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한국의 (Korean)USB Power Delivery (PD) power supplies (AKA USB Type-C rapid charger power adapters)
The USB Power Delivery (USB PD) Specification represents the latest generation of USB power. The specification introduces fast charging at power levels much greater than previously possible with USB, while maintaining full interoperability with legacy USB devices. USB PD power adapters are also compatible with devices designed to the USB Type-C Cable and Connector Specification, which increases the maximum available power at 5V to 15W maximum, from the previous 7.5W maximum (per USB BC1.2). It’s important to note that not all systems with USB Type-C cables are designed for USB PD. A USB Type-C cable indicates, at a minimum, compatibility with the “Type-C power” specification (found under the USB Type-C Cable and Connector Specification).
Devices utilizing these technologies should follow the published USB specifications in order for products to have proper interoperability. The USB Type-C Cable and Connector Specification describes a common cable to be used across a wide array of devices, thereby eliminating waste and multiple types of cables for every device.
USB Power Delivery is a fast charging technology, supported by most smartphones, tablets, and computers, that delivers much higher levels of power than standard charging. Many USB PD devices also support the comparable standard Qualcomm® Quick Charge™ which is also popular amongst many mobile devices.
In order to take advantage of USB Power Delivery it is necessary to have a USB PD-enabled system such as a cellular phone, a tablet, or another type of mobile equipment designed for USB Power Delivery charging. In addition, since USB PD requires “smart” communication between power source and load equipment, the power adapter must also be designed for USB PD. Due to the complexity of the USB PD communication protocol, an additional dedicated wire (in the USB cable) is needed. Therefore, only USB Type-C cables may be used between a USB PD power source and USB PD load equipment. . Typically USB Power Delivery or Qualcomm® Quick Charge™ chargers are able to detect a non-PD-enabled device and serve a simple 5 volt output under such conditions.
It is advertised that USB PD power adapters can charge mobile devices up to 70% faster than using a standard 5W or 7.5W charger. Such rapid charging facilitates higher availability of critical mobile equipment due to significantly less time requiring charging.
The USB PD rapid charging protocol also allows up to 100W of available power. This large power capacity allows for charging and powering much larger devices than previous USB protocols.
USB PD devices/equipment need to understand their own power requirements to effectively negotiate a power contract with a USB PD source. For battery powered equipment, the power requirements are largely driven by the maximum desired charge rate. A high charge rate requires a power adapter with relatively high output power capability. On the other hand, a high power charger is not always available, so USB PD devices are often designed to accept power adapters with a range of power capabilities. If a low powered PD charger is connected, the device should switch to low power charging. The USB PD charger detects the power requirements of connected devices to deliver the right amount of power to charge that device as fast as possible.
GlobTek manufacturers USB power delivery (USB PD) rapid charger power supplies in various wattage levels from 18 to 100 watts. USB power delivery rapid charger power supplies are available in wall plug-in and desktop varieties. USB power delivery rapid charger power supplies are also available in grounded and ungrounded options as well as with USB Type-C cords connected to the charger or simply a USB Type-C jack panel mounted on the charger. Customized versions are also available including customized power delivery voltage profiles, customized Vendor Defined Messages (VDMs), or others upon customer request.
GlobTek USB power delivery rapid charger power supplies are certified to various international safety standards and in most major industrialized countries. Most products have multiple Standard approvals such as LPS(Limited power source), IEC/EN 60950-1(information technology equipment), 62368-1(information and communication technology equipment), 60335-1(household use), 60601-1 (medical). All standard models have North American (UL, ETL), European (CE), Russian (EAC), Ukraine, Japan (PSE), China (CCC), and Australian/New Zealand (RCM) Certifications
GlobTek also manufactures a wide range of USB Type-C cables. GlobTek manufacturers USB Type-C to Type-C cables in a variety of lengths and colors both with and without E-mark chips required for higher current carrying capability. GlobTek also manufacturers USB Type-C to USB type A and other USB types of plugs. standard products are available in both black and white and various lengths from 1 to 5 m. Customizations are available upon request.
Frequently Asked Questions
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什么是符合 IEC 60601-1-11标准的家用医疗电源? | |||||||||||||
什么是IEC 60601-1医疗级额定电源交流适配器? IEC 60601-1-2医疗级额定电源交流适配器将来自墙壁的输入线路电压转换为较低的电压,通常为直流,该电压用于操作和最终使用医疗设备。 IEC 60601-1-2医疗级电源交流适配器通常装在塑料外壳中,并提供2脚和3脚输入选项。另外开放式电源用在医疗设备内部.这些交流转直流转换器是根据国际医学标准设计的,并确保它们符合某些方面的要求,不同于通用信息和通信技术设备的电源。 为什么医疗级IEC 60601-1电源通过了IEC 60601-1第3版认证,而最新标准却是IEC 60601-1第4版? IEC 60601-1在安全和EMI / EMC规范中有区分。 IEC 60601-1安全部分的最新版本是第三版,而EMI / EMC的最新版本是60601-1-2,第四版。
第四版60601-1-2什么时候生效? 第四版60601-1-2自2018年12月31日起生效。 IEC 60950-1和IEC 60601-1医疗级额定电源有什么区别? IEC 60950-1和IEC 60601-1-2电源都是起到交流电转直流电的作用,可以是内置或外置,根据应用终端的不同规格要求而设计。 尽管例如输入和输出电压以及结构等类似,但也存在许多差异。 例如一些重要区别在于,医用IEC 60601医用级交流转直流适配器能够承受较高电压,并且必须具有较低的漏电流。 根据终端应用的不同,还有许多其他差异和考虑因素。 什么是MOOP (MEANS OF OPERATOR PROTECTION )对操作者提供足够防护 和MOPP (MEANS OF PATIENT PROTECTION) 对病患提供足够防护 什么是主体触体绝缘型和心脏触体绝缘型符合IEC 60601-1-2医疗级额定电源交流适配器,有什么区别? 医用级电源和交流转直流适配器分为三种应用部件类型:主体类型(B),主体触体绝缘型(BF)和心脏触体绝缘型(CF)。这些应用的零件需要特定的属性,例如隔离电压,爬电距离和漏电流。绝缘是指未接地的II类电源,该电源未关联到另一个输出且已完全隔离。 B型是指在患者附近工作的设备,如IEC 60601-1中所述,围绕患者的椅子或床六英尺,并且不通过电子方式接触患者并且接地。这些设备包括手术室照明设备,医院推车和床,药物和补给品的自动分配器以及X射线机之类的诊断设备。 BF型设备向患者或从患者发送电能信号,例如电外科设备,内窥镜和生命体征电子监护仪(例如温度计)。 CF型设备与BF类似,不同之处在于它们为连接到心脏的设备(例如除纤颤器,外部起搏器或心内心电图电极)供电,并且CF型需要比BF型更高的电击防护等级。 | |||||||||||||
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什么是灌胶/封装的交流转直流流适配器? | Potted or Potted/Encapsulated in plastic housing | ||||||||||||
什么是开放式或内置交流转直流电源? | Open Frame/Internal | ||||||||||||
| POE电源是否需要VI级效率? 根据美国能源部的规定,如果EPS使用任何类型的电气连接,电缆,软线或其他电线(包括可移动的和硬的)连接到最终用途应用,则可以被视为A类EPS。 有线连接。 以太网电缆将满足这些标准,因此通过以太网电缆连接到最终用途产品的EPS仍将被视为A级EPS,并且如果满足其他5条标准,则将遵守适用的节能标准。 A类EPS。 通常,所有以太网供电电源适配器都符合所有标准,并且必须达到VI级效率 | Desktop/External | ||||||||||||
Quick reference for common terms used in reference to Power Supply Cords Alternating Current (A-C) The charge flow of a current periodically and regularly reverses in a cyclic manner. Ampere (A) Unit that expresses rate of flow of an electrical current. One ampere is the current flowing through one OHM of resistance at one volt potential. CEE International Color Code. See Inner Conductor Colors. CSA Canadian Standards Association. This is a nonprofit, independent organization that operates a listing service for electrical materials and equipment in the Canadian counterpart of the Underwriters Laboratories. HPN Parallel Heater Cord, typically Neoprene-insulated two conductor. Hypot A test designed to determine the highest potential that can be applied to a conductor without breaking through the insulation. ICC International Color Code on the inner conductors (blue, brown, green with yellow stripe). See Inner Conductor Colors. IEC International Electromechanical Commission. A European group consisting of multi-national representatives which develop standards for electrical components. See IEC-320 Standardized Appliance Connectors. Inner Conductor Colors
Insulated Wire A conductor of electricity covered with a nonconducting material. Jacket An extruded layer of insulation over a wire or group of cables. Kilowatt (kW) A unit of power equal to one thousand watts. Line Cord A cord, terminating in a plug at one end, used to connect equipment or appliances to a power unit. N.A. North American color code on the inner conductors (black, white, green). See Inner Conductor Colors. National Electrical Manufacturers Association (NEMA) Standard of wire, plug and cable specifications. See NEMA Plug & Receptical Configurations. OD Abbreviation for outside diameter. OHM Unit of electrical resistance. Resistance of a circuit in which a potential difference of one volt produces a current of one ampere. PVC Polyvinyl chloride Compound used in thermoplastic SVT, SJT. Power Supply Cord An attachment plug molded to a length of flexible cord. May also include a molded on strain relief, or terminations on the end opposite the plug. Rated Voltage The maximum voltage at which an electric component can operate for extended periods without undo degradation or safety hazard. Receptacle A contact device installed at the outlet for the connection of a single attachment plug. Ribbed Outer jacket is striated with ribs. Rip Cord Two or more insulated conductors in a parallel configuration which may be easily separated leaving the insulation of each conductor intact. S Designated for heavy duty, rubber insulated portable cord. Stranded copper conductors with separator and individual rubber insulation. Two or more color coded conductors cabled with filler, wrapped with separator and rubber jacketed overall, 600V. SEOW-A Extra hard service cord. Thermoplastic elastomer, oil resistant (TPE) construction Jacket. 600 volt, weather resistant for outdoor use. SJ Designated for junior hard service, rubber insulated pendant or portable cord. Same construction as type S, but 300V. SJEOW-A Extra hard service cord. Thermoplastic elastomer, oil resistant (TPE) construction jacket. 300 volt, weather resistant for outdoor use. SJ0 Same as SJ but neoprene, oil resistant compound out jacket, 300V, 600C. SJT Designated for junior hard service thermoplastic or rubber insulated conductors with overall thermoplastic outer jacket, 300V, 600C. SJTO Same as SJT but oil resistant thermoplastic outer jacket. SJTW A hard service cord. Thermoplastic constructed jacket. 300 volt, weather resistant for outdoor use. S0 Designated for a 600 Volt senior service, oil resistant neoprene jacket cord. Same construction as type S except for neoprene jacket. S0-W Heavy duty type 50-dual rated type W SPT-1 Thermoplastic constructed, parallel jacketed, 300 volt, 2 or 3 conductor, 18 gauge. SPT-2 Same as SPT-1 but heavier construction. 18-16 gauge. SPT-3 Same as SPT-2 but heavier construction. 18-10 gauge. ST Hard service cord, jacketed same as type S except all plastic construction, 600V 600 to 1050C. STO Same as ST but with oil resistant thermoplastic outer jacket, 600V. STW-A Extra hard service cord. Thermoplastic constructed jacket. 600 volt, weather resistant for outdoor use. SV Designated for vacuum cleaner cord, two-or-three conductor, rubber insulated. Overall rubber jacket. For light duty in damp location. 300V, 600C. SVT Same as SV except all plastic construction. With or without third conductor for grounding purposes only. 300V, 600-900C. Shielded-Type Cable A cable in which the conductors are enclosed in a conducting envelope constructed so that substantially every point on the surface of the insulation is at ground potential or at some predetermined potential with respect to ground under normal operating conditions. Strip To remove insulation from a cable. Temperature Rating The maximum temperature at which the insulating material may be used in continuous operation without loss of its basic properties. Terminal Any device attached to the conductor by crimping, soldering or welding. Tensile Strength The pulling stress required to break a given specimen. Thermoplastic Elastomer (TPE) A jacketed material which has many of the characteristics of rubber, as well as excellent electrical, mechanical and chemical properties. Thermosetting A classification of resin which cures by chemical reaction when heated and, when cured, can not be resoftened by heating. Tinned A silver-white, ductile metal used to coat copper conductors, especially when solder termination is to be used. Tolerance The acceptable deviation from specification. UL Underwriters Laboratories. This is a nonprofit independent organization that operates a listing service for electrical and electronic materials and equipment. VW-1 A flammability rating established by Underwriters Laboratories for wires and cables that pass a specially designed vertical flame test, formerly designated FR-1. Volt (V) Unit of electromotive force. It is the difference of potential required to make a current of one ampere flow through a resistance of one OHM. Voltage The term most often used in place of electromotive force, potential, difference or voltage drop, to designate electric pressure that exists between two points and is capable of producing a flow of current when a closed circuit is connected between the two points. Voltage Breakdown Test to determine maximum voltage of insulated wire before electrical current leakage through insulation. See hypot. Voltage Rating The highest point that may be continuously applied to a wire or cord in conformance with standards or specifications. W-A UL designation for outdoor-approved flexible cord. Watt (W) Unit of power or work done at the rate of one joule per second or rate of work represented by current of one ampere under a pressure of one volt (volt-ampere). Wire Gauge A system of numerical designations of wire sizes. | |||||||||||||
什么是USB PD? USB PD是一种特殊类型的交流直流转换器,专门设计用于支持PD协议的设备进行交互,根据系统要求提供一组特定的电压和电流,以提供快速充电。 USB PD为何可以快速充电? 如果在无PD功能的设备上使用USB PD电源会怎样?USBPD快速充电器在连接到未启用PD的设备时能识别出来,并且默认为标准5伏输出。 是否需要特殊线材才能使用USB PD协议?当将USB PD快速充电器与多个USB C型接口一起使用时,必须使用适当的线材。 对于3安培及以下的电流,可以使用标准的适当多导体USB C型至USB C型电缆。 如果线材不符合USB规格,则PD电源将无法提供PD功能。 如果电流超过3安培,则需要封装有E-Marker芯片的线缆。 | USB Power Delivery (PD) Adaptive Power Supply AC Adaptor Quick Charger | ||||||||||||
什么是USB插入式交流直流适配器? 插入式USB 交流直流适配器也称为USB 交流适配器或USB 交流直流转换器,是一种外置电源。一些电器需要电源,但是缺少内部组件以从市电获得所需的电压和功率。此时便需要使用交流适配器将交流电流转换为直流USB电源外壳上有USB A或USB C插座,可以和单独的USB电缆一起使用。 | AC/DC Switching Adapter with USB Power Supply AC Adaptor | ||||||||||||
什么是符合IEC 62368-1:2018标准电源? IEC 62368-1电源是否替代了IEC60950-1电源?到2020年12月20日,已应用于信息技术设备和音频视频设备的安全标准IEC 60065和IEC 60950-1过渡为IEC 62368-1。 在北美,ETL和UL 60950-1认证将继续有效,并且可以继续使用直至另行通知。 IEC 62368-1和IEC 60950-1电源之间有什么区别? | |||||||||||||
什么是插墙式/桌面式通用交流转直流适配器? 插墙式/桌面式通用交流转直流适配器也称为交流适配器或交流转直流转换器,是一种外部电源。 此类电源被认为是混合类型,因为它们可以用作使用IEC 60320电源线的标准台式电源,也可以使用专有的输入插头作为墙壁插件,无需线缆即可直接插入墙壁。 一些电器需要电源驱动,但是缺少内部组件以从市电获得所需的电压和功率,此时就需要交流适配器将交流电流转换为直流电压 | Wall Plug-in+Desktop Combination | ||||||||||||
什么是超低漏电流电源交直流转换器? 超低泄漏电源交流到直流转换器是一种外部电源,与交流插头类似,它被封装在一个外壳中,因此,术语为插头类型,插墙式,插入式或插头式电源适配器。 将电源插入电源插座,然后将交流电压通过交流到直流适配器电源转换为直流电压,该直流电压通过输出电缆连接输入到设备中。 超低泄漏是指对于某些医疗应用,尤其是心脏浮动(CF额定)或某些其他应用(对于最终系统有效工作而言,需要极低的泄漏)的泄漏电流必须特别低。 | Sigma Wave™ Ultra Low Leakage Current, CF Compliant Power Supply AC Adaptor | ||||||||||||
什么是六级能效? 一到六是国际能效标记协议,允许制造商指定产品的效率性能。 此性能基于对在不同负载水平下测试的外部电源或交流转直流适配器的工作能效和空载功耗的测量。 空载功耗是指即使应用程序关闭或断开连接,外部电源也要消耗的电量。 六级能效是否必须? 什么是生态设计指令2009/125 / EC? 生态设计指令在欧洲将交流转直流适配器和外部电源的能效和节能最新要求纳入法律。 | USA DOE Level VI / Eco-design Directive 2009/125/EC, (EU) 2019/1782 | ||||||||||||
什么是IEC 60335-1? 国际标准60335-1涵盖了家用和类似用途电器的安全,单相电器的额定电压不超过250 V,其他电器的额定电压不超过480V。 为什么必须使用符合IEC 60335-1额定电源或交流适配器? 在家庭环境中使用的设备应用必须使用经IEC 60335-1认证的电源或交流直流转换器。 这些独特的电源提供了家用电器所需的特定合规性。 | |||||||||||||
什么是欧洲CoC Tier 2法规? 欧洲CoC Tier 2法规是欧盟委员会JRC(联合研究中心)可再生能源部门发布的一套针对外部电源和AC适配器的效率目标。 这些目标是非强制性的,没有任何法律强制规定。 | |||||||||||||
什么是插墙式交流直流适配器? 插墙式交流直流适配器也称为交流适配器或交直流转换器,是一种外部电源。 一些电器需要电源来驱动,但是缺少内部组件而不能从市电中获得所需的电压和电源,此时便需要使用交流适配器将交流电流转换为直流电压 | Wall Plug-in | ||||||||||||
什么是LPS(受限电源)? IEC 62368-1和IEC 60950中定义的受限电源(LPS)是具有开路输出电压UOC且不超过SELV电路限制42.4 VPEAK或60 VDC的次级电路。 在任何负载条件下输出上可用的最大视在功率S和在任何负载条件下(包括短路)在输出上可用的最大故障电流ISC在故障条件下安装在适当额定材料上的组件或由适当额定材料构成的电路中被限制在不太可能引起点火的大小上 为什么需要LPS(受限电源)? 产品设计中的部分或全部电路受LPS(受限电源)限制,使机械设计在聚合物材料选择和外壳中的开口方面更具灵活性,因为无需为LPS供电的电路提供防火外壳。 可以用LPS(受限电源)代替2类电源或UL1310电源吗? 经UL 1310认证的2类电源和LPS(受限电源)之间有什么区别? UL1310是产品安全标准,旨在通过降低危险情况的可能性来保护人类的安全。 UL1310要求所有通过UL1310认证的交流转直流电源和交直流适配器具有受限的输出功率能力。 限制在标准的第28节中定义。 UL 1310交流适配器和电源也称为2类变压器。 IEC62368-1为一类交流转直流和直流转直流电源提供了“受限电源”(LPS)名称,这些电源满足标准中附录Q定义的一组标准。 但要注意,通过IEC62368-1认证的电源并不意味着它也符合LPS。 是否符合LPS是可选的。 两者本质上是相同的技术要求,但铭牌上的标记要求不同。 | |||||||||||||
| 交流直流适配器如何工作? 交流直流适配器或外置电源由与交流插头相似的外壳中封闭的电源组成,因此,术语为插头类型,插墙式,插入式或插头式电源适配器。 将电源插入电源插座,然后将交流电压通过交流到直流适配器电源转换为直流电压,该直流电压通过输出电缆连接输入到设备中。 | AC Adaptor Power Supply AC Adaptor | ||||||||||||
| 什么是以太网中跨单端口无源电源(无源PoE PSE)电源交流适配器 以太网中跨单端口无源供电由一个电源组成,该电源被封装在类似于AC插头的外壳中,因此术语为插头类型,插墙式,插入式或插头式电源适配器。 将电源插入电源插座,然后将交流电压通过交流到直流适配器电源转换为直流电压,该直流电压通过输出电缆连接输入到设备中。 无源POE电源通常通过以太网连接器提供固定电压,不遵循POE协议,并且可能不兼容设备的所有特征和功能,例如交互和其他特征。 使用无源POE电源的目的是什么?无源POE电源是常见电源的一种,但使用以太网连接来提供输出功率。 某些启用POE的设备或其他模仿POE功能的设备不需要这种相对复杂的以太网电源兼容电源。 在成本或其他考虑因素比功能更重要的情况下,可以使用无源POE电源。 | Single Port Passive Power Over Ethernet Midspan (Passive/Dumb PoE PSE) Power Supply AC Adaptor | ||||||||||||
| POE电源是否需要VI级效率? 根据美国能源部的规定,如果EPS使用任何类型的电气连接,电缆,软线或其他电线(包括可移动的和硬的)连接到最终用途应用,则可以被视为A类EPS。 有线连接。 以太网电缆将满足这些标准,因此通过以太网电缆连接到最终用途产品的EPS仍将被视为A级EPS,并且如果满足其他5条标准,则将遵守适用的节能标准。 A类EPS。 通常,所有以太网供电电源适配器都符合所有标准,并且必须达到VI级效率 | Single Port Power Over Ethernet Midspan (IEEE802.3af PoE PSE) | ||||||||||||
| POE电源是否需要VI级效率? 根据美国能源部的规定,如果EPS使用任何类型的电气连接,电缆,软线或其他电线(包括可移动的和硬的)连接到最终用途应用,则可以被视为A类EPS。 有线连接。 以太网电缆将满足这些标准,因此通过以太网电缆连接到最终用途产品的EPS仍将被视为A级EPS,并且如果满足其他5条标准,则将遵守适用的节能标准。 A类EPS。 通常,所有以太网供电电源适配器都符合所有标准,并且必须达到VI级效率 | Gigabit Power over Ethernet (IEEE802.3at PoE PSE) Power Supply AC Adaptor | ||||||||||||
交流直流适配器如何工作?交流直流适配器或外置电源由与交流插头相似的外壳中封闭的电源组成,因此,术语为插头类型,插墙式,插入式或插头式电源适配器。 将电源插入电源插座,然后将交流电压通过交流到直流适配器电源转换为直流电压,该直流电压通过输出电缆连接输入到设备中。不同负载水平下测试的电源的工作能效和空载功耗 空载功耗是指即使应用设备关闭或断开连接,外置电源也要消耗的电量。 恒流交流直流适配器的作用是什么?
恒流交流直流电源 即使负载电阻发生变化和波动也能向负载提供恒定电流的电源
什么时候使用恒流电源合适? 终端产品通常会要求要使用的电源类型。 恒流电源通常用于LED照明,电池充电器以及某些需要稳定电流的其他应用。 | Regulated Switchmode AC-DC Constant Current (CC) Power Supply AC Adaptor | ||||||||||||
交流直流适配器如何工作?交流直流适配器或外置电源由与交流插头相似的外壳中封闭的电源组成,因此,术语为插头类型,插墙式,插入式或插头式电源适配器。 将电源插入电源插座,然后将交流电压通过交流到直流适配器电源转换为直流电压,该直流电压通过输出电缆连接输入到设备中。不同负载水平下测试的电源的工作能效和空载功耗 空载功耗是指即使应用设备关闭或断开连接,外置电源也要消耗的电量。 | Regulated Switchmode AC-DC Power Supply AC Adaptor |
