VE07M00600KDC中文资料

颁布：2017年11月产品数据表艾利丹尼森® T-7000 和 W-7000 最大视觉性能 (MVP) 系列微棱镜反光射膜是一款优质产品，可提供您所需要的长距离卓越性能。

它质量高、耐用，微棱镜逆向反射材料上带有压敏性粘合剂。

T-7000 和 W-7000MVP 系列膜是一种全向微棱镜膜，内含大量排列在多个方向的微棱镜。

“各角度智能”型特点使每个标志都将从所有标志表面方向统一反射，为使用者提供机密保护。

特征：∙ 全方向∙ 微棱镜逆反射性能∙ 实践证明，应用于全球安全设备，具备长久使用寿命∙ 统一的昼间和夜间视觉效果加工信息：丝网印刷 热转印 溶剂喷墨打印 温和/环保溶剂墨打印 UV 喷墨打印 热模切 平板标志切割滚筒压路机标志切割 钢尺标志剪切应用：坚硬的永久和临时室外标志 坚硬的工作区设备需要长距离逆向反射性能的安全设备* 参见第 5 页中的术语 ** 3 年使用寿命性能：ASTM D4956 VIII 型 CUAP 3A 型完整列表见第 2 页。

方向： 全方向耐候性： 10年 只能垂直曝光。

表面：高度光泽带微棱镜丙烯酸反光膜粘性：永久压敏性里层： 聚丙烯膜打印与：TrafficJet™ Print System颁布：2017年11月产品数据表逆反射性：表 A ：12表格 B ：1MVP 系列膜超越表 A 和 表 B 中的所有值。

MVP 系列膜同样超越下列规格说明中所有当前适用的要求： 目前的要求，并确保产品符合该要求。

您的艾利丹尼森销售代表能在此方面给予您协助。

1R A =坎德拉 / 每英尺坎德拉 / 每平方英尺(cd/fc/ft 2)或坎德拉 / 每勒克斯 / 每平方米 (cd/lx/m 2)2根据 ASTM E810 进行测量3注意 0.1° 观察角是 ASTM D4956 中的“补充要求”。

它代表着长距离高速公路大约 900 英尺（275 米）乃至更远的视距。

颁布：2017年11月产品数据表颜色和规格限制：图形 A： 昼间色 – CIE 色品图图形 B ： 夜间颜色MVP 系列膜符合ASTM D4956 和 CUAP 当前白天和夜晚的颜色要求，且符合第 2 页所列的标准。

681-800-537-6945 USA 1-815-235-6847 International1-800-737-3360 CanadaFEATURESɀBidirectional sensing capability ɀActual mass air flow sensingɀLow differential pressure sensing The AWM2000 Series microbridge mass airflow sensor is a passive device com-prised of two Wheatstone bridges. The heater control circuit in Figure 1is re-quired for operation per specifications.The sensing bridge supply circuit in Fig-ure 2 is also required for operation per specifications. These two circuits are not on board the package and must be sup-plied in the application. The differential amplifier in Figure 3 is a useful interface for the sensing bridge. It can be used to introduce the gain and to introduce volt-age offsets to the sensor output as refer-enced in Equation 1.Note: For applications sensing hydrogen or helium, see Application Note 3, page 131.Figure 1Heater Control CircuitFigure 2Sensing Bridge Supply CircuitFigure 3Differential Instrumentation Amplifier CircuitEquation 1:V o ⍧2R 2+R 1R 4V 2-V 1+V offset()()()R 1R 3where V offset ⍧V S()R 6R 6+R 51-800-537-6945 USA 1-815-235-6847 International 1-800-737-3360 Canada 691. Output Voltage is ratiometric to supply voltage.2. Temperature shifts when sensing differential pressure correlates to the density change of the gas over temperature.See Application Note 1.3. Maximum allowable rate of flow change to prevent damage: 5.0 SLPM/1.0 sec.MOUNTING DIMENSIONS (for reference only)Airflow701-800-537-6945 USA 1-815-235-6847 International 1-800-737-3360 CanadaOUTPUT FLOW VS INTERCHANGEABILITY (Note 1)Performance Characteristics @10.0 ±0.01VDC, 25°C AWM2100V AWM2150VAWM2200V(Note 2)AWM2300V Press.Flow Nom.Tol.Press.Flow Nom.Tol.Flow Press.Nom.Tol.Press.Flow Nom.Tol.mBar sccm mV±mVȖBar sccm mV±mVsccm ⍯H 2O mV±mVmBar sccm mV±mV0.4920044.50 4.25533014.0 2.5120 4.0031.75 3.50 3.4100055.50 3.700.3515038.75 3.0036209.5 1.590 3.0026.75 2.50 2.480052.90 3.500.2110030.00 1.501710 5.0 1.560 2.0020.00 1.20 1.865050.00 2.500.095016.50 2.509.85 2.5 1.030 1.0011.20 1.800.8340042.50 3.000.000.00 1.007.44 2.0 1.000.000.001.000.3120029.20 3.20−0.09−50−16.50 4.50 6.23 1.5 1.0−30−1.00−11.20 3.0000.00 1.00−0.21−100−30.00 5.0052 1.0 1.0−60−2.00−20.00 3.30−0.31−200−28.9015.00−0.35−150−38.807.65 2.510.50.8−90−3.00−26.75 5.30−0.83−400−41.2026.00−0.49−200−44.509.75000.00.6−120−4.00−31.757.00−1.6−600−48.2029.50−9.8−5−2.5 2.0−2.4−800−52.2032.50−53−30−14.05.0−3.4−1000−55.0036.00Notes:1.Numbers in BOLD type indicate calibration type, mass flow or differential pressure.Tolerance values apply to calibration type only.2.Differential pressure calibrated devices are not recommended for flow e flow calibrated devices for flow measurement.OUTPUT CURVES。

Eaton 072907Eaton Moeller® series E-PKZ0 Insulated enclosure, E-PKZ0, H x W x D = 129 x 85 x 124 mm, flush-mounted, rotary handle, black/gray, IP55General specificationsEaton Moeller® series E-PKZ0 Accessory Insulated enclosure0729074015080729075124 mm 129 mm 85 mm 0.224 kgIEC/EN 60947-4-1 CSA Class No.: 3211-05 CSA-C22.2 No. 14 CECSA File No.: 165628 UL UL 508UL Category Control No.: NLRV UL File No.: E36332 CSAProduct NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Certifications0 AAccessoriesIs the panel builder's responsibility. The specifications for the switchgear must be observed.0 W0 WMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Black-gray rotary knobPE(N) terminalNEMA 1NEMA 12IP55NEMA 3RMeets the product standard's requirements.Meets the product standard's requirements.Is the panel builder's responsibility.eaton-manual-motor-starters-mounting-e-pkz0-accessory-dimensions.eps eaton-manual-motor-starters-enclosure-e-pkz0-accessory-dimensions-002.epseaton-manual-motor-starters-enclosure-e-pkz0-accessory-dimensions-003.epseaton-manual-motor-starters-enclosure-e-pkz0-accessory-dimensions.eps eaton-manual-motor-starters-enclosure-e-pkz0-accessory-3d-drawing-003.epsDA-CE-ETN.E-PKZ0-GIL03402029ZDA-CD-e_pkz0_gDA-CS-e_pkz0_gRated operational current for specified heat dissipation (In) Product category10.11 Short-circuit ratingEquipment heat dissipation, current-dependent PvidHeat dissipation capacity Pdiss10.4 Clearances and creepage distances10.12 Electromagnetic compatibility10.2.5 Lifting10.2.3.1 Verification of thermal stability of enclosuresFitted with:Degree of protection (front side)10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.8 Connections for external conductors10.9.2 Power-frequency electric strength DibujoseCAD model Instrucciones de instalación mCAD modelIs the panel builder's responsibility.Degree of protectionIP55NEMA OtherAmbient operating temperature - max40 °C10.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Static heat dissipation, non-current-dependent Pvs0 W10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Enclosure materialPlasticAmbient operating temperature - min-25 °C10.2.2 Corrosion resistanceMeets the product standard's requirements.10.6 Incorporation of switching devices and componentsDoes not apply, since the entire switchgear needs to be evaluated.10.2.4 Resistance to ultra-violet (UV) radiationPlease enquire10.2.7 InscriptionsMeets the product standard's requirements.10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.ModelBuilt-in10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to beEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. Todos los derechos reservados. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaevaluated.Is the panel builder's responsibility.Does not apply, since the entire switchgear needs to be evaluated.0 W10.9.4 Testing of enclosures made of insulating material 10.3 Degree of protection of assembliesHeat dissipation per pole, current-dependent Pvid。

The Power Behind the Storage+1.716.691.1999 | 09/03/19Performance EngineeredThe FibreBridge® 7600N is the latest in a line of ATTO products with an advanced architecture that pushes the envelope on performance adding less than fourmicroseconds of latency to storage. With a 10x order of magnitude improvement over previous generations of ATTO Controllers, the FibreBridge 7600N is primed for use in data center topologies maximizing the number of transactions from up to 240 direct attached SSD and HDD devices to a high performance Fibre Channel SAN. ATTOFibreBridge products provide industry leading performance with value added features that have addressed customer connectivity needs for over 28 years.xCORE Acceleration ProcessorThis approach radically improves performance with no features or services in the data path to slow down data transfers. This acceleration technology works in conjunction with the proven, reliable control functions of ATTO’s i ntelligent Bridging Architecture™ to create a unique controller that increases performance, reduces latency and lowers data center maintenance costs.Easy-to-use Management ToolsThe FibreBridge enables users to manage storage infrastructures with features not found in direct connect technologies. ExpressNAV™ System Manager is a remote management interface for configuration, monitoring and management of ATTOStorage Controllers. Advanced tuning and troubleshooting features include a built-in PCIe analyzer, performance monitoring, diagnostic and troubleshooting capabilities, phone home notification and robust trace and event logging. Several available management interfaces include GUI, CLI, Telnet, SNMP and FTP .Direct Attached SAS Storage on the SANThe FibreBridge provides the lowest cost per drive for Fibre Channel connectivity to SAS storage. Adding Fibre Channel connectivity to SAS devices gives this storage all the benefits provided by a SAN that SAS storage cannot natively provide. ATTOprovides regular firmware updates and maintenance programs to keep the FibreBridge up to date with advances in technology.The ATTO FibreBridge 7600N bridge allows the addition of Enterprise Fibre Channel to SAS SSD and HDD storage with all the benefits of capacity aggregation and ATTO Acceleration Technology.T echnical F eaTures• Connects (2) 32Gb Fibre Channel SFP+ ports to (4) x4 12Gb mini-SAS connectors• Adds Enterprise Fibre Channel features to up to 240 SAS SSD or HDD devices• Auto negotiates to 3, 6 & 12Gb SAS• Auto negotiates to 8, 16 & 32Gb Fibre Channel• Creates a very low latency, high performance storage solution• i ntelligent Bridging Architecture™ provides optimized performance, flexibility of features and leverages proven software components for storage solutions• ATTO xCORE acceleration technologyimproves performance of small block transfer sizes with an optimal profile for transactional environments• Management capable through RS-232, Ethernet or in-band via Fibre Channel• Dual hot swap power supplies• Available in standard 1U 19” rackmount•1 year standard product warranty• Dual firmware image support for protection from firmware update failures• Performance and temperature monitoring • Support for Host-Bridge Time Synchronization through standard SET TIMESTAMP/REPORTTIMESTAMP commands• Managed Error Recovery of drives andenclosures• Core dump error analysis• SNMP, SNTP, Telnet, FTP, ICMP, DHCPD aTa r ouTing F abric T opology Incorporates advanced FPGA, firmware and interface technologies that enable users to fine tune ATTO contollers for specific applications • ATTO Embedded Operating System (AEOS) provides an integrated, multitasking enviroment that self optimizes to changing I/O patterns for maximum performance while maintainingpriority for data transfers.• Standard READ BUFFER commands allow the collection of inquiry data, event logs, portstatistics, phy statistics, SFP and SAS connector information, trace log, core dump, configuration and status information.• WRITE BUFFER commands are also supported to update controller firmware, clear the event log, clear Fibre Channel and SAS port and phystatistics and to also write a message to theevent log.p roDucT D imensions• Height 1.735” - Length 9.90” - Width 17.31”• Weight 9.7 pounds (unboxed) 12.9 pounds(boxed)o peraTing e nvironmenTc onTroller o peraTions:• Temperature 5 to 40° C at 10,000 feet• Humidity 10 to 90% non-condensingc onTroller s Torage:• Temperature -40°to 70°C• Humidity 5 to 95% non-condensing p ower anD a irFlow• Input 85-264 VAC, 0.5A, 47-63 Hz• 11 CFM (Ambient Air not to exceed 40° C) • Front to rear coolinga gency a pproval anD c ompliances aFeTy:• EN 60950, CSA 60950, CB IEC 60950-1, UL • 60950, BSMIe lecTromagneTic c ompaTibiliTy (emc):• FCC Part 15 Class A, CE, VCCI, AS/NZS, CISPR • 22, EN55022: 2006, Class A, EN55024, EN61000 • RoHS Compliant 2011/65/EU• Battery-free designb riDge F eaTures• Performance-critical commands and all reads/writes are accelerated in hardware• End-to-end data protection in the Acceleration Technology and control functions to safeguard data throughout the controller and also enables max login management capabilities • Proven and time-tested Universal Virtual Device Architecture (UVDA) which supports protocol conversion between hosts and targets and is designed to move data quickly and efficiently • Virtual Device Manager (VDM) is a proprietary software architecture that assures the smooth flow of data. VDM minimizes overhead by creating a virtual link between initiatorsand targets on a per-command basis• Platform has common services such as multi-initator access, reservations and vendor specific SCSI commands that are applied toall attached enclosure and disk devices• Maintains priority for data transfers while providing management of memory and cooperative multi-tasking capabilitiesc onnecTiviTyF ibre c hannel c onnecTions:• (2) 32Gb SFP+ Fibre Channel connectors• Optical SFP+ modules included• Auto negotiates to 32Gb/16Gb/8Gb• Full support for FC-AL, FC-AL2, FC-FLA, FC-FS, FCP-3, FC-PLDA• Fibre Channel retry logic for FLOGI, PLOGIsas c onnecTions:• (4) 12Gb x4 mini-SAS HD connectors• Auto negotiates to 12Gb/6Gb/3Gb• Supports SAS flash SSD storage• Supports SAS disk devicesm anagemenT T ools• Web based ExpressNAV™ System Manager • Local diagnostics supported via Command Line Interface (CLI) via RS-232 and Ethernet• Persistent Event Log gathers at least 40,000 hardware, software and network events• Retrieve event logs in-band or through the Ethernet port09/03/19。

2010年9月出版精 密 空 调 机 组© STULZ 公司，德国汉堡第57索引 C7000控制器操作手册微处理控制器目录1.系统介绍 (3)2.硬件组件 (4)2.1I/O 控制器(C7000 IOC) (4)2.2EDIO -数字输入/输出扩展板 (5)2.3EAIO -模拟量输入/输出扩展板 (6)2.4EEIO - EEV扩展板 (7)2.5EBUS- RS485总线的扩展板 (8)2.5.1板卡设计 (8)2.5.2分配- EBUS (8)2.6C7000超级型控制器 – 终端(C7000 AT) (9)2.7驱动模块 (10)3.操作界面 (11)3.1操作元件- C7000 IOC (11)3.2操作元件 - C7000 超级型控制器 (12)4.启动控制器 (13)5.信息菜单 (17)5.1信息命令 - C7000 (17)6.配置 (23)6.1加载新软件 (24)6.2控制命令 - C7000 (25)6.3赋值 (26)6.4组件 (32)6.4.1标准型制冷回路 (32)6.4.2制冷回路、可选组件 (35)6.4.3冷却水回路、内部组件 (37)6.4.4冷却水回路、外部组件 (41)6.4.5空气回路、内部标准组件 (44)6.4.6空气回路、内部可选组件 (50)6.4.7空气回路、外部可选组件 (53)6.4.8传感器 (53)6.4.9辅助端口 (55)6.5统计数据 (56)7.特殊运行模式 (58)7.1周程序 (58)7.2区域控制 (59)7.2.1测序 (61)7.2.2CW待机管理 (62)7.2.3DFC控制区域 (62)7.3手动操作 (65)7.4UPS运行 (65)7.5夏季/冬季运行 (66)7.6差压控制 (67)7.7CW2机组 – 水回路切换 (68)7.8ECO-Cool通风口自然制冷 (69)8.总线通讯 (74)8.1C7000控制器的系统架构 (74)8.2C7000超级型控制器系统构架 (75)8.3总线布置 (76)9.默认配置 (82)9.1预配置 (92)10.报警处理 (93)10.1报警显示 (93)10.2报警配置 (93)10.3报警充值 (93)10.4报警内容 (95)10.5发生硬件错误时的报警内容 (96)4个插座用于 EDIOs/ EAIOs/ EEIOOK-LED 指示灯 TX1-LED 指示灯 RX1-LED 指示灯 Error-LED 指示灯O-总线的总线驱动模块详细信息请参见第10页维修端口 RS232总线地址的DIP 开关 EBUS 扩展板卡的插头维修端口 RS232绿色LED 指示灯代表数字输入1-11 红色LED 指示灯代 表数字输出1-7红色LED指示灯代表数字输出8-13绿色LED指示灯代表第一块EDIO板卡的数字输入12-19EDIO板卡是用于数字输入/输出扩展板。

Product features•Unshielded, leaded drum core•Protective sleeving over winding•Inductance range from 6.8 μH to 1500 μH•Current range from 0.12 A to 2.23 A •5.7 mm OD x 7.3 mm through-holepackage•Ferrite core materialApplications• LED Drivers and lighting • Utility meters• Appliances and white goods • Motor drives • Power supplies•General purpose filteringEnvironmental data•Storage temperature range (Component):-40 °C to +125 °C•Operating temperature range: -40 °C to +125 °C(ambient plus self-temperature rise)RL0607Unshielded radial leaded drum core inductors7HALOGENHF FREEPb D i s c o n t i n u e d e f f e c t i v e J u n e 15, 2018o r u n t i l i n v e n t o r y i s d e p l e t e d . No r e c o m me n d e d r e p l a c e m e n t a v a i l a b le .2Technical Data 10334Effective October 2017RL0607Unshielded radial leaded drum core inductorsDimensions - mmProduct specificationsPart Number 4OCL¹ (μH) ±10%I rms 2 (A )I sat 3 (A )DCR (Ω) @ +20 °C max.SRF (MHz) typ.RL0607-6R8-R 6.8 ± 20%2.23 1.820.03826RL0607-100-R 10 1.82 1.510.05821RL0607-180-R 18 1.52 1.130.08316RL0607-330-R 33 1.080.8400.17111RL0607-470-R 470.9530.6900.2178RL0607-820-R 820.6860.5300.4266RL0607-151-R 1500.5200.3900.7304RL0607-221-R 2200.4230.320 1.103RL0607-471-R 4700.3060.220 2.002RL0607-821-R 8200.2190.170 4.132RL0607-102-R 10000.2050.150 4.761RL0607-152-R15000.1660.1207.2011.Open Circuit Inductance (OCL) Test Parameters: 10 kHz, 0.1 V rms , 0.0Adc,+25 °C2.I rms : DC current for an approximate temperature rise of 40 °C without core loss. Derating is necessary for AC currents. PCB layout, trace thickness and width, air-flow, and proximity of other heat generating components will affect the temperature rise. It is recommended that the temperature of the part not exceed +125 °C under worst case operating conditions verified in the end application.3. I sat : Peak current for approximately 5% rolloff at +25 °C4.Part Number Definition: RL0607-yyy-R-RL0607 = Product code and size-yyy= Inductance value in μH, R = decimal point,if no R is present then third character = number of zeros.-“-R” suffix = RoHS compliantSide view Recommended pad layout SchematicTop viewPart marking: 1xxxwly R1 = RL0607xxx = inductance in µH, R = decimal point; if there is no R, then third character = number of zeros wly = date code, R = revision level*Lead length is after the components are trimmed from the packaging tape roll.Do not route traces or vias underneath the inductor/el ectronicsf f e c t i v e J u n e 15, 2018o r d e p l e t e d . No r e c c e m e n t a v a i l a b l e ./el ectronics3RL0607Unshielded radial leaded drum core inductorsTechnical Data 10334Effective October 2017Packaging information - mmInductance characteristics020406080100120020406080100120140160180200% o f O C L% of I sat% of OCL vs % of I satD i s c o n t i n u e d e f f e c t i v o r u n t i l i n v e n t o r y i s d e p l e N o r e c o m me n d e d r e p l a c e m e le .Technical Data 10334Effective October 2017RL0607Unshielded radial leaded drum core inductorsReference EN 61760-1:2006 Profile Feature Standard SnPb Solder Lead (Pb) Free SolderPreheatTemperature min. (T smin ) 100°C100°C Temperature typ. (T styp ) 120°C 120°C Temperature max. (T smax ) 130°C130°CTime (T smin to T smax ) (t s )70 seconds 70 seconds∆preheat to max Temeperature150°C max. 150°C max. Peak temperature (T p )235°C - 260°C250°C - 260°CTime at peak temperature (t p )10 seconds max5 seconds max each wave 10 seconds max5 seconds max each wave Ramp-down rate~ 2 K/s min ~3.5 K/s typ ~5 K/s max ~ 2 K/s min ~3.5 K/s typ ~5 K/s max Time 25°C to 25°C4 minutes4 minutesManual solder350°C, 4-5 seconds. (by soldering iron), generally manual, hand soldering is not recommended.T e m p e r a t u r eTimeT T T T ∆Wave solder profileLife Support Policy: Eaton does not authorize the use of any of its products for use in life support devices or systems without the express written approval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin.EatonElectronics Division 1000 Eaton Boulevard Cleveland, OH 44122United States/el ectronics © 2017 EatonAll Rights Reserved Printed in USAPublication No. 10334 BU-SB14688October 2017Eaton is a registered trademark.All other trademarks are property of their respective owners.D i s c o n t i n u e d e f f e c t i v e J u n e 158o r u n t i l i n v e n t o r y i s d e p l e t e d . No r e c o m me n d e d r e p l a c e m e n t a v a i l a b le .。

The all-in-one solution that sets the standard for miniature optically coupled broadband isotropic E-field probesExceptionally compact spherical symmetrical configuration, lightweight and miniaturized electronics and excellent RF characteristics make the EP-600 series of RF electric field probes the ideal solution for all EMC/EMI testing (chambers and TEM/GTEM cells), biology and materials research, and all other applications requiring fast and accurate measurements with negligible or minimum interference by the probe. Accredited calibration on request .Main Features• 5 kHz to 26,5 GHz frequency range •Up to 66 dB dynamic, single range •Symmetrical dipole configuration•Excellent isotropy (down to 0,2 dB typical)•Up to 40 meters communication by fiber optic cable •Up to 100 hours of use before recharging• High performance, high reliability Li-Mn battery• PC direct connection via optical fiber to RS232/USB adapters •Extremely lightweight: only 22 g!USB/RS232 Electric Field ProbesEP-600, EP-601, EP-602, EP-603, EP-604USB/RS232 Electric Field ProbesOrdering information:EP-600 Field probe 100 kHz to 9,25 GHz 0,14 to 140 V/m EP-601 Field probe 10 kHz to 9,25 GHz 0,5 to 500 V/m EP-602 Field probe 5 kHz to 9,25 GHz 1,5 to 1500 V/m EP-603 Field probe 300 kHz to 18 GHz 0,17 to 170 V/m EP-604 Field probe 300 kHz to 26,5 GHz 0,4 to 800 V/m Includes: 10 m fiber optic cable, optical/RS232 adapter + RS232/USB adapter, PC utility WIN-EP600, charging fixture, A/C charger, tripod mounting tip, user’s manual,standard calibration certificate.Optional accessories:SB-10 Switching Control BoxFO-EP600/10 Fiber optic cable (10 m)FO-EP600/20 Fiber optic cable (20 m)FO-EP600/40 Fiber optic cable (40 m)TT-01 telescopic extension Accredited certificate TR-02A setIncludes: TR02 plastic column tripod, joint, soft carrying case For full list please refer to the user’s manualE P 600-F E N -81010- S p e c i fi c a t i o n s s u b j e c t t o c h a n g e w i t h o u t n o t i c eResolution SensorsMeasurement mode Sampling rate Digital filtering Internal battery Operation time Recharging timeInternal data memory CommunicationFiber optic connector Fiber optic length Fiber optic to PC PC softwareOperating temperatureTemperature reading resolution Battery voltage reading resolution Probe holder tip0,01 V/mSix monopolesX-Y-Z axis simultaneous sampling 22 to 0,03 samples/s depending on filter settingsLow-pass 2,3 to 28 Hz; 80 dB notch 50/60 Hz 3V, 5 mA/h, Li-Mn rechargeable 100 hours @ 0,4 S/s, 28 Hz filter 48 hours for full operation time Partial charging allowed, e.g.:8 hrs rech. = 12 hrs operation @ 5 S/s 1 hr rech. = 5 hrs operation @ 0,4 S/s Serial no. - Calibration factors & date Firmware versionBidirectional fiber optic link HFBR-050010 m, standard 20/40 m optionsFiber optic to RS232 converter RS232 to USB converterDisplays field, temperature, battery,sampling, filters, averaging, frequency setting, manual data logging as text file -10 °C + 50 °C 0,1 °C 10 mV1/4 20 UNC femaleCOMMON SPECIFICATIONSGenerators/AmplifiersAntennasProbes•3010: EMI Signal Generator 9 kHz to 1 GHz •3030: EMI Signal Generator 9 kHz to 3 GHz•6000N: Power Amplifier 9 kHz to 230 MHz / 10W •6630: USB RF Power Sensor 9 kHz to 3 GHz•BC-01: Biconical Antenna 30 to 200 MHz•BL-01: Biconical Log Periodic Antenna 30 MHz to 6 GHz •DR-01: Double-ridged horn Antenna 6 to 18 GHz •LP-02: Log Periodic Antenna 200 MHz to 3 GHz •LP-03: Log Periodic Antenna 800 MHz to 6 GHz •LP-04: Log Periodic Antenna 200 MHz to 6 GHz •Antenna Set AS-02 (BC01+LP02+TR01)•Antenna Set AS-03 (BC01+LP02+LP03+TR01) •Antenna Set AS-04 (BC01+LP04+TR01)•Antenna Set AS-05 (BC01+LP04+DR01+TR01)•Antenna Set AS-06 (BC01+LP-02+LP03+DR01+TR01)•Antenna Set AS-07 (BL01+TR01)•Antenna Set AS-08 (BL01+DR01+TR01)•RA-01 / RA-01-HV / RA-01-MIL Rod Antenna System•OR03: Optical Programmable Repeater with probesRelated productsSales:Via Leonardo da Vinci, 21/2320090 Segrate (Milano) - ITALY Phone: +39 02 2699871Fax: +39 02 26998700E-Mail:***********************Internet: www.narda-sts.itHeadquarters:Via Benessea, 29/B17035 Cisano sul Neva (SV) - ITALY Phone: +39 0182 58641Fax: +39 0182 586400Main specifications (see the user manual for complete information)Frequency Range FlatnessDynamic RangeOverloadDimensions (overall)Weight (incl. 1 m fiber optic pigtail)EP-600100 kHz to 9,25 GHz Frequency correction OFF 1 to 150 MHz: 0,8 dB 0,5 to 6000 MHz: 1,6 dB 0,3 to 7500 MHz: 3,2 dB Frequency correction ON, typical 0,3 to 7500 MHz: 0,4 dB0,14 to 140 V/m 60 dB single range300 V/m 53mm 23 g10 kHz to 9,25 GHz Frequency correction OFF 0,1 to 150 MHz: 0,4 dB 0,05 to 6000 MHz: 1,6 dB 0,03 to 7500 MHz: 3,2 dB Frequency correction ON, typical 0,05 to 7500 MHz: 0,4 dB 0,5 to 500 V/m 60 dB single range 1000 V/m 53 mm 23 g5 kHz to 9,25 GHz Frequency correction OFF 0,1 to 150 MHz: 0,4 dB 0,05 to 6000 MHz: 1,6 dB 0,03 to 7500 MHz: 3,2 dB Frequency correction ON, typical 0,05 to 7500 MHz: 0,4 dB 1,5 to 1500 V/m 60 dB single range 3000 V/m 53 mm 23 g300 kHz to 18 GHz Frequency correction OFF 3 to 8200 MHz: 1,4 dB 1 to 12000 MHz: 2,4 dB 0,6 to 18000 MHz: 3,8 dB Frequency correction ON, typical 0,3 to 18000 MHz: 0,4 dB 0,17 to 170 V/m 60 dB single range 350 V/m 53 mm 23 g300 kHz to 26,5 GHz Frequency correction OFF 10 to 18000 MHz: 1,8 dB 3 to 23000 MHz: 3,2 dB Frequency correction ON, typical 0,3 to 26500 MHz: 0,4 dB 0,4 to 800 V/m 66 dB single range 1600 V/m 45 mm 22 gEP-601EP-602EP-603EP-604。

MMSZ4686T1G MMSZ4686T1G.MMSZ4xxxT1G Series, SZMMSZ4xxxT1G Series Zener Voltage Regulators 500 mW, Low I ZT SOD−123 Surface MountThree complete series of Zener diodes are offered in the convenient, surface mount plastic SOD−123 package. These devices provide a convenient alternative to the leadless 34−package style.Features•500 mW Rating on FR−4 or FR−5 Board•Wide Zener Reverse V oltage Range − 1.8 V to 43 V•Low Reverse Current (I ZT) − 50 m A•Package Designed for Optimal Automated Board Assembly •Small Package Size for High Density Applications•ESD Rating of Class 3 (>16 kV) per Human Body Model•SZ Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC−Q101 Qualified and PPAP Capable•These Devices are Pb−Free and are RoHS Compliant*Mechanical Characteristics:CASE:V oid-free, transfer-molded, thermosetting plastic case FINISH:Corrosion resistant finish, easily solderableMAXIMUM CASE TEMPERATURE FOR SOLDERING PURPOSES: 260°C for 10 SecondsPOLARITY:Cathode indicated by polarity band FLAMMABILITY RATING:UL 94 V−0MAXIMUM RATINGSRating Symbol Max Units Total Power Dissipation on FR−5 Board,(Note 1) @ T L = 75°CDerated above 75°C P D5006.7mWmW/°CThermal Resistance, (Note 2) Junction−to−Ambient R q JA340°C/WThermal Resistance, (Note 2) Junction−to−Lead R q JL150°C/WJunction and Storage Temperature Range T J, T stg−55 to+150°CStresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected.1.FR−5 = 3.5 X 1.5 inches, using the minimum recommended footprint.2.Thermal Resistance measurement obtained via infrared Scan Method.*For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.Cathode AnodeSee specific marking information in the device marking column of the Electrical Characteristics table on page 3 of this data sheet.DEVICE MARKING INFORMATIONSOD−123CASE 425STYLE 1Device Package Shipping†ORDERING INFORMATIONMARKING DIAGRAM†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specifications Brochure, BRD8011/D.MMSZ4xxxT1G SOD−123(Pb−Free)3,000 /Tape & ReelMMSZ4xxxT3G SOD−123(Pb−Free)10,000 /Tape & Reel xx= Device Code (Refer to page 3)M= Date CodeG= Pb−Free Package(Note: Microdot may be in either location)1SZMMSZ4xxxT1G SOD−123(Pb−Free)3,000 /Tape & ReelSZMMSZ4xxxT3G SOD−123(Pb−Free)10,000 /Tape & ReelELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted, V F = 0.9 V Max. @ I F = 10 mA)Symbol ParameterV Z Reverse Zener Voltage @ I ZTI ZT Reverse CurrentI R Reverse Leakage Current @ V RVR Reverse VoltageI F Forward CurrentV F Forward Voltage @ I FProduct parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions.ELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted, V F = 0.9 V Max. @ I F = 10 mA)Device*DeviceMarkingZener Voltage (Note 3)Leakage CurrentV Z (Volts)@ I ZT I R @ V RMin Nom Max m A m A VoltsMMSZ4678T1G CC 1.71 1.8 1.89507.51 MMSZ4679T1G CD 1.90 2.0 2.105051 MMSZ4680T1G CE 2.09 2.2 2.315041 MMSZ4681T1G CF 2.28 2.4 2.525021 MMSZ4682T1G CH 2.565 2.7 2.8355011 MMSZ4683T1G CJ 2.85 3.0 3.15500.81 MMSZ4684T1G CK 3.13 3.3 3.47507.5 1.5 MMSZ4685T1G CM 3.42 3.6 3.78507.52 MMSZ4686T1G CN 3.70 3.9 4.105052 MMSZ4687T1G CP 4.09 4.3 4.525042 SZMMSZ4687T1G CG6 4.09 4.3 4.525042 MMSZ4688T1G CT 4.47 4.7 4.9450103 MMSZ4689T1G CU 4.85 5.1 5.3650103 MMSZ4690T1G/T3G CV 5.32 5.6 5.8850104 MMSZ4691T1G CA 5.89 6.2 6.5150105 MMSZ4692T1G CX 6.46 6.87.145010 5.1 MMSZ4693T1G CY7.137.57.885010 5.7 MMSZ4694T1G CZ7.798.28.61501 6.2 MMSZ4695T1G DC8.278.79.14501 6.6 MMSZ4696T1G DD8.659.19.56501 6.9 MMSZ4697T1G DE9.501010.505017.6 MMSZ4698T1G DF10.451111.55500.058.4 MMSZ4699T1G DH11.401212.60500.059.1 MMSZ4700T1G DJ12.351313.65500.059.8 MMSZ4701T1G DK13.301414.70500.0510.6 MMSZ4702T1G DM14.251515.75500.0511.4 MMSZ4703T1G†DN15.201616.80500.0512.1 MMSZ4704T1G DP16.151717.85500.0512.9 MMSZ4705T1G DT17.101818.90500.0513.6 MMSZ4706T1G DU18.051919.95500.0514.4 MMSZ4707T1G DV19.002021.00500.0115.2 MMSZ4708T1G DA20.902223.10500.0116.7 MMSZ4709T1G DX22.802425.20500.0118.2 MMSZ4710T1G DY23.752526.25500.0119.0 MMSZ4711T1G†EA25.652728.35500.0120.4 MMSZ4712T1G EC26.602829.40500.0121.2 MMSZ4713T1G ED28.503031.50500.0122.8 MMSZ4714T1G EE31.353334.65500.0125.0 MMSZ4715T1G EF34.203637.80500.0127.3 MMSZ4716T1G EH37.053940.95500.0129.6 MMSZ4717T1G EJ40.854345.15500.0132.6 3.Nominal Zener voltage is measured with the device junction in thermal equilibrium at T L = 30°C ±1°C.*Include SZ-prefix devices where applicable.†MMSZ4703 and MMSZ4711 Not Available in 10,000/Tape & ReelTYPICAL CHARACTERISTICSV Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θV Z , NOMINAL ZENER VOLTAGE (V)Figure 1. Temperature Coefficients (Temperature Range −55°C to +150°C)V Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θ100101V Z , NOMINAL ZENER VOLTAGE (V)Figure 2. Temperature Coefficients (Temperature Range −55°C to +150°C)1.21.00.80.60.40.20T, TEMPERATURE (5C)Figure 3. Steady State Power Derating P p k, P E A K S U R G E P O W E R (W A T T S )PW, PULSE WIDTH (ms)Figure 4. Maximum Nonrepetitive Surge PowerP D , P O W E R D I S S I P A T I O N (W A T T S )V Z , NOMINAL ZENER VOLTAGEFigure 5. Effect of Zener Voltage onZener ImpedanceZ Z T , D Y N A M I C I M P E D A N C E ()ΩTYPICAL CHARACTERISTICSC , C A P A C I T A N C E (p F )V Z , NOMINAL ZENER VOLTAGE (V)Figure 6. Typical Capacitance 1000100101V Z , ZENER VOLTAGE (V)1001010.10.01I Z , Z EN E R C U R R E N T (m A )V Z , ZENER VOLTAGE (V)1001010.10.01I R , L E A K A G E C U R R E N T (A )μV Z , NOMINAL ZENER VOLTAGE (V)Figure 7. Typical Leakage Current10001001010.10.010.0010.00010.00001I Z , Z E N E R C U R R E N T (m A )Figure 8. Zener Voltage versus Zener Current(V Z Up to 12 V)Figure 9. Zener Voltage versus Zener Current(12 V to 91 V)SOD−123CASE 425−04ISSUE GDATE 07 OCT 2009SCALE 5:1NOTES:1.DIMENSIONING AND TOLERANCING PER ANSIY14.5M, 1982.2.CONTROLLING DIMENSION: INCH.DIM MIN NOM MAXMILLIMETERSINCHESA0.94 1.17 1.350.037A10.000.050.100.000b0.510.610.710.020c1.600.150.055D 1.40 1.80E 2.54 2.69 2.840.100---3.680.140L0.253.860.0100.0460.0020.0240.0630.1060.1450.0530.0040.0280.0710.1120.152MIN NOM MAX3.56H E---------0.006------------GENERICMARKING DIAGRAM**For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering andMounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT**This information is generic. Please refer to device datasheet for actual part marking. Pb−Free indicator, “G” ormicrodot “ G”, may or may not be present.XXX= Specific Device CodeM= Date CodeG= Pb−Free Package1STYLE 1:PIN 1. CATHODE2. ANODE0.910.036ǒmminchesǓSCALE 10:1------q001010°°°°(Note: Microdot may be in either location) MECHANICAL CASE OUTLINEPACKAGE DIMENSIONSON Semiconductor and are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor theON Semiconductor and are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed at ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.PUBLICATION ORDERING INFORMATIONTECHNICAL SUPPORTNorth American Technical Support:Voice Mail: 1 800−282−9855 Toll Free USA/Canada Phone: 011 421 33 790 2910LITERATURE FULFILLMENT :Email Requests to:*******************ON Semiconductor Website: Europe, Middle East and Africa Technical Support:Phone: 00421 33 790 2910For additional information, please contact your local Sales RepresentativeMMSZ4686T1G MMSZ4686T1G.。

August 2006Rev. 131/47L7800 seriesPositive voltage regulatorsFeature summary■Output current to 1.5A■Output voltages of 5; 5.2; 6; 8; 8.5; 9; 10; 12; 15; 18; 24V■Thermal overload protection ■Short circuit protection■Output transition SOA protectionDescriptionThe L7800 series of three-terminal positiveregulators is available in TO-220, TO-220FP , TO-3 and D 2PAK packages and several fixed output voltages, making it useful in a wide range of applications. These regulators can provide local on-card regulation, eliminating the distribution problems associated with single point regulation. Each type employs internal current limiting, thermal shut-down and safe area protection, making it essentially indestructible. If adequate heat sinking is provided, they can deliver over 1A output current. Although designedprimarily as fixed voltage regulators, thesedevices can be used with external components to obtain adjustable voltage and currents.Schematic diagramL7800 series2/47Contents1Pin configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2Maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 3Test circuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 4Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 5Typical performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 6Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 7Order code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 8Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47L7800 series Pin configuration 1 Pin configurationMaximum ratings L7800 series4/472 Maximum ratingsNote:Absolute Maximum Ratings are those values beyond which damage to the device mayoccur. Functional operation under these condition is not impliedTable 1.Absolute maximum ratingsSymbol ParameterValue Unit V I DC Input voltage for V O = 5 to 18V 35Vfor V O = 20, 24V40I O Output current Internally Limited P D Power dissipationInternally LimitedT STG Storage temperature range-65 to 150°C T OPOperating junction temperature rangefor L7800-55 to 150°C for L7800C0 to 150Table 2.Thermal DataSymbol ParameterD 2PAK TO-220TO-220FPTO-3Unit R thJC Thermal resistance junction-case 3554°C/W R thJAThermal resistance junction-ambient62.5506035°C/WL7800 series Test circuits 3 Test circuits5/47Electrical characteristics L7800 series6/474Electrical characteristicsTable 3.Electrical characteristics of L7805 (refer to the test circuits, T J = -55 to 150°C, V I = 10V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C4.855.2V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 8 to 20V4.655 5.35V ∆V O (1)1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Line regulationV I = 7 to 25V , T J = 25°C 350mVV I = 8 to 12V , T J = 25°C 125∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 25I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 8 to 25 V 0.8∆V O /∆T Output voltage drift I O = 5mA0.6mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 8 to 18V , f = 120Hz 68dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz17m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3AL7800 series Electrical characteristics7/47Table 4.Electrical characteristics of L7806 (refer to the test circuits, T J = -55 to 150°C, V I = 11V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C5.7566.25V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 9 to 21V5.6566.35V ∆V O (1)Line regulationV I = 8 to 25V , T J = 25°C 60mVV I = 9 to 13V , T J = 25°C 30∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 30I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 9 to 25V 0.8∆V O /∆T Output voltage drift I O = 5mA0.7mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 9 to 19V , f = 120Hz 65dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz19m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Electrical characteristics L7800 series8/47Table 5.Electrical characteristics of L7808 (refer to the test circuits, T J = -55 to 150°C, V I = 14V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C7.788.3V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 11.5 to 23V7.688.4V ∆V O (1)Line regulationV I = 10.5 to 25V , T J = 25°C 80mVV I = 11 to 17V , T J = 25°C 40∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 40I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 11.5 to 25V 0.8∆V O /∆T Output voltage drift I O = 5mA1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 11.5 to 21.5V , f = 120Hz 62dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz16m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.L7800 series Electrical characteristics9/47Table 6.Electrical characteristics of L7812 (refer to the test circuits, T J = -55 to 150°C, V I = 19V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C11.51212.5V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 15.5 to 27V11.41212.6V ∆V O (1)Line regulationV I = 14.5 to 30V , T J = 25°C 120mVV I = 16 to 22V , T J = 25°C 60∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 60I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 15 to 30V 0.8∆V O /∆T Output voltage drift I O = 5mA1.5mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 15 to 25V , f = 120Hz 61dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz18m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Table 7.Electrical characteristics of L7815 (refer to the test circuits, T J = -55 to 150°C, V I = 23V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C14.41515.6VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 18.5 to 30V14.251515.75V∆V O(1)Line regulation V I = 17.5 to 30V, T J = 25°C150mV V I = 20 to 26V, T J = 25°C75∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C150mV I O = 250 to 750mA, T J = 25°C75I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 18.5 to 30V0.8∆V O/∆T Output voltage drift I O = 5mA 1.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 18.5 to 28.5V, f = 120Hz60dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz19mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.10/47Table 8.Electrical characteristics of L7818 (refer to the test circuits, T J = -55 to 150°C, V I = 26V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C17.31818.7VV O Output voltage I O = 5mA to 1A, P O≤ 15WV I = 22 to 33V17.11818.9V∆V O(1)Line regulation V I = 21 to 33V, T J = 25°C180mV V I = 24 to 30V, T J = 25°C90∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C180mV I O = 250 to 750mA, T J = 25°C90I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 22 to 33V0.8∆V O/∆T Output voltage drift I O = 5mA 2.3mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 22 to 32V, f = 120Hz59dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz22mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.11/47Table 9.Electrical characteristics of L7820 (refer to the test circuits, T J = -55 to 150°C, V I = 28V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C19.22020.8VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 24 to 35V192021V∆V O(1)Line regulation V I = 22.5 to 35V, T J = 25°C200mV V I = 26 to 32V, T J = 25°C100∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C200mV I O = 250 to 750mA, T J = 25°C100I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 24 to 35V0.8∆V O/∆T Output voltage drift I O = 5mA 2.5mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 24 to 35V, f = 120Hz58dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz24mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.12/47Table 10.Electrical characteristics of L7824 (refer to the test circuits, T J = -55 to 150°C, V I = 33V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C232425VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 28 to 38V22.82425.2V∆V O(1)Line regulation V I = 27 to 38V, T J = 25°C240mV V I = 30 to 36V, T J = 25°C120∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C240mV I O = 250 to 750mA, T J = 25°C120I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 28 to 38V0.8∆V O/∆T Output voltage drift I O = 5mA3mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 28 to 38V, f = 120Hz56dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz28mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.13/47Table 11.Electrical characteristics of L7805C (refer to the test circuits, T J = -55 to 150°C, V I = 10V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C 4.85 5.2VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 7 to 20V4.7555.25V∆V O(1)Line regulation V I = 7 to 25V, T J = 25°C3100mV V I = 8 to 12V, T J = 25°C150∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C100mV I O = 250 to 750mA, T J = 25°C50I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 7 to 25 V0.8∆V O/∆T Output voltage drift I O = 5mA-1.1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 8 to 18V, f = 120Hz62dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz17mΩI sc Short circuit current V I = 35V, T J = 25°C0.75AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.14/47Table 12.Electrical characteristics of L7852C (refer to the test circuits, T J = -55 to 150°C, V I = 10V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C 5.0 5.2 5.4VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 8 to 20V4.955.2 5.45V∆V O(1)Line regulation V I = 7 to 25V, T J = 25°C3105mV V I = 8 to 12V, T J = 25°C152∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C105mV I O = 250 to 750mA, T J = 25°C52I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 7 to 25 V 1.3∆V O/∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C42µV/V O SVR Supply voltage rejection V I = 8 to 18V, f = 120Hz61dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz17mΩI sc Short circuit current V I = 35V, T J = 25°C0.75AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.15/47Table 13.Electrical characteristics of L7806C (refer to the test circuits, T J = -55 to 150°C, V I = 11V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C 5.756 6.25VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 8 to 21V5.766.3V∆V O(1)Line regulation V I = 8 to 25V, T J = 25°C120mV V I = 9 to 13V, T J = 25°C60∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C120mV I O = 250 to 750mA, T J = 25°C60I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 8 to 25V 1.3∆V O/∆T Output voltage drift I O = 5mA-0.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C45µV/V O SVR Supply voltage rejection V I = 9 to 19V, f = 120Hz59dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz19mΩI sc Short circuit current V I = 35V, T J = 25°C0.55AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.16/47Table 14.Electrical characteristics of L7808C (refer to the test circuits, T J = -55 to 150°C, V I = 14V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C7.788.3VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 10.5 to 25V7.688.4V∆V O(1)Line regulation V I = 10.5 to 25V, T J = 25°C160mV V I = 11 to 17V, T J = 25°C80∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C160mV I O = 250 to 750mA, T J = 25°C80I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 10.5 to 25V1∆V O/∆T Output voltage drift I O = 5mA-0.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C52µV/V O SVR Supply voltage rejection V I = 11.5 to 21.5V, f = 120Hz56dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz16mΩI sc Short circuit current V I = 35V, T J = 25°C0.45AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.17/47Table 15.Electrical characteristics of L7885C (refer to the test circuits, T J = -55 to 150°C, V I =14.5V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C8.28.58.8VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 11 to 26V8.18.58.9V∆V O(1)Line regulation V I = 11 to 27V, T J = 25°C160mV V I = 11.5 to 17.5V, T J = 25°C80∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C160mV I O = 250 to 750mA, T J = 25°C80I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 11 to 27V1∆V O/∆T Output voltage drift I O = 5mA-0.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C55µV/V O SVR Supply voltage rejection V I = 12 to 22V, f = 120Hz56dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz16mΩI sc Short circuit current V I = 35V, T J = 25°C0.45AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.18/47Table 16.Electrical characteristics of L7809C (refer to the test circuits, T J = -55 to 150°C, V I = 15V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C8.6499.36VV O Output voltage I O = 5mA to 1A, P O≤ 15WV I = 11.5 to 26V8.5599.45V∆V O(1)Line regulation V I = 11.5 to 26V, T J = 25°C180mV V I = 12 to 18V, T J = 25°C90∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C180mV I O = 250 to 750mA, T J = 25°C90I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 11.5 to 26V1∆V O/∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C70µV/V O SVR Supply voltage rejection V I = 12 to 23V, f = 120Hz55dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz17mΩI sc Short circuit current V I = 35V, T J = 25°C0.40AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.19/47Electrical characteristics L7800 series20/47Table 17.Electrical characteristics of L7810C (refer to the test circuits, T J = -55 to 150°C, V I = 15V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C9.61010.4V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 12.5 to 26V9.51010.5V ∆V O (1)Line regulationV I = 12.5 to 26V , T J = 25°C 200mVV I = 13.5 to 19V , T J = 25°C 100∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 200mV I O = 250 to 750mA, T J = 25°C 100I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 12.5 to 26V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 70µV/V O SVR Supply voltage rejection V I = 13 to 23V , f = 120Hz 55dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz17m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.40A I scpShort circuit peak currentT J = 25°C2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.L7800 series Electrical characteristics21/47Table 18.Electrical characteristics of L7812C (refer to the test circuits, T J = -55 to 150°C, V I = 19V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C11.51212.5V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 14.5 to 27V11.41212.6V ∆V O (1)Line regulationV I = 14.5 to 30V , T J = 25°C 240mVV I = 16 to 22V , T J = 25°C 120∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 240mV I O = 250 to 750mA, T J = 25°C 120I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 14.5 to 30V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 75µV/V O SVR Supply voltage rejection V I = 15 to 25V , f = 120Hz 55dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz18m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.35A I scpShort circuit peak currentT J = 25°C2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Electrical characteristics L7800 series22/47Table 19.Electrical characteristics of L7815C (refer to the test circuits, T J = -55 to 150°C, V I = 23V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C14.51515.6V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 17.5 to 30V14.251515.75V ∆V O (1)Line regulationV I = 17.5 to 30V , T J = 25°C 300mVV I = 20 to 26V , T J = 25°C 150∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 300mV I O = 250 to 750mA, T J = 25°C 150I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 17.5 to 30V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 90µV/V O SVR Supply voltage rejection V I = 18.5 to 28.5V , f = 120Hz 54dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz19m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.23A I scpShort circuit peak currentT J = 25°C2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.L7800 series Electrical characteristics23/47Table 20.Electrical characteristics of L7818C (refer to the test circuits, T J = -55 to 150°C, V I = 26V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C17.31818.7V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 21 to 33V17.11818.9V ∆V O (1)Line regulationV I = 21 to 33V , T J = 25°C 360mVV I = 24 to 30V , T J = 25°C 180∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 360mV I O = 250 to 750mA, T J = 25°C 180I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 21 to 33V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 110µV/V O SVR Supply voltage rejection V I = 22 to 32V , f = 120Hz 53dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz22m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.20A I scpShort circuit peak currentT J = 25°C2.1A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Electrical characteristics L7800 series24/47Table 21.Electrical characteristics of L7820C (refer to the test circuits, T J = -55 to 150°C, V I = 28V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C19.22020.8V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 23 to 35V192021V ∆V O (1)Line regulationV I = 22.5 to 35V , T J = 25°C 400mVV I = 26 to 32V , T J = 25°C 200∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 400mV I O = 250 to 750mA, T J = 25°C 200I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 23 to 35V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 150µV/V O SVR Supply voltage rejection V I = 24 to 35V , f = 120Hz 52dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz24m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.18A I scpShort circuit peak currentT J = 25°C2.1A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.。

MULTIMETERSDESCRIPTIONThe M7000/M8000 Series of advancedanalogue/digital multimeters fromAVO INTERNATIONAL use the latestmicroprocessor technology to providethe most comprehensive measuringranges and features in a hand heldinstrument.There are four instruments in the range,the two M7000 models are for moregeneral applications yet still incorporatemany advanced features, whereas theM8000 models have been designed toprovide greater accuracy with extensiveadditional measuring capabilities.The M7000 units offer ruggeddependability for use in field conditions.Both the M7027 and M7029 are suppliedin rugged yellow cases with wrap aroundrubberised holsters for added protectionagainst mishandling. The main differencebetween the models is that the M7027 hasa basic accuracy of 0,3% and the M7029has a basic accuracy of 0,2%. Both modelshave dual displays and the choice ofoperation in the 4,000 count or the higherresolution 40,000 count mode.The M8000 models provide moreadvance features for applicationsrequiring more extensive measuringcapabilities. The M8037 is the top of therange instrument it measures true rms,a.c. + d.c. and a.c. voltage ranges, which more accurately measure voltage valuesregardless of the waveforms. Square,sawtooth, triangle, pulse trains, spikesas well as distorted waveforms with thepresence of harmonics can all bemeasured accurately.The M8037 also has a backlit display foreasier readings in poorly illuminatedareas. Both the M8035 and M8037 havebasic accuracies of 0.08%, dual displaysand the choice of operation in the manualor autoranging mode.Capacitance, frequency, conductance anddiode test facilities are included asstandard features plus, for moreadvanced measurement applications, theability to recor d, store, sort andcompare results is also provided.4,000/40,000 CountsTo ensure maximum speed, accuracy andresolution, the fast 334digit 4,000 countdisplay updates 5 times per second(nominally). The user-selected 10 x higherresolution mode 434digit count displayupdates approximately every 34s, and isavailable in most measurement functions.Analogue Bar GraphThe 43 segment analogue bar graphupdates 128 times/sec in d.c. voltage andresistance functions enabling the user toeasily detect faulty contacts, identifypotentiometer clicks and indicate signalspikes during adjustments. In othermodes and other functions the bar graphupdates 20 times/sec showing excellenttrending characteristics.Dual DisplayInnovative LCD and microprocessortechnology has been utilised to providedual displays in various modes. Using thisfeature one can simultaneously displaya.c. volts +frequency, a.c. amps +frequency, conductance +resistance,duty cycle +frequency, dbm +frequencyand values +events.Fast 150 µS Audible Continuity TestThe audible continuity test is a quickgo/no-go test that distinguishes betweenan open and a closed circuit. The meterwill give a continuous beep tone when theinput resistance drops below 10 Ω. This isuseful for checking wiring connectionsand operation of switches.Relative FunctionsThere are three different relative modesto choose from; Relative Zero, RelativePercentage and Relative per Unit. InRelative Zero mode the user is allowed tooffset the meter measurements with arelative reference value, thereforesubtracting this reference from anyfurther measurement. In RelativePercentage change mode the bar graphautomatically indicates ±200% or ±20% forfull scale changes with respect to theRelative Reference value which becomescentre zero point. This simplifies zero,peaking, nulling measurements and isexcellent for fine adjustments. The finalrelative range is Relative per Unit whichshows the ratio of measuring values tothe relative base value. For examplemeasuring the parallel capacitance of co-axial cable or parallel wire in conjunctionwith the Relative per Unit mode, helpsestimate the total cable length or pinpointcable breakdown locations.Record Max, Min, Max-Min andAverageUsing the Record you can easily trackintermittent signals, capture turn-on/turn-off surges and monitor line voltagechanges over a much wider dynamicrange with the highest resolution. Thefaster the sampling speed, the moreaccurate the measurement of surges,spikes and sags will be. The true averagecontinually calculates all readings takenover time.Data Store & Recall (MEM)This feature stores the whole display datain memory for later recall. The memorywill remain even in auto-power-off modeand can also be recalled at any time, evenwhile being operated in anothermeasuring function.APPLICATIONSThe M7000 and M8000 series multimetersare uniquely flexible instruments, ideal foruse in the workshop and in the field, butalso suitable for the laboratory. Theprecision of the digital reading, combinedwith the ability to follow trends on theanalogue scale, ensures that thetechnician or engineer is fully equippedfor all testing requirements with just oneinstrument.AVO®MEGGER®M7000/M8000SERIES•4,000 & 40,000 Count•Dual Display•Analogue BargraphUpdates 128 timesevery second•True r.m.s d.c. + a.c. andAverage Responding•Basic Accuracy from 0,3%to 0,08%Dual Display Digital MultimetersSPECIFICATION Display4,000 count (updated every 0,2s)40,000 count (updated every 0,8s)Bargraph (updated every 8 ms)Dual display: 10,000 counts Features Data Hold Data record:50 ms response, autorangemax, min, max-min span, averageStore and RecallRelative zeroing with centre-zero auto-zoom bargraphrelative unitsrelative % changerelative per unit changeQuick Continuity test:response <150 µs, turn on <10 Ω, turnoff >60 ΩLine Frequency filter:60/50 Hz switchableDiode Test:4,000 count V range, test current (typical) 0,8 mA open circuit <3,5 V d.Automatic PowerOff:5 minutes (default)/5 sec/offInput Warning:on incorrect connection (M8000s only)SafetyM7000 rated to IEC 1010 Cat III 600 V, Cat II 1000 V M8000 rated to IEC 1010 Cat III 1000 VEMCThe meters all comply with EN50081-1 and EN50082-1Model No.M8037M8035M7029M7027A.C. Conversion Type True RMSAverage responding Average responding Average responding Backlit LCD YesN/AN/A N/A Crest/Peak 0,8 ms response, Max, Min 0,8 ms response, Max, Min N/A N/A Max-MinMax-MinSortAuto-ranging, Max, Min, Auto-ranging, Max, Min,N/A N/A Input Warning Audible &Visible N/A N/A Total Functions 55 Ranges40 Ranges40 RangesDCV40 mV to 1 kV in 6 ranges 400 mV to 1 kV in 5 ranges 400 mV to 1 kV in 5 ranges Best Resolution 1 µV10 µV10 µVBasic Accuracy ±0,08% ±1 digit (0,5% ±6d on 40,00 mV)±0,2% ±1 digit ( ±2 digits 1 kV)±0,3% ±1 digit ( ±2 digits 1kV)NMRR @ 50/60 Hz > 60 dB> 60 dB> 60 dBCMRR @ DC >*********.&50/60Hz >*********.&50/60Hz >*********.&50/60Hz ACV400 mV to 750 V in 5 ranges 400 mV to 750 V in 5 ranges 400 mV to 750 V in 5 ranges Best Resolution 10 µV10 µV10 µVBasic Accuracy ±0,5% ±3 digits 50-60 Hz ±0,7% ±3 digits 50-60 Hz ±1% ±3 digits 50-60 Hz Basic Bandwidth 40 Hz - 20 kHz 40 Hz - 1 kHz, 1,5 dB @ 30 k 40 Hz - 1 kHz CMRR @ DC, 50/60 Hz > 60 dB> 60 dB> 60 dBDCA/ACA 400 µA to 10 A in 6 ranges 4000 µA to 10 A in 3 ranges 4000 µA to 10 A in 3 ranges Best Resolution 0,01 µA0,1 µA0,1 µABasic Accuracy from ±0,2% ±2 digits to 1% ±4 digits ±1%±3dig.@60Hz±0,4%±*********.±1,3% ±3 digits @ 60 Hz ±1% dig.@d.c.Resistance 40 to 40 M Ωin 7 ranges 400 to 40 M Ωin 6 ranges 400 to 40 M Ωin 6 ranges Best Resolution 0,001 Ω0,01 Ω0,01 ΩBasic Accuracy <400 k Ω±0,15% ±2 digits; 40 M Ω: 1,5% ±5 digits <400 k Ω±0,3% ±2 dig., 40 M Ω2% ±5 dig.<400 k Ω±0,4% ±2 dig. 40 M Ω±3% ±5 dig. Conductance 400 nS in 1 range 400 nS in 1 range 400 nS in 1 range Best Resolution 0,1 nS0,1 nS0,1 nS Basic Accuracy ±0,7% ±5 digits±0,7% ±5 digits±1% ±5 digitsCapacitance 4 nF to 40 mF in 8 ranges 4 nF to 40 mF in 8 ranges Best Resolution 1 pF1 pFBasic Accuracy 40 nF - 4 µF: 0,8% ±5 digits; <40 nF, >4 µF ±4%40 nF - 4 µF: 0,8% ±5 dig. <40 nF, >4 µF ±4%Frequency 100 Hz to 4 MHz in 6 ranges 100 Hz to 250 kHz in 5 ranges Best Resolution 0,001 Hz 0,001 Hz Basic Accuracy ±0,002% ±3 digits ±0,05% ±4 digitsDuty Cycle 100% in 1 range N/AN/AN/ABest Resolution 0,1%Basic Accuracy ±0,5 digits/kHz ±2 digits (AC + DC)V 4 V to 750 V in 4 ranges N/A N/A N/ABest Resolution 0,1 mVBasic Accuracy ±0,8% ±8 digits (40 Hz - 20 kHz)dBm-60,7 dBm to 81,4 dBm Auto with 20 reference ΩN/A N/A N/ABest Resolution 0,01 dBmBasic Accuracy±0,25 dBm ±2 digits @ 40 Hz to 20 kHzMULTIMETERS。

VE.Can Resistive Tank Sender Adapter manual1. IntroductionThe VE.Can resistive tank sender adapter allows a standard resistive tank level sender to connect to the Color Control GX.High ±1% AccuracySuits European standard 0-180 and US standard 240-30 Ohm SendersFuel, Freshwater, Wastewater, Oil, Live Well or Blackwater: tank type easily selectable with a rotary switchFor multiple tanks, use multiple tank sender adapters in one network: up to 16 tanks of thesame tank typeRobust ABS Construction sealed to IP67Easy to installSimple switch setup with no extra display requiredUnder 50mA Power UsageInput voltage 9 to 70 VDCFor multiple tanks, use multiple tank sender adapters. Each wired to their own tank. Connect up to 16 tanks of the same type in one VE.Can network. Set each tank sender adapter to its own unique tank number with the rotary switch.More information on the product page on our website.2. Installation2.1 VE.Can NetworkConnect the tank sender adapter to the rest of the network using standard straight RJ-45 cable. The2022-01-27ve.can:ve.can_resistive_tank_sender_adapter https:///live/ve.can:ve.can_resistive_tank_sender_adapter 09:34adapter has two RJ45 sockets to allow easy daisy chaining.Place a VE.Can terminator at both ends of the network. The Color Control GX is supplied with two of those terminators.2.2 PowerFor the adapter to work, the VE.Can network needs to be powered. These products will power the VE.Can network:Skylla-i (all models)Lynx Ion + Shunt (both the 250A and the 600A model)Lynx Shunt VE.CanBlueSolar MPPT 150/70 VE.CanBlueSolar MPPT 150/85 VE.CanIn case there is no such product in the installation, add the VE.Can Power Cable - ASS030690000 to the installation.2.3 Sender TypeThen select the correct sender type using the left rotary switch:Sender resistance Tank Type Switch PositionEuropean 0-180Fuel0Fresh Water1Waste Water2Live well3Oil4Black water5Invalid6Invalid7American 240-30Fuel8Fresh Water9Waste Water ALive well BOil CBlack water DInvalid EInvalid F2.4 Tank InstanceThis setting is used in systems with multiple tanks. Set each tank to a unique Tank Instance.2.5 Resistance Sender ConnectorThe two wires coming from the tank sender (not included) can be wired into the two spring loaded terminals on the tank sender adapter.3. ConfigurationOnce connected to the Color Control GX a new entry will appear on the main menu.On the tank page the current tank level and remaining capacity values are displayed.Select the “Setup” item to open the configuration page where following settings can be configured. Capacity2022-01-27ve.can:ve.can_resistive_tank_sender_adapter https:///live/ve.can:ve.can_resistive_tank_sender_adapter 09:34Fluid typeVolume unitFrequently asked questionsQ1: Can I configure a custom name?No. The VE.Can Tank Sender Adapter does not accept configuring a custom name. The method available to distinguish from one tank to another are the instances.This is unlike the GX Tank 140 and as well as inputs available directly on the Cerbo GX: there it is possible to configure a name.Q2: Why is this tank sender adapter so expensive?That is because its expensive to produce. For lower cost options, consider a GX Device with direct tank inputs, such as the Cerbo GX. And to extend those, consider our GX Tank 140. Note that the GX Tank 140 takes 0-10V and 4-20mA senders, not resistive.。

MP-006 使用說明書鉅銓電子股份有限公司本機是全新一代數位隨身聽設備。

支援MP1、MP2、MP3、WMA、WMV、ASF、WAV、AMV 等格式音樂。

本機完美的音質、極高的可靠性和精巧的外觀相得益彰，堪稱大師級的作品，衷心的希望她能給您帶來數位時代的超凡享受。

功能概述●精巧外型設計鋁合金材料外觀設計，合適的手感。

●支援多種音頻、視頻格式如MP1、MP2、MP3、WMA、WMV、ASF、WAV、AMV等音頻、視頻格式。

●FM身歷聲收音機強大自動搜索電臺或手動搜索電臺功能，可存儲40個（每個形式20個）不同頻率的電臺，讓您輕鬆收聽電臺節目。

●電子文檔超長文字記錄功能，可以把未讀完的文章複製到移動盤內，隨時閱讀。

●隨身碟功能無需管理程式，可直接通過“我的電腦＂中“卸除式磁碟＂進行檔操作，在WIN2000以上系統中無需安裝驅動程式。

●錄音/複讀可通過麥克風錄音並保存為WAV和ACT格式的語音文檔，可選擇片段複讀或對比複讀，實現真正的數位複讀功能。

●7種音色等化器自然、搖滾、流行、古典、柔和、爵士、重低音●多種播放模式普通模式、單曲迴圈、目錄播放、目錄迴圈、全部迴圈、隨機播放、流覽播放。

●多種錄音模式音頻錄音、WAV錄音、MP3音樂錄音。

●定時關機可以設定睡眠模式和省電模式，使您使用起來更加方便。

●全動畫選單●遊戲功能聲明事項直觀的動畫功能表，配合相應文字的顯示，使用起來得心應手！首先對您使用本公司的MP3數位隨身聽產品表示感謝！在使用之前請先閱讀此說明書，正確使用此產品。

為了更好的服務，本用戶手冊的內容可能變更。

因為產品的性能和功能而發生的變更，將不做另行通知。

如果產品的實際設置和使用方法與本手冊不一致，請訪問本公司網站查詢最新產品資訊。

目錄z功能概述 (2)z聲明事項 (3)1、認識播放器 (5)外型按鍵 (5)顯示幕 (5)電量 (5)2、基本功能 (6)進入選單 (6)流覽操作 (6)進入不同功能模式 (6)音量調節 (8)開機/關機 (8)播放或停止 (8)開始錄音/停止錄音 (8)3、按鍵操作 (8)按鍵功能定義 (8)按鍵動作定義 (8)4、播放音樂 (9)簡單操作 (9)音效模式 (9)歌詞同步顯示（卡拉OK功能） (10)5、聲音錄製 (10)在“錄音模式＂中錄音 (10)選擇錄音類型 (11)6、播放錄音檔 (12)7、使用FM收音機 (12)8、系統設定 (13)如何進入？ (13)各參數專案簡介 (13)詳細使用說明 (14)“錄音時間＂設定 (14)“錄音類型＂設定 (14)“螢幕設置＂設定 (14)“語言選擇＂設定 (14)“關機設定＂ (15)“複讀設定＂ (15)“聯機設備＂設定 (15)“聯機模式＂設定 (15)“儲存狀況＂設定 (15)“韌體版本＂設定 (15)“韌體升級＂設定 (15)9、播放視頻 (15)10、文件閱讀 (16)11、流覽圖片 (16)12、使用USB磁片 (17)13、其他設定 (17)選擇不同目錄 (17)刪除模式 (18)播放模式 (19)播放速度 (19)複讀模式 (19)A-B複讀 (19)跟讀功能 (20)對比功能 (20)複讀次數 (20)複讀間隔 (20)14、將WMA視頻檔轉換成AMV (21)15、疑難問題 (23)16、技術規格 (24)顯示幕電量本機採用4級電量監控。

Eaton PDF34M0600E5RJPower Defense Globally Rated 100% UL, Frame 3, Four Pole, 600A, 65kA/480V, PXR20 ARMS LSIG w/ Relays, Std Line Load Term (PDG3X4TA630)General specificationsEaton Power Defense molded case circuit breakerPDF34M0600E5RJ 786679426302109.1 mm 257.1 mm 182.9 mm 7.68 kg Eaton Selling Policy 25-000, one (1) year from the date of installation of theProduct or eighteen (18) months from thedate of shipment of the Product,whichever occurs first.RoHS Compliant CCC MarkedIEC 60947-2Product NameCatalog Number UPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliancesCertificationsRelays65 kAIC at 480 Vac3690600 A600 AFour-pole (100% N) 600 VPD3 Global (100% UL)22 kAIC Icu @250 Vdc 100 kAIC @240V (UL)ElectronicClass AComplete breaker Standard Line and Load 600 Vac100% neutral protection PXR 20 LSIG w/ARMS Eaton Power Defense MCCB PDF34M0600E5RJ 3D drawingPower Xpert Protection Manager x64Power Xpert Protection Manager x32Consulting application guide - molded case circuit breakersStrandAble terminals product aidPower Defense technical selling bookletPower Defense brochurePower Defense molded case circuit breaker selection posterMolded case circuit breakers catalogPower Xpert Release trip units for Power Defense molded case circuit breakersPDG3 UL authorization 100-400aPDG3 UL authorization 250-600a TMTUPower Defense Frame 3 Breaker Instructions (IL012107EN).pdfPower Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To VideoEaton Power Defense for superior arc flash safetyPower Defense BreakersPower Defense Frame 6 Trip Unit How-To VideoPower Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense molded case circuit breakersPower Defense Frame 5 Trip Unit How-To VideoEaton Specification Sheet - PDF34M0600E5RJPower Defense time current curve Frame 3 - PD3Implementation of arc flash mitigating solutions at industrial manufacturing facilitiesSpecial featuresInterrupt ratingFrameRated operation voltage (Ue) at AC - max Trip ratingAmperage RatingNumber of polesVoltage rating - maxCircuit breaker typeInterrupt rating rangeSwitch off techniqueClassCircuit breaker frame typeTerminalsVoltage ratingProtectionTrip Type 3D CAD drawing package Application notesBrochuresCatalogsCertification reports Installation instructions MultimediaSpecifications and datasheets Time/current curvesWhite papersEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaMolded case and low-voltage power circuit breaker health Intelligent circuit protection yields space savings Intelligent power starts with accurate, actionable data Making a better machineSafer by design: arc energy reduction techniques Molded case and low-voltage breaker health。

WABCO威伯科公司wabco | 威伯科wabco | 威伯科WABCO代理| 威伯科WABCO电磁阀|WABCO空气处理系统：空压机，空气干燥器，四回路保护阀，贮气筒，调压阀，电子空气处理单元| WABCO传动系统：变速箱自动控制，离合器助力和控制排气制动，缓速器控制| WABCO制动器和制动气室：鼓式和盘式制动器，制动气室--因科思国际贸易有限公司wabco公司中国代理商德国WABCO | wabco气动控制阀| WABCO空气干燥器总成| WABCO瓦伯科刹车制动总泵| wabco高度控制阀| WABCO气动阀威伯科汽车控制系统（纽交所交易代码：WBC）是全球领先的商用车辆安全及控制系统供应商。

成立至今的140多年来，威伯科一直引领着电子、机械及机电技术领域的突破与创新，为世界领先的商用卡车、挂车和客车制造商提供制动、稳定控制和自动变速控制产品威伯科通过全球领先的技术优势，致力于不断预见和满足全球对卡车，客车和挂车的使用效率，环保持续性，安全性和驾驶员有效性方面逐年提高的要求。

威伯科总部位于比利时布鲁塞尔，在全球31个国家拥有9900名员工。

2010年全球销售总额为22亿美元。

威伯科作为技术领先者，其商用车辆行业里程碑式的重要技术创新就是最好的诠释：2010年，首款自动紧急制动系统（AEBS）符合欧盟即将推出的法规2009年，首款用于电子稳定性控制（ESC）鉴定的模拟系统2008年，首个商用车自动紧急制动系统（AEB）诞生2007年，首个商用车带自动制动功能的碰撞预警系统（CMS）诞生2001年，首个商用车电子稳定控制系统（ESC）诞生1996年，首个电子制动系统（EBS）诞生1986年，首个商用车自动机械变速箱控制系统（AMT）诞生1986年，首个商用车电子控制空气悬架系统（ECAS）诞生1981年，首个重型卡车防抱死制动系统（ABS）诞生威伯科致力于提高卡车、客车和挂车的安全与效率，并同时降低车辆的整体运营成本。