDC for the switch systemOperating Voltage with PWR-HV-P48installed:88to300VDC,90to264VAC for the switch system46to57VDC for PoE systemswith PWR-LV-P48installed:18to72VDC for the switch system46to57VDC for PoE systemswith PWR-HV-NP installed:88to300VDC,90to264VAC for the switch systemwith PWR-LV-NP installed:18to72VDC for the switch systemInput Current with PWR-HV-P48installed:PWR input current(switch system)Max.0.11A@110VDCMax.0.06A@220VDCMax.0.29A@110VACMax.0.18A@220VACEPS input current(PoE system)Max.0.53A@48VDC(excluding power consumption of PoE devices)with PWR-LV-P48installed:PWR input current(switch system)Max.0.53A@24VDCMax.0.28A@48VDCEPS input current(PoE system)Max.0.53A@48VDC(excluding power consumption of PoE devices)with PWR-HV-NP installed:PWR input current(switch system)Max.0.11A@110VDCMax.0.06A@220VDCMax.0.29A@110VACMax.0.18A@220VACwith PWR-LV-NP installed:PWR input current(switch system)Max.0.53A@24VDCMax.0.28A@48VDCPhysical CharacteristicsIP Rating IP30Dimensions443x44x280mm(17.44x1.73x11.02in)Weight3080g(6.8lb)Installation19-inch rack mountingEnvironmental LimitsOperating Temperature-40to85°C(-40to185°F)Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsEMC EN55032/24EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:8kV;Air:15kVIEC61000-4-3RS:80MHz to1GHz:20V/mIEC61000-4-4EFT:Power:4kV;Signal:4kVIEC61000-4-5Surge:Power:4kV;Signal:4kVIEC61000-4-6CS:10VIEC61000-4-8PFMFPower Substation IEC61850-3Edition2.0Class2,IEEE1613Railway EN50121-4Safety EN62368-1,UL62368-1MTBFTime449,542hrsStandards Telcordia(Bellcore),GBWarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x PT-G7728Series switchCable USB cable(Type A male to Micro USB type B)Installation Kit2x cap,for Micro-B USB port1x cap,metal,for ABC-02USB storage port2x rack-mounting ear2x cap,plastic,for SFP slotDocumentation1x quick installation guide1x warranty card1x substance disclosure table1x product certificates of quality inspection,Simplified Chinese1x product notice,Simplified ChineseNote SFP modules,modules from the LM-7000H Module Series,and/or modules from thePWR Power Module Series need to be purchased separately for use with this product.DimensionsOrdering InformationModel Name Layer 100/1000Base SFPSlots10/100/1000BaseT(X)PortsRJ45ConnectorPoE Ports,10/100/1000Base T(X)RJ45ConnectorOperating Temp.PT-G772822to262to260to24-40to85°C Accessories(sold separately)Storage KitsABC-02-USB Configuration backup and restoration tool,firmware upgrade,and log file storage tool for managedEthernet switches and routers,0to60°C operating temperatureABC-02-USB-T Configuration backup and restoration tool,firmware upgrade,and log file storage tool for managedEthernet switches and routers,-40to75°C operating temperaturePower SuppliesPWR-HV-P48Power supply module(110/220VAC/VDC)with system power input,relay,PoE power inputPWR-LV-P48Power supply module(24/48VDC)with system power input,relay,PoE power inputPWR-HV-NP Power supply module(110/220VAC/VDC)with system power input,relayPWR-LV-NP Power supply module(24/48VDC)with system power input,relayLM-7000H Module SeriesLM-7000H-4GTX Gigabit Ethernet module with410/100/1000BaseT(X)portsLM-7000H-4GSFP Gigabit Ethernet module with4100/1000BaseSFP slotsLM-7000H-4GPoE Gigabit Ethernet module with410/100/1000BaseT(X)IEEE802.3af/at PoE+portsLM-7000H-4TX Fast Ethernet module with410/100BaseT(X)portsLM-7000H-4PoE Fast Ethernet module with410/100BaseT(X)IEEE802.3af/at PoE+portsSFP ModulesSFP-1FELLC-T SFP module with1100Base single-mode with LC connector for80km transmission,-40to85°Coperating temperatureSFP-1FEMLC-T SFP module with1100Base multi-mode,LC connector for2/4km transmission,-40to85°C operatingtemperatureSFP-1FESLC-T SFP module with1100Base single-mode with LC connector for40km transmission,-40to85°Coperating temperatureSFP-1GEZXLC SFP module with11000BaseEZX port with LC connector for110km transmission,0to60°C operatingtemperatureSFP-1G10ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G10ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G10BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G10BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1G20ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G20ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G20BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G20BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1G40ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G40ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G40BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G40BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1GEZXLC-120SFP module with11000BaseEZX port with LC connector for120km transmission,0to60°C operatingtemperatureSFP-1GLHLC SFP module with11000BaseLH port with LC connector for30km transmission,0to60°C operatingtemperatureSFP-1GLHLC-T SFP module with11000BaseLH port with LC connector for30km transmission,-40to85°C operatingtemperatureSFP-1GLHXLC SFP module with11000BaseLHX port with LC connector for40km transmission,0to60°C operatingtemperatureSFP-1GLHXLC-T SFP module with11000BaseLHX port with LC connector for40km transmission,-40to85°Coperating temperatureSFP-1GLSXLC SFP module with11000BaseLSX port with LC connector for1km/2km transmission,0to60°Coperating temperatureSFP-1GLSXLC-T SFP module with11000BaseLSX port with LC connector for1km/2km transmission,-40to85°Coperating temperatureSFP-1GLXLC SFP module with11000BaseLX port with LC connector for10km transmission,0to60°C operatingtemperatureSFP-1GLXLC-T SFP module with11000BaseLX port with LC connector for10km transmission,-40to85°C operatingtemperatureSFP-1GSXLC SFP module with11000BaseSX port with LC connector for300m/550m transmission,0to60°Coperating temperatureSFP-1GSXLC-T SFP module with11000BaseSX port with LC connector for300m/550m transmission,-40to85°Coperating temperatureSFP-1GZXLC SFP module with11000BaseZX port with LC connector for80km transmission,0to60°C operatingtemperatureSFP-1GZXLC-T SFP module with11000BaseZX port with LC connector for80km transmission,-40to85°C operatingtemperatureSoftwareMXview-50Industrial network management software with a license for50nodes(by IP address)MXview-100Industrial network management software with a license for100nodes(by IP address)MXview-250Industrial network management software with a license for250nodes(by IP address)MXview-500Industrial network management software with a license for500nodes(by IP address)MXview-1000Industrial network management software with a license for1000nodes(by IP address)MXview-2000Industrial network management software with a license for2000nodes(by IP address)MXview Upgrade-50License expansion of MXview industrial network management software by50nodes(by IP address)©Moxa Inc.All rights reserved.Updated May28,2020.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。