E88CC电子管数据手册

AT88SC0808CAtmel CryptoMemory, 8-KbitSUMMARY DATASHEETFeatures • One of a family of nine devices with user memories from 1-Kbit to 256-Kbit •8-Kbit (1-Kbyte) EEPROM user memory• Eight 128-byte (1-Kbit) zones • Self-timed write cycle• Single byte or 16-byte page write mode • Programmable access rights for each zone• 2-Kbit configuration zone• 37-byte OTP area for user-defined codes• 160-byte area for user-defined keys and passwords •High security features• 64-bit mutual authentication protocol (under license of ELVA) • Encrypted checksum • Stream encryption• Four key sets for authentication and encryption • Eight sets of two 24-bit passwords • Anti-tearing function• Voltage and frequency monitor•Smart card features• ISO 7816 Class A (5V) or Class B (3V) operation• ISO 7816-3 asynchronous T = 0 protocol (Gemplus ®patent) * • Multiple zones, key sets and passwords for multi-application use • Synchronous 2-wire serial interface for faster device initialization * • Programmable 8-byte answer-to-reset register •ISO 7816-2 compliant modules•Embedded application features• Low voltage operation: 2.7V to 5.5V• Secure nonvolatile storage for sensitive system or user information • 2-wire serial interface• 1.0MHz compatibility for fast operation• Standard 8-lead plastic packages, green compliant (exceeds RoHS) •Same pinout as 2-wire Serial EEPROMs•High reliability• Endurance: 100,000 cycles • Data retention: 10 years • ESD protection: 4,000V min* Note: Modules available with either T=0 / 2-wire modes or 2-wire mode onlyThis is a summary document. The complete document is available on the Atmel website at .AT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_1220132Table 1. Pin AssignmentFigure 1.Pin Configuration1. DescriptionThe Atmel ®AT88SC0808C member of the Atmel CryptoMemory ®family is a high-performance secure memory providing 8-Kbits of user memory with advanced security and cryptographic features built in. The user memory is divided into eight 128-byte zones, each of which may be individually set with different security access rights or effectively combined together to provide space for one to eight data files.1.1 Smart Card ApplicationsThe AT88SC0808C provides high security, low cost, and ease of implementation without the need for a microprocessor operating system. The embedded cryptographic engine provides for dynamic and symmetric mutual authentication between the device and host, as well as performing stream encryption for all data and passwords exchanged between the device and host. Up to four unique key sets may be used for these operations. The AT88SC0808C offers the ability to communicate with virtually any smart card reader using the asynchronous T = 0 protocol (Gemplus Patent) defined in ISO 7816-3.1.2 Embedded ApplicationsThrough dynamic and symmetric mutual authentication, data encryption, and the use of encrypted checksums, theAT88SC0808C provides a secure place for storage of sensitive information within a system. With its tamper detection circuits, this information remains safe even under attack. A 2-wire serial interface running at 1.0MHz is used for fast and efficientcommunications with up to 15 devices that may be individually addressed. The AT88SC0808C is available in industry standard 8-lead packages with the same familiar pinout as 2-wire Serial EEPROMs.V CC =C1RST=C2SCL/CLK=C3NC=C4ISO Smart Card ModuleC5=GND C6=NC C7=SDA/IO C8=NCNC NC NC GND123487658-lead SOIC, PDIP V CC NC SCL SDAV CC =C1NC=C2SCL/CLK=C3NC=C4TWI Smart Card ModuleC5=GND C6=NC C7=SDA/IO C8=NCAT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_1220133Figure 1-1. Block Diagram2.Pin Descriptions2.1Supply Voltage (V CC )The V CC input is a 2.7V to 5.5V positive voltage supplied by the host.2.2 Clock (SCL/CLK)In the asynchronous T = 0 protocol, the SCL/CLK input is used to provide the device with a carrier frequency f . The nominal length of one bit emitted on I/O is defined as an “elementary time unit” (ETU) and is equal to 372/f. When the synchronous protocol is used, the SCL/CLK input is used to positive edge clock data into the device and negative edge clock data out of the device.2.3 Reset (RST)The AT88SC0808C provides an ISO 7816-3 compliant asynchronous answer to reset sequence. When the reset sequence is activated, the device will output the data programmed into the 64-bit answer-to-reset register. An internal pull-up on the RST input pad allows the device to be used in synchronous mode without bonding RST. The AT88SC0808C does not support the synchronous answer-to-reset sequence2.4 Serial Data (SDA/IO)The SDA pin is bidirectional for serial data transfer. This pin is open-drain driven and may be wired with any number of other open drain or open collector devices. An external pull-up resistor should be connected between SDA and V CC . The value of this resistor and the system capacitance loading the SDA bus will determine the rise time of SDA. This rise time will determine the maximum frequency during read operations. Low value pull-up resistors will allow higher frequency operations while drawing higher average power. SDA/IO information applies to both asynchronous and synchronous protocols.When the synchronous protocol is used, the SCL/CLK input is used to positive edge clock data into the device and negative edge clock data out of the device.V CCAT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_12201343.*NOTICE: Stresses beyond those listed under “AbsoluteMaximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other condition beyond those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods of time may affect device reliability.Table 3-1.DC CharacteristicsNote:1. V IL min and V IH max are reference only and are not tested2. To prevent latch up conditions from occurring during power up of the AT88SCxxxxC, V CC must be turned onbefore applying V IH . For powering down, V IH must be removed before turning V CC offAT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_1220135Table 3-2.AC CharacteristicsApplicable over recommended operating range from V CC = +2.7 to 5.5V,4. Device Operation for Synchronous ProtocolsClock and Data Transitions:The SDA pin is normally pulled high with an external device. Data on the SDA pin may change only during SCL low time periods (see Figure 4-3 on page 7). Data changes during SCL high periods will indicate a start or stop condition as defined below.Start Condition:A high-to-low transition of SDA with SCL high is a start condition which must precede any other command (see Figure 4-4 on page 7).Stop Condition:A low-to-high transition of SDA with SCL high is a stop condition. After a read sequence, the stop command will place the EEPROM in a standby power mode (see Figure 4-4 on page 7).Acknowledge:All addresses and data words are serially transmitted to and from the EEPROM in 8-bit words. The EEPROM sends a zero to acknowledge that it has received each word. This happens during the ninth clock cycle (see Figure 4-5 on page 7). Memory Reset:After an interruption in protocol, power loss or system reset, any 2-wire part can be reset by following these steps: 1. Clock up to nine cycles2. Look for SDA high in each cycle while SCL is high3. Create a start conditionAT88SC0808C [SUMMARY DATASHEET] Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_1220136 Figure 4-1. Bus Timing for 2-wire Communications:SCL: Serial Clock, SDA – Serial Data I/OFigure 4-2. Write Cycle Timing:SCL: Serial Clock, SDA – Serial Data I/ONote: The write cycle time t WR is the time from a valid stop condition of a write sequence to the end of the internalclear/write cycleSCLSDA INSDA OUTSTOPCONDITIONSTARTCONDITIONSCLSDAAT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_1220137Figure 4-3. Data ValidityFigure 4-4. Start and Stop DefinitionsFigure 4-5. Output AcknowledgeDATA CHANGE ALLOWEDDATA STABLEDATA STABLESDASCLSDASCLSTART STOPSCLDAT A INDAT A OUTEG D E L W O N K C A T R A T S 981AT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_12201385.Device Architecture5.1User ZonesThe EEPROM user memory is divided into eight zones of 1024 bits each. Multiple zones allow for different types of data or files to be stored in different zones. Access to the user zones is allowed only after security requirements have been met. These security requirements are defined by the user during the personalization of the device in the configuration memory. If the same security requirements are selected for multiple zones, then these zones may effectively be accessed as one larger zone.6. Control LogicAccess to the user zones occurs only through the control logic built into the device. This logic is configurable through access registers, key registers and keys programmed into the configuration memory during device personalization. Also implemented in the control logic is a cryptographic engine for performing the various higher-level security functions of the device.AT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_12201397. Configuration MemoryThe configuration memory consists of 2048 bits of EEPROM memory used for storing passwords, keys and codes and defining security levels to be used for each user zone. Access rights to the configuration memory are defined in the control logic and may not be altered by the user.AT88SC0808C [SUMMARY DATASHEET]Atmel-2024MS-CryptoMem-AT88SC0808C-Datasheet-Summary_122013108. Security FusesThere are three fuses on the device that must be blown during the device personalization process. Each fuse locks certain portions of the configuration memory as OTP memory. Fuses are designed for the module manufacturer, card manufacturer and card issuer and should be blown in sequence, although all programming of the device and blowing of the fuses may be performed at one final step.9. Protocol selectionThe AT88SC0808C supports two different communication protocols.• Smart Card Applications:The asynchronous T = 0 protocol defined by ISO 7816-3 is used for compatibility with the industry’s standard smart card readers• Embedded Applications:A 2-wire serial interface is used for fast and efficient communication with logic or controllersThe power-up sequence determines which of the two communication protocols will be used.9.1 Asynchronous T = 0 ProtocolThis power-up sequence complies with ISO 7816-3 for a cold reset in smart card applications.• V CC goes high; RST, I/O-SDA and CLK-SCL are low • Set I/O-SDA in receive mode • Provide a clock signal to CLK-SCL •RST goes high after 400 clock cyclesThe device will respond with a 64-bit ATR code, including historical bytes to indicate the memory density within theCryptoMemory family. Once the asynchronous mode has been selected, it is not possible to switch to the synchronous mode without powering off the device.Figure 9-1. Asynchronous T = 0 Protocol (Gemplus Patent)V cc I/O-SDARSTCLK-SCL9.2 Synchronous 2-wire Serial InterfaceThe synchronous mode is the default after powering up V CC due to an internal pull-up on RST. For embedded applications using CryptoMemory in standard plastic packages, this is the only communication protocol.• Power-up V CC , RST goes high also• After stable V CC , CLK-SCL and I/O-SDA may be drivenFigure 9-2. Synchronous 2-wire ProtocolNote:Five clock pulses must be sent before the first command is issued10. Communication Security ModesCommunications between the device and host operate in three basic modes. Standard mode is the default mode for the device after power-up. Authentication mode is activated by a successful authentication sequence. Encryption mode is activated by a successful encryption activation following a successful authentication. Table 10-1. Communication Security Modes (1)Note:1. Configuration data include viewable areas of the configuration zone except the passwords:• MDC: Modification Detection Code •MAC: Message Authentication CodeV cc I/O-SDARST CLK-SCL1234511. Security Options11.1 Anti-tearingIn the event of a power loss during a write cycle, the integrity of the device’s stored data may be recovered. This function is optional: the host may choose to activate the anti-tearing function, depending on application requirements. When anti-tearing is active, write commands take longer to execute, since more write cycles are required to complete them, and data are limited to eight bytes.Data are written first to a buffer zone in EEPROM instead of the intended destination address, but with the same accessconditions. The data are then written in the required location. If this second write cycle is interrupted due to a power loss, the device will automatically recover the data from the system buffer zone at the next power-up.In 2-wire mode, the host is required to perform ACK polling for up to 8mS after write commands when anti-tearing is active. At power-up, the host is required to perform ACK polling, in some cases for up to 2mS, in the event that the device needs to carry out the data recovery process.11.2 Write LockIf a user zone is configured in the write lock mode, the lowest address byte of an 8-byte page constitutes a write access byte for the bytes of that page.Example: The write lock byte at $080 controls the bytes from $080 to $087The write lock byte may also be locked by writing its least significant (rightmost) bit to “0”. Moreover, when write lock mode is activated, the write lock byte can only be programmed — that is, bits written to “0” cannot return to “1”.In the write lock configuration, only one byte can be written at a time. Even if several bytes are received, only the first byte will be taken into account by the device.12. Password VerificationPasswords may be used to protect read and/or write access of any user zone. When a valid password is presented, it ismemorized and active until power is turned off, unless a new password is presented or RST becomes active. There are eight password sets that may be used to protect any user zone. Only one password is active at a time, but write passwords give read access also..12.1 Authentication ProtocolThe access to a user zone may be protected by an authentication protocol. Any one of four keys may be selected to use with a user zone.The authentication success is memorized and active as long as the chip is powered, unless a new authentication is initialized or RST becomes active. If the new authentication request is not validated, the card loses its previous authentication and itshould be presented again. Only the last request is memorized.Note: Password and authentication may be presented at any time and in any order. If the trials limit has been reached (after four consecutive incorrect attempts), the password verification or authentication process will not be takeninto accountFigure 12-1. Password and Authentication OperationsREAD ACCESS12.2 ChecksumThe AT88SC0808C implements a data validity check function in the form of a checksum, which may function in standard,authentication or encryption modes.In the standard mode, the checksum is implemented as a Modification Detection Code (MDC), in which the host may read an MDC from the device in order to verify that the data sent was received correctly.In the authentication and encryption modes, the checksum becomes more powerful since it provides a bidirectional dataintegrity check and data origin authentication capability in the form of a Message Authentication Code (MAC). Only thehost/device that carried out a valid authentication is capable of computing a valid MAC. While operating in the authentication or encryption modes, the use of a MAC is required. For an ingoing command, if the device calculates a MAC different from the MAC transmitted by the host, not only is the command abandoned but the mode is also reset. A new authentication and/or encryption activation will be required to reactivate the MAC.12.3 EncryptionThe data exchanged between the device and the host during read, write and verify password commands may be encrypted to ensure data confidentiality.The issuer may choose to require encryption for a user zone by settings made in the configuration memory. Any one of four keys may be selected for use with a user zone. In this case, activation of the encryption mode is required in order to read/write data in the zone and only encrypted data will be transmitted. Even if not required, the host may elect to activate encryption provided the proper keys are known.12.4 Supervisor ModeEnabling this feature allows the holder of one specific password to gain full access to all eight password sets, including the ability to change passwords.12.5 Modify ForbiddenNo write access is allowed in a user zone protected with this feature at any time. The user zone must be written during device personalization prior to blowing the security fuses.12.6 Program OnlyFor a user zone protected by this feature, data within the zone may be changed from a “1” to a “0”, but never from a “0” to a “1”.13. Initial Device ProgrammingTo enable the security features of CryptoMemory, the device must first be personalized to set up several registers and load in the appropriate passwords and keys. This is accomplished through programming the configuration memory of CryptoMemory using simple write and read commands. To gain access to the configuration memory, the secure code must first besuccessfully presented. For the AT88SC0808C device, the secure code is $22 E8 3F. After writing and verifying data in the configuration memory, the security fuses must be blown to lock this information in the device. For additional information on personalizing CryptoMemory, please see the application notes Programming CryptoMemory for Embedded Applications and Initializing CryptoMemory for Smart Card Applications (at ).14.Note: 1. Formal drawings may be obtained from an Atmel sales office2. Both the J and P module packages are used for either ISO (T=0 / 2-wire mode) or TWI (2-wire mode only)15. Packaging InformationOrdering Code: MJ or MJTG Ordering Code: MP or MPTGModule Size: M2Dimension*: 12.6 x 11.4 [mm] Glob Top: Round - ∅ 8.5 [mm] Thickness: 0.58 [mm]Pitch: 14.25mm Module Size: M2Dimension*: 12.6 x 11.4 [mm]Glob Top: Square - 8.8 x 8.8 [mm] Thickness: 0.58 [mm]Pitch: 14.25mmNote: *The module dimensions listed refer to the dimensions of the exposed metal contact area. The actual dimensions of the module after excise or punching from the carrier tape are generally 0.4mm greater in both directions (i.e., apunched M2 module will yield 13.0 x 11.8mm)15.1 Atmel AT88SC0808C Package Marking Information15.2 Ordering Code: SH8S1 – 8-lead JEDEC SOIC15.3 Ordering Code: PU8P3 – 8-lead PDIP16. Revision History。

常用电子管代换表(2012-10-09 00:54:58)转载▼标签：常用电子管代换表文化分类：电子管01A 直热三极管201/3011A5 直热五极管341F5G 直热五极管1F41H6G 直热三极管2A3 直热三极管6A5/6C4C/6B4G6A5G 旁热三极管6A3/6C4C/6B4G6J7G 旁热五极管EF37A/FE36/CV358/CV5080/OM5/6W7G6k7G 旁热五极管6S7/6J7G/6U7G6SJ7MG 旁热五极管6AB7/6AC7/6AJ76X5GT 旁热整流管6ZY5G/CV572/CV573/CV574/EZ35/U147常用型号管芯结构主要用途国外同类型号代备注5X4G 直热式双阳极二极管小功率全波整流氧化物阴极5Z3P 直热式双阳极二极管小功率全波整流5T4、5ц3C、CV1861、5R4GY、U52、CV1071、5V3、5AU4、5U4G氧化物阴极5Z4P 旁热式双阳极二极管小功率全波整流*5B×1、*5ц4C，GZ30、CV2748、5Z4G/GT 氧化物阴极5Z1P 直热式双阳极二极管小功率全波整流氧化物阴极5Z2P 直热式双阳极二极管小功率全波整流5W4、5Y3G、80、U50 氧化物阴极5Z8P 旁热式双阳极二极管全波整流*5ц8C 氧化物阴极5Z9P 旁热式双阳极二极管全波整流*5ц9C 氧化物阴极6Z4 旁热式双阳极二极管全波整流*6ц4П、6B×4、6×4、6Z31 共阴极6Z5P 旁热式双阳极二极管小功率全波整流*6ц5C 共阴极6H2 旁热式双阳极二极管检波、整流*6×2П、6AL5、C 氧化物阴极6C1 旁热式三极管宽带电压放大*6C1П、CV664、9002 氧化物阴极6C3 旁热式三极管宽带电压放大*6C3П阴地三极管6C4 旁热式三极管宽带电压放大*6C4П栅地三极管6C5P 旁热式三极管低频电压放大6C5GT、*6C5C、6C5 、CV1067、L63氧化物阴极6C6B 旁热式三极管低频电压放大5703、CV3917、*6C6Ь氧化物阴极6C7B 旁热式三极管低频电压放大*6C7Ь氧化物阴极6C12 旁热式三极管宽带电压放大EC88、5842 高S、低N6C31B-Q 旁热式三极管电压放大*6C31Ь-B 氧化物阴极6C32B-Q 旁热式三极管电压放大*6C32Ь-B 遥截止三极管6N1 旁热式双三极管低频电压放大*6H1П、6AQ8、AA61、ECC40/82 氧化物阴极6N2 旁热式双三极管低频电压放大*6H2П、6AX7、6AV7、ECC41 氧化物阴极6N3 旁热式双三极管高频电压放大*6H3П、6A8Q、2C51、ECC42 氧化物阴极6N4 旁热式双三极管低噪声电压放大ECC83、12A×7 高μ、低N6N5P 旁热式双三极管低频功率放大*6H13C、6AS7、CV2523、6NS7G/GT 低Ri6N6（T）旁热式双三极管低频电压放大*6H6П、E182CC、5687、12BH7 、7119、7044、6900、ＣＶ５０４２7P 旁热式双三极管低频功率放大6H7、*H7C、6N7/G/GT 共阴极6N8P 旁热式双三极管低频电压放大*6H8C*6H8M、6SN7、6F8G、CV181、QB65、ECC32 氧化物阴极6N9P 旁热式双三极管低频电压放大*6H9C、6SL7、ECC35、6SC7、6CY7 高μ6N10 旁热式双三极管低频电压放大*6H10M、12AV7A、E82CC、CV491 氧化物阴极6N11 旁热式双三极管宽带电压放大*6H23П、6DJ8、ECC84、E88CC、6922、CV2492 高S、低RI、N6N12P 旁热式双三极管低频电压放大*6H12C、TS229、5687 氧化物阴极6N13P 旁热式双三极管低频功率放大*6H13C、6AS7、CV2523、6NS7G/GT 低内阻6N15 旁热式双三极管低频电压放大*6H15П、6J6WA、6CC31、CV858 共阴极6N16B 旁热式双三极管低频电压放大氧化物阴极6N17B 旁热式双三极管低频电压放大*6H17Ь、6112、CV5007 氧化物阴极6N21B-Q 旁热式双三极管低频电压放大氧化物阴极6N23 旁热式双三极管低频电压放大6DJ8、ECC88、PCC88 高μ低N6J1 旁热锐止五极管宽带电压放大*6ж1П、6AK5、6BC5、EF40、EF95、CV850 高频管6J1B 锐截止五极管宽带电压放大*6ж1Ь、CV3929、61489、CK5702/7083 旁热式阴极6J2 锐截止五极管宽带电压放大*6ж2П、6AS6、CV2522、EF11/732、CV4011 旁热式阴极6J2B 锐截止五极管宽带电压放大*6ж2Ь、CK5639 旁热式阴极6J3 锐截止四极管宽带电压放大*6ж3П、EF96、CV848、6BC6、6AG5 束射四极管6J4 锐截止五极管宽带电压放大*6ж4、6136、6BX6、6AC7、EF94 旁热式阴极6J4P 锐截止五极管宽带电压放大*6ж4C、CV849、1852 旁热式阴极6J5 锐截止高频管宽带电压放大*6ж5П、EF80、CV2521、6F36、6AH6 高S、束射四极管6J7 旁热式阴极五极管低频电压放大6*7 、KTZ63、OM5C、CV1056、CV1404、EF36、NR49、VR56、KTW61、EF37A、5A/157D、CV358、CV5080、OM5B、W310A、57、STR4141、低噪声N6J8 锐截止五极管低频电压放大CV2901、6SJ7、6CF8、6267、EF16、EF86、2729 低噪声N 6J8P 锐截止五极管宽带电压放大*6ж8C、5693、EF6、EBC3、CV592 旁热式阴极6J9 锐截止五极管宽带电压放大*6ж9П、EF861 旁热式阴极6J20 锐截止五极管宽带电压放大*6ж20П空间电荷栅6J23 高互导双五极管宽带电压放大*6ж23П阴极框架栅6J23B-Q 锐截止五极管宽带电压放大*6ж23B-K 低振动噪声12J1S 锐截止五极管小功率放大*12ж1л氧化物阴极6K1B 遥截止五极管宽带电压放大*6K16K3P 遥截止五极管宽带电压放大*6K3、6SK7、6K7、KTZ63、CV1074、6D6、6SG7 旁热式阴极6K4 遥截止五极管宽带电压放大*6K4П、6BA6、6DA6、EF89/93、5749、6K5 旁热式阴极6K5 遥截止五极管宽带电压放大同6K4 旁热式阴极12K3P 遥截止五极管宽带电压放大12K3、12SK7/GT 旁热式阴极2P2 输出四极管低频功率放大2П2П、DL92、1S4T、1L33、1L34 直热式阴极2P3 束射四极管低频功率放大3A4、1662、CV807、DL93 直热式阴极2P19B 五极管功率放大直热式阴极2P29 直热式五极管功率放大*2、*2П29л氧化物阴极4P1S 直热式阴极功率放大*4П1л、4L2D 五极管6P1 束射四极管低频功率放大*6П1П、6AQ5、6BW6、6L31、EL14、90 旁热式阴极6P3P 束射四极管低频功率放大*6П3C、*6л6C、6L6、6L6G/GT、1614、1619、1622 同型：1631、6TT3C6P4P 束射四极管低频功率放大旁热式阴极6P6P 旁热式束射四极管低频功率放大*6П2、*6П6C、6Φ6、1611、1613、1621、6K6、CV509、6V6GT、CV510、CV1912、CV511、6N6C、KT636P9P 旁热式五极管宽带功率放大*6П9C、CV569 氧化物阴极6P13P 束射四极管低频功率放大*6П13C（旁热）旁热式阴极6P14P 旁热式五极管宽带功率放大*6П14П、6BQ5、N709、EL84、CV2975、7320、6L40 氧化物阴极6P15P 旁热式五极管低频功率放大6CH6、6CW5、EL180、EL821、CV2127、12BY7A 氧化物阴极6P25B 束射四极管低频功率放大*6П25Ь、EL71、5902 氧化物阴极6P30B-Q 束射四极管低频功率放大*6П30Ь-B（旁热）氧化物阴极6P31B-Q 束射四极管低频功率放大*6П31Ь-B（旁热）氧化物阴极13P1P 输出五极管低频功率放大*13П1C 旁热式阴极6S6 高S五极管电压/功率放大*6Э1П（旁热）氧化物阴极6T1 高频双四极管推挽输出QM322、5656 旁热式阴极6A2 七极电子管TUNER变频CV453、EK90、X77、*6A2П、6BE5、5750 旁热式阴极6F1 三极-五极管变频/电压放大*6Φ1П、6BL8、6C16 旁热式阴极6F2 三极-五极管变频/电压放大6Φ2П、6U8、6GH、CV5065、ECF82、6BL8 旁热式阴极6G2P 双二极-三极管检波、电压放大*6Γ2、6SQ7、6SQ7GT/G 旁热式阴极WE300B 直热式三极管功率放大300B、4300A 古典式低内阻FU-5 直热式三极管低频功率放大T100-1、RK57、ML714、NU-150、CV2622、CV2768 F123A、GL805、HF150、CV25FU-7 旁热式四极管大S功率放大QV05-25、RK39、HY-61、QE06-50、CV124、807 5B/250A、807V、5S1FU-13 直热束射四极管功率放大*гY-13、813、4B13 TT10、QY2-100、QB2、250、CV278、4T100 CV1927、3874A、5C/100AFU-15 直热束射五极管中功率放大*гY-15 氧化物热子FU-17 双束射四极管中功率放大*гY-17、CV3517、6360、QQV03-10、QQV03/12 旁热式阴极FU-25 旁热束射四极管宽带功率放大1625、FD-25 氧化物阴极FU-29 双束射四极管宽带功率放大*гY-29、829B 旁热式阴极FU-31 直热式三极管宽带功率放大2T26、826、826“RCA”钍钨阴极FU-32 双束射四极管宽带功率放大*гY-32、RS1019、TT20SRS4452、QQE03/20、P2-12 与FU-29类同FU-33 直热式三极管功率放大ES833、CV635、B142、3578、833A、5T33 钍钨阴极FU-46 旁热式五极管中功率放大QV06-20、P40、QE05/40、7212、6146、2B46 氧化物阴极FU-50 束射五极管宽带功率放大*гY-50、SRS552、P50/2 旁热式阴极FU-811 直热式三极管宽带功率放大*г-811、811A 钍钨阴极FU-250F 旁热式四极管宽带功率放大4C×250A 金属陶瓷型EL81 旁热式五极管功率放大6CJ6 氧化物阴极845 直热式三极管功率放大UV-845 Po≈100W6CY7 旁热式双二极管电压放大每组**管特性参数不同Rg< 100kΩ6CX8 旁热式三极管-五极管电压放大和P-K分割比6U9、6F2靓高S18045 旁热式五极管小型功放作耳机放大有极佳表现Po> 1W FC4 旁热式三极管电压放大*гC4 金属陶瓷管6C22D 旁热式三极管电压放大5876 金属陶瓷管6550 旁热束射四极管功率放大KT88 氧化物阴极KT100 旁热束射四极管功率放大KT94 氧化物阴极PL81 旁热式五极管功率放大21A6 氧化物阴极EL34 旁热式五极管功率放大6CA7、KT66 氧化物阴极2A3 直热式三极管功率放大*2C4、AD1、6A3、6B4G、6C4C 211 直热式三极管功率放大FD422 直热式五极管功率放大2E226C33C-B 旁热式三极管功率放大欧美电子管置换表0A2 AG52110A2 SR560B2 SR3108C1 OB210BQ5 YL8410C14 19D810CW5 LL8610CW5 YL8610DE7 9R-AL110DX8 LCL20010DX8 LCL8410DX8 YCL8410EB8 11JE810F18 13EC710F9 12AC510GN8 11JE810GV8 LCL8510HF8 11JE810JA8 11JE810JY8 11JE810LD13 14G610LD3 14L710LZ8 11JE810P18 45B510PL12 50BM811BM8 LCL8211JE8 10EB811JE8 10GN811JE8 10HF811JE8 10JA811JE8 10JY811R3 LY8111Y9 LFL200121VP 12AC512A6 ABC9112A8 OH412AC5 10F912AC5 121VP12AC5 HF12112AC5 UF4112AC5 W11812AC5 W14212AC5 W14512AD6 UF8912AD7 12AX712AF3 12BR312AH8 20D312AJ7 HCH8112AL5 HAA9112AT6 HBC9012AT7 A290012AT7 B15212AT7 B30912AT7 B73912AT7 E215712AT7 E81CC12AT7 ECC8112AT7 QB30912AT7WA CC81E 12AT7WA M8162 12AT7WA QS2406 12AT7WB QA2406 12AU6 HF9412AU7 12AX712AU7 B32912AU7 B74912AU7 E216312AU7 E82CC12AU7 ECC186 12AU7 ECC8212AU7A 12AX7 12AV6 12BC32 12AV7 12R-LL3 12AX7 12AD712AX7 12AU7A 12AX7 12AX7A 12AX7 12BZ712AX7 12DF712AX7 12DM7 12AX7 12DT712AX7 6L1312AX7 702512AX7 7025A12AX7 B33912AX7 B75912AX7 E216412AX7 ECC8312AX7A 12AX7 12AX7A M8137 12B-B14 13GB5 12BA6 12F3112BA6 HF9312BC32 12AV6 12BE6 12H3112BE6 HK9012BE7 UQ8012BQ6GT 12G-B6 12BR3 12AF312BR3 12R-K19 12BY7 EL18012BZ7 12AX712C8 VP12D12D4A 12G-K17 12DF7 12AX712DM7 12AX7 12DT7 12AX712DT7 ECC863 12E13 655012F31 12BA612FB5 30P1212FB5 PL80112FG6 UM8412FQ7 12R-LL5 12G-B3 12GW6 12G-B6 12BQ6GT 12G-B7 13CM5 12G-K17 12D4A12GW6 12G-B3 12H31 12BE6 12HU8 PLL80 12K7 W7612K7GT OF5 12K8 X71M12K8GT X76M 12Q7GT DH74 12Q7GT DH76 12R-K19 12BR3 12R-LL3 12AV7 12R-LL5 12FQ7 12S7 UAF42 12S7 WD142 12SN7GT B36 12SQ7 OBC3 12X4 HZ9013CM5 12G-B7 13CM5 XL36 13D2 6SN7GT 13D3 615813EC7 10F18 13EC7 W110 13EC7 W119 13GB5 12B-B14 13GB5 XL500 13GC8 30PL1 13GC8 30PL10 13GC8 LN319 13GC8 PCL801 141DDT 14L7 141TH 14K7 14F7 XXD14G6 10LD13 14G6 DH119 14G6 UBC80 14G6 UBC81 14GW8 PCL86 14K7 141TH 14K7 UCH42 14K7 X14214L7 10LD314L7 141DDT 14L7 DH11814L7 UBC41 14Y7 UCH80 14Z3 HZ50 150B2 6354 150C1 OA2 150C2 OA2 150C3 OD3 150C4 OA215A6 N15315A6 N30915A6 PL8315CW5 30P18 15CW5 N378 15CW5 N379 15CW5 PL84 15DQ8 PCL84 163PEN 16A5 16A 6AM516A5 163PEN 16A5 30P16 16A5 N15416A5 N32916A5 PL8216A8 30PL12 16A8 N36916A8 PCL82 16AQ3 XY88 16GK8 30PL13 16GK8 30PL14 16GK8 PCL800 16GK8 PCL88 16KH8 ECLL800 16Y9 PFL200 171DDP 17C8 17C8 171DDP 17C8 17N817C8 UBF80 17EW8 HCC85 17KW6 PL508 17N8 17C817Z3 A6117Z3 PY80017Z3 PY80117Z3 PY8317Z3 U15317Z3 U19317Z3 U25117Z3 U34918AK5 602818FX6 X10718GB5 LL500 18GD6 19M-R10 18GD6 19M-R9 18GV8 PCL85 19AJ8 19D819AQ5 HL9019BD 19X319CS4 PY301 19CS4 U19119CS4 U33919D8 10C1419D8 19AJ819D8 UCH8119D8 X11919FL8 UBF89 19KF6 N22LL 19M-R10 18GD6 19M-R9 18GD6 19SU 19Y319T8 HABC80 19U3 19X319W3 19X319X3 19BD19X3 19U319X3 19W319X3 PY8019X3 U15219X3 U30919Y3 19SU19Y3 PY8219Y3 U15419Y3 U19219Y3 U3191A3 1D131A3 DA901A3 DAF901A7GT DK32 1A7GT X14 1AB6 1C31AB6 1H35 1AB6 DK96 1AB6 DK97 1AB6 X251AC6 1C21AC6 DK92 1AC6 X181AC6 X201AD4 DF62 1AD4 DF652 1AD4 DF668 1AH5 1FD1 1AH5 DAF96 1AH5 ZD25 1AJ4 1F11AJ4 DF96 1AJ4 W25 1AN5 DAF97 1AN5 DF97 1AQ5 1H33 1AR5 1S5SF 1AS5 1U5SF 1B3GT DY30 1B3GT U41 1BG2 DY51 1BQ2 DY802 1C1 1R51C2 1AC61C3 1AB61C5GT DL35 1C5GT N14 1D13 1A31D5 40SUA 1E3 DC801F1 1AJ41F2 1L41F3 1T41F5G KL35 1FD1 1AH5 1FD9 1S51H2 1S21H33 1AQ5 1H33 1R5SF 1H35 1AB61H5GT DAC32 1H5GT HD14 1L4 1F21L4 DF921M1 1N31M3 DM70 1M3 Y251N3 1M11N3 DM711N5GT DF33 1N5GT Z141P1 3C41P10 3S41P11 3V41Q5GT DL36 1R5 1C11R5 DK911R5 X171R5SF 1H33 1R5^ 1H331RK23 1S21S2 1H21S2 1RK231S2 DY861S2A DY871S4 DL911S5 1FD91S5 DAC211S5 DAF911S5 DF261S5 ZD171S5SF 1AR5 1T2 R161T2 U371T4 1F31T4 DF911T4 W171U4 DF9041U4 HY1451U5SF 1AS51V6 DCF601W4 R31X2 1X2A1X2 1X2B1X2A 1X21X2A DY801X2A R191X2B 1X21X2B HD93 2050 BA22050 EN32 2050A 1G5020A3 2D2120AQ3 LY8820D3 12AH820D4 6AJ8213PEN 21A621A6 213PEN21A6 N15221A6 N35921A6 PL8121A6 PL82021KQ6 LL52125A6 KT3325BQ6GT 25G-B6 25BQ6GTB HD96 25BR3 25R-K19 25BR3 U32925E5 N30825E5 PL3625G-B6 25BQ6GT 25GF6 30P1925GF6 30P425GF6 N38925GF6 PL30225R-K19 25BR3 25W6GT KT32 25Z4GT U3127GB5 PL50027KG66 LL505 28EC4 LY50029KQ6 PL5212B35 6D12B35 EA502B35 T6D2D21 20A32D21 4G280K 2D21 ASG512 2D21 EN912D21 PL212D21 RL212ER5 XC952FY5 XC972HA5 XC900 2HR8 XCF86 2J2 R202J2 U262J2 U492X2 2X2A2X2 2Y22X2A 2X22X2A H2-10 2Y2 2X230A5 HL94 30AE3 PY88 30C1 9A830C1 9A830C15 9EN7 30C18 7GV7 30CW5 HL86 30F5 7ED730FL1 9GB8 30L1 7AN7 30L15 7EK7 30P12 12FB5 30P16 16A5 30P18 15CW5 30P19 25GF6 30P4 25GF6 30PL1 13GC8 30PL10 13GC8 30PL12 16A8 30PL13 16GK8 30PL14 16GK8 311SU 31A331A3 U118 31A3 U142 31A3 U145 31A3 UY41 31A3 UY42 31A3 V311 31A3 V312 32F 95635FN5 PL300 35W4 HY90 35Z4GT U74 35Z4GT U76 38A3 U119 38A3 U381 38A3 UT85 38A3 UY893A4 DL933A4 E14853A5 DCC90 3AJ8 XCH81 3AL5 XAA91 3AL5 XB913AU6 XF943B4 DL983B4 HD303BH2 GY501 3BX6 XF803BY7 XF853BZ6 3M-V7 3C4 1P13C4 DL963C4 N253C6 XXB3D6 DL293DK6 3M-R24 3EH7 XF183 3EJ7 XF184 3ER5 YC953FY5 LC973FY5 YC973HA5 LC900 3M-R24 3DK6 3M-V7 3BZ63Q4 N183Q5GT DL33 3Q5GT N15 3Q5GT N16 3S4 1P103S4 DL923S4 N173S4SF 3W4 3V4 1P113V4 DL943V4 N193W4 3S4SF 40KG6 PL505 40SUA 1D5 42EC4 PY500 451PT 45A5 45A5 451PT 45A5 BF451 45A5 N142 45A5 UL41 45B5 10P18 45B5 N119 45B5 UL844BL8 5R-HP1 4BL8 XCF80 4BS8 4R-HH2 4CM4 PC86 4DL4 PC884EH7 LF183 4EH7 YF183 4EJ7 LF184 4EJ7 YF184 4ES8 XCC189 4FY5 PC974G280K 2D21 4GJ7 4GX74GJ7 XCF801 4GK5 PC95 4GX7 4GJ74HA5 PC900 4HR8 PF864KN8 4R-HH8 4R-HH2 4BS84R-HH8 4KN8 4Y25 80750BM8 10PL12 50BM8 LN119 50BM8 UCL82 50C5 HL9250L6GT KT71 52KU 5Z4G54KU 5AQ4 55N3 UY82 5636 EF730 5642 DY70 5651A QS1209 5654 EF905 5654 M8100 5654 QM557 5670 6CC42 5672 DL620 5677 FA6 5678 DF60 5692 6CC10 5692 QA2408 5718 EC70 5718 EC71 5725 M8196 5725 QM558 5726 AA91E 5726 DD77 5726 E91AA 5726 EAA901 5726 M8079 5726 M8212 5726 QA2404 5726 QM559 5726 QS2404 5727 E91N 5727 M8204 5763 M8096 5763 QE03/10 5763 QV03-12 5783 85A3 5823 Z900T 5840 EF72 5840 EF7325847 6R-R8C 5847 E182F 5861 EC55 5894 QQE06/40 5899 EF71 5899 EF731 5901 EF732 5902 EL71 5911 DF67 5913 DL67 5920 E90C 5920 E90CC5A/160H 6AM6 5AQ4 54KU5AR4 GZ345AR4 U775B/250A 8075CG4 OSW3107 5ES8 LCC1895ES8 YCC1895GJ7 LCF8015HG8 LCF865HG8 YCF865J2 KY805J6 5M-HH35L509 6KG6A5M-HH3 5J65P29 6CN65R-HP1 4BL85S1 8075U4G 5Z105U4G GZ315U4G U525U4GB H525U8 XCF825U9 LCF2015V4GA GZ325V9 LCH2005W4GT U515X9 LCF2005Y3GT U505Z10 5U4G5Z4 RS25Z4G GZ305Z4G OSW3107 5Z4G R526/30L2 6GA8 6005 M8245 6007 DL67 6008 DF67 6021 ECC70 6028 18AK5 6057 ECC803 6060 ECC801 6063 EZ900 6079 QB5/1750 6080 ECC230 6084 E80F 6085 E80CC 6135 QA2401 6146 QE05/40 6146 QV06-20 6158 13D3 6159 QE05/40H 6189 ECC802 6189 M8136 6201 E81CC 6201 QA2407 6205 EF734 6218 E80T 6227 E80L 6252 QQE03/20 6252 QQV03-20 6267 6CF8 6267 6F22 6267 8D8 6267 EF86 6267 EF87 6267 Z72962DDT 6CV7 62TH 6CU762VP 6CJ5 6351 X319 6354 150B2 6360 QQE03/12 6360 QQV03-106374 EY84 6375 DC70 6391 EF7463TP 6AB8 6463 ECC813 6487 EF70 6488 EF73 6489 EA7664ME 6CD764SPT 6BX4 6550 12E13 6550 7D11 6550 KT8865ME 6BR5 6681 E83CC 6686 E81L 6687 E91H 6688 E180F 6689 E83F66KU 6BT467PT 6CK5 6922 E88CC 6939 QQE02/5 6939 QQV02-6 6977 DM1606A6 B636A8 6Q86A8 PH46AB X636AB4 EC926AB8 63TP6AB8 ECL806AB8 LN1526AC7 6F106AC7 OSW2190 6AC7 OSW2600 6AD8 EBF816AE8 X796AF4 6T16AF4 EC946AG5 EF966AG6 6P256AG6G BVA2646AG7 6L106AG7 OSW2192 6AG7 OSW2601 6AG8 B7296AH6 6F366AJ4 EC846AJ5 6F356AJ8 20D46AJ8 6C126AJ8 6CH406AJ8 ECH816AJ8 X7196AJ9 ECF2026AK5 6F326AK5 DP616AK5 E95F6AK5 EF956AK5 PM056AK6 PM956AK8 6LD126AK8 DH7196AK8 EABC80 6AL3 EY836AL3 EY886AL5 6B326AL5 6D26AL5 D1526AL5 D2M96AL5 D7176AL5 D776AL5 DD66AL5 EAA916AL5 EB916AL5 ED26AM5 16A6AM5 6P176AM5 7D96AM5 DD76AM5 DDR76AM5 EL916AM5 N1446AM5 N476AM5 N776AM5 V8866AM6 5A/160H6AM6 6F116AM6 6F126AM6 8D36AM6 EF916AM6 HP66AM6 M80636AM6 PM076AM6 QZ776AM6 R1446AM6 S6F126AM6 SP66AM6 Z776AN7 ECH806AQ4 6L346AQ4 EC916AQ5 6L316AQ5 BPM046AQ5 EL906AQ5 N7276AQ6 6BK66AQ8 6CC436AQ8 6L126AQ8 B7196AQ8 ECC856AS6 6F336AS7G A1834/5998/6080/6082/6520/7105/7236/6336/6394/6528 6AT6 6BK66AT6 DH776AT6 EBC906AT7N 6DT86AU4GT 6G-K176AU6 EF946AV3 6R-K196AV4 EZ916AV4^ 6FX46AV6 6BC326AV6 6BK66AV6 EBC916B32 6AL56B8 EBF326BA6 6F316BA6 PM046BA6 W7276BC32 6AV66BD7 6LD136BD7 EBC806BD7 EBC816BD7A EBC36BE6 6H316BE6 EK906BE6 HM046BE6 X7276BE6 X776BE7 EQ806BH5 EF816BH6 E90F6BJ5 N786BJ6 E99F6BK6 6AQ66BK6 6AT66BK6 6AV66BK6 6BT66BK8 EF836BL8 6C166BL8 ECF806BM5 6P96BM8 6LP126BM8 6PL126BM8 6PL126BM8 ECL826BN5 EL856BN5 N1556BQ5 6P156BQ5 EL846BQ5 N7096BQ6GT 6G-B3A 6BQ6GTB HD94 6BQ7A ECC180 6BR5 65ME6BR5 EM806BR7 8D56BS4 EC936BS7 8D76BS8 6R-HH26BT4 EZ40 6BT4 MU14 6BT4 U150 6BT4 U718 6BT4 UU5 6BT4 UU9 6BT4 V616BT6 6BK6 6BW7 8D6 6BX4 64SPT 6BX4 6Z46BX6 EF80 6BX6 Z152 6BX6 Z719 6BY7 6F19 6BY7 6F26 6BY7 EF85 6BY7 W719 6BZ8 X155 6C12 6AJ8 6C15 6CJ5 6C16 6BL8 6C18 6GV7 6C31 6K86C4 EC906C4 L776C4 QL776C4 V7416C6 A6776C6 G776C6 T776CA4 6V46CA4 EZ46CA4 EZ81 6CA4 U709 6CA4 UU12 6CA7 EL34 6CA7 KT77 6CB6 EF190 6CC10 5692 6CC31 6J6 6CC42 5670 6CC43 6AQ86CD7 6M26CD7 EM34 6CF8 62676CH40 6AJ8 6CH6 7D10 6CH6 ECL821 6CH6 EF826CH6 EL821 6CH6 EL822 6CJ5 62VP6CJ5 6C156CJ5 6F156CJ5 6F166CJ5 7F166CJ5 EBF41 6CJ5 EF416CJ5 HF616CJ5 W1506CJ6 EL816CK5 67PT6CK5 BF616CK5 EL416CK5 N1506CK6 EL803 6CK6 EL820 6CK6 EL836CL6 6L436CM4 EC806S 6CM4 EC86 6CM5 EL36 6CN6 5P296CN6 EL386CQ6 6F216CQ6 9D66CQ6 E2016 6CQ6 EF926CQ6 QW77 6CQ6 V177 6CQ6 V884 6CQ6 VP66CQ6 W776CR4 A2521 6CS6 EH906CT7 EAF42 6CT7 WD150 6CU7 62TH6CU7 ECH113 6CU7 ECH42 6CU7 X1506CU7 Z1506CV7 62DDT 6CV7 6LD36CV7 DH150 6CV7 DH718 6CV7 DH817 6CV7 EBC41 6CW5 EL866CW7 6L166CW7 ECC84 6D-HH13 6FX7 6D1 2B356D2 6AL56D4 EN936D8 X736D8 X73M6DA5 EM816DA6 EF136DA6 EF896DC8 6FD12 6DC8 EBF85 6DC8 EBF89 6DG7 E89F6DG7 EF89F 6DG7 EM85 6DJ8 ECC886DL4 E88C6DL4 EC886DL5 EL956DQ6A 6G-B6 6DR8 EBF83 6DS8 ECH83 6DT8 6AT7N 6DX8 ECL84 6DY5 EL826E5 6S5G6E5 OSW31106E8 X656E8G ECH35 6E8G TH62 6E8G X147 6E8G X61M 6EC4 EY500 6EC7 6F18 6EC7 W739 6ED4 ED500 6EH7 6F29 6EH7 EF183 6EH7 EF811 6EJ7 6F246EJ7 6F256EJ7 6F306EJ7 EF184 6EJ7 EF814 6EL7 6F236EL7 EF812 6EL7 Z749 6ER5 EC95 6ES6 EF97 6ES8 ECC189 6ET6 EF98 6EW6 6GM6 6EW6 6HS6 6F10 6AC7 6F11 6AM6 6F12 6AM6 6F15 6CJ56F16 6CJ56F18 6EC7 6F19 6BY7 6F21 6CQ6 6F22 6267 6F23 6EL76F24 6EJ76F25 6EJ76F26 6BY7 6F29 6EH7 6F30 6EJ76F31 6BA6 6F32 6AK56F35 6AJ56F36 6AH66F5GT H636F6G KT636FC7 ECC896FD12 6DC86FG6 EM846FG6 EM8406FN5 EL3006FX4 6AV46FX7 6D-HH13 6FY5 EC976G-B3A 6BQ6GT 6G-B6 6DQ6A 6G-B9 6GW66G-K17 6AU4GT 6GA8 6/30L26GA8 ECC8046GB5 EL5006GB5 EL5046GJ7 ECF8016GM6 6EW66GM8 CC86E6GM8 ECC866GV7 6C186GV7 ECF8056GV8 ECL856GW6 6G-B96GW8 ECL866GX8 EAM866H31 6BE66H6 D636H6 EB346H6 OM36H6 OSW3109 6HA5 EC9006HA5 ECC9006HG8 ECF866HG8 ELF866HS6 6EW66HT5 N2ED6HU6 EM876HU8 ELL806J4 TM126J4WA M8232 6J5 L636J5 L63B6J5 OSW3112 6J6 6CC316J6 6M-HH3 6J6 ECC916J6 M80816J6 T2M056J7 EF366J7 TTZ636J7 Z636J7GT A8636J7GT EF376J7GT KTW63 6J7GT KTZ63M 6JE6B 6JE6C 6JE6C 6JE6B 6JE6C 6LQ66JW8 6LX86JW8 ECF802 6JX8 ECH846K6 6K6G6K6 6K6GT6K6 6K6GT/G 6K6 6K6MG6K6G 6K66K6GT 6K66K6GT N636K6GT/G 6K6 6K6MG 6K66K7 EF396K7 OM66K7 PF96K7 W1476K7 W616K7 W636K7GT KTZ63 6K8 6C316KG6 EL5056KG6A 5L509 6KN8 6R-HH86KV6A 6KV6 6KW6 EL508 6L10 6AG7 6L12 6AQ8 6L13 12AX7 6L16 6CW7 6L31 6AQ5 6L34 6AQ4 6L43 6CL66L6 EL376L6GC DL37 6L6GC KT66 6L6GT N66 6L7 X646LC6 6LH66LC6 6LH6A 6LD12 6AK8 6LD13 6BD7 6LD3 6CV7 6LD6 EL802 6LF6 6LV66LF6 N30EL 6LH6 6LC66LH6A 6LC6 6LN8 LCF80 6LP12 6BM8 6LQ6 6JE6C 6LV6 6LF66LX8 6JW8 6LX8 LCF802 6M-H1 6J4 6M-HH3 6J6 6M1 6U5G 6M2 6CD76M5 EL806M6G EL33 6M6G KT61 6M6G N147 6M6G PP6BG 6N3 6U36N3 EY826N8 EBF80 6N8 WD7096P15 6BQ56P17 6AM56P25 6AG66P9 6BM56PL12 6BM86PL12 6BM86Q4 EC806Q7 DH636Q8 6A86R-HH2 6BS8 6R-HH8 6KN8 6R-K19 6AV36R-R8C 58476R3 EY816R3 6V3P6R4 EC226R4 EC816S2 EY866S2A EY876S5G 6E56S7 OF16S7 OM56SA7 OSW3104 6SA7GT MV6-5 6SK7 OSW3111 6SL7 ECC356SN7GT 13D2 6SN7GT B656SN7GT ECC32 6SN7GT QB65 6SQ7 OSW3105 6T1 6AF46U3 6N36U3 EY806U5 EM356U5 Y646U5G 6M16U8 ECF826U9 ECF2016V3 EY81F6V3P 6R36V4 6CA46V4 EZ116V4 EZ806V6GT OSW3106 6V9 ECH2006W7G^ 8D46X2 EY516X2 R126X2 SU616X2 U1516X2 U436X2 U456X4 6Z316X4 E9026X4 E90Z6X4 EZ906X4 U7076X4 U786X4 V2M706X4W QM5566X4W QM5566X5G EZ356X5G U1476X5G U706X9 ECF2006Y9 EFL2006Z3 AD6Z31 6X46Z4 6BX47025 12AX7 7025A 12AX7 7062 E180CC 7119 E182CC 7308 E188CC 7320 E84L 7534 E130L 7534 E180L 7643 E80CF 7722 E280F 7737 E186F 7788 E810F7A7 EF227A7 W1437A7 W1487A7 W817AN7 B139 7AN7 B319 7AN7 PCC84 7AU7 PCC186 7AU7 XCC82 7B6 DH817B6 DL827B7 W1497C5 N1487C6 DH149 7D10 6CH6 7D11 65507D9 6AM57DJ8 PCC88 7ED7 30F57ED7 Z3297EK7 30L15 7EK7 B3497EK7 PCC805 7ES8 PCC189 7F16 6CJ57FC7 PCC89 7GV7 30C18 7GV7 PCF805 7J7 C6107S7 X1487S7 X817X7 XXFM7Y4 EZ227Y4 U1497Y4 U82 807 2B/250A 807 4Y25 807 5B/250A 807 5S1807 ARS25A 807 ATS225A 807 P17A 807 QE06/50 807 QV05-25 8223 E288CC 8228 ZZ1000 8233 E55L8255 E88C 8255 EC88 8278 EL503 8278 F1EL 83 VT8383 WT301 8453 Z550M 85A1 OE3 85A2 OG3 85A3 5783 8A8 9U88B8 8R-HP1 8B8 XCL828BQ5 XL84 8CW5 XL86 8D3 6AM68D4 6W7G 8D5 6BR78D6 6BW78D7 6BS78D8 62678GJ7 PCF801 8GJ7 PCF806 8HG8 PCF86 8R-HP1 8B8 8U9 PCF201 8X9 PCF200 954 E1F954 UN954 954 ZA2 955 UN955 956 32F957 D1C 958A D2C 959 D3F9A8 30C19A8 30C19A8 9U89A8 LZ3199A8 LZ3299A8 PCF80 9AK8 PABC80 9AQ8 PCC859D6 6CQ69EA8 9U89ED4 PD5009EN7 30C159EN7 LZ3399EN7 PCF800 9GB8 30FL19GB8 PCE800 9GH8A 9R-HH2 9GV8 XCL859JW8 PCF802 9P9 9BM59R-AL1 10DE7 9R-HH2 9GH8A 9U8 8A89U8 9A89U8 9EA89U8 9U8A9U8 PCF829U8A 9U89V9 PCH200A1834 6AS7G A2521 6CR4A2900 12AT7 A61 17Z3A677 6C6A863 6J7GT AA91E 5726 ABC91 12A6 AD 6Z3AG5211 0A2 ARS25A 807 ASG512 2D21 ATS225A 807 B139 7AN7B152 12AT7B309 12AT7B319 7AN7B329 12AU7B339 12AX7B349 7EK7B36 12SN7GT B63 6A6B719 6AQ8B729 6AG8B739 12AT7B749 12AU7B759 12AX7BA2 2050BF451 45A5BF61 6CK5 BPM04 6AQ5 BVA264 6AG6G BVA265 6AG6G C610 7J7CC81E 12AT7WA CC86E 6GM8D152 6AL5D1C 957D2C 958AD2M9 6AL5D3F 959D61 6CT7D63 6H6D717 6AL5D77 6AL5DA90 1A3 DAC21 1S5 DAC32 1H5GT DAF90 1A3 DAF91 1S5 DAF92 1U5 DAF96 1AH5 DAF97 1AN5 DC70 6375DC80 1E3DCC90 3A5 DCF60 1V6DD6 6AL5DD7 6AM5DD77 5726 DDR7 6AM5DF26 1S5DF33 1N5GT DF60 5678DF62 1AD4DF668 1AD4 DF67 5911 DF67 6008 DF904 1U4 DF91 1T4DF92 1L4DF96 1AJ4 DF97 1AN5 DH118 14L7 DH119 14G6 DH142 14L7 DH149 7C6 DH150 6CV7 DH63 6Q7 DH718 6CV7 DH719 6AK8 DH74 12Q7GT DH76 12Q7GT DH77 6AT6 DH81 7B6 DH817 6CV7 DK32 1A7GT DK91 1R5DK92 1AC6 DK96 1AB6 DK97 1AB6 DL29 3D6DL31 1A5G DL33 3Q5GT DL35 1C5GT DL36 1Q5GT DL37 6L6GC DL620 5672 DL67 5913 DL67 6007 DL82 7B6DL91 1S4DL92 3S4DL93 3A4DL94 3V4DL95 3Q4DL96 3C4DL98 3B4DM70 1M3 DM71 1N3 DP61 6AK5 DY30 1B3GT DY51 1BG2 DY70 5642 DY80 1X2A DY802 1BQ2 DY86 1S2 DY87 1S2AE130L 7534 E1485 3A4E180CC 7062 E180F 6688 E180L 7534 E182CC 7119 E182F 5847 E186F 7737 E188CC 7308 E1F 954E2016 6CQ6 E2157 12AT7 E2163 12AU7 E2164 12AX7 E280F 7722 E288CC 8223 E55L 8233E80CC 6085 E80CF 7643 E80F 6084E80L 6227E80T 6218E810F 7788 E81CC 12AT7 E81CC 6201 E81L 6686E82CC 12AU7 E83CC 6681 E83F 6689E84L 7320E88C 6DL4E88C 8255E88CC 6922E902 6X4E90C 5920E90CC 5920 E90F 6BH6E90Z 6X4E91AA 5726 E91H 6687E91N 5727E95F 6AK5E99F 6BJ6 EA41 6CT7 EA50 2B35 EA76 6489 EAA901 5726 EAA91 6AL5 EABC80 6AK8 EAF41 6CT7 EAF42 6CT7 EAM86 6GX8 EB34 6H6 EB91 6AL5 EBC3 6BD7A EBC41 6CV7 EBC80 6BD7 EBC81 6BD7 EBC90 6AT6 EBC91 6AV6 EBF32 6B8 EBF41 6CJ5 EBF80 6N8 EBF81 6AD8 EBF83 6DR8 EBF85 6DC8 EBF89 6DC8 EC1000 8254 EC22 6R4 EC55 5861 EC70 5718 EC71 5718 EC80 6Q4 EC806S 6CM4 EC81 6R4 EC84 6AJ4EC88 6DL4 EC88 8255 EC90 6C4EC900 6HA5 EC91 6AQ4 EC92 6AB4 EC93 6BS4 EC94 6AF4 EC95 6ER5 EC97 6FY5 ECC180 6BQ7A ECC186 12AU7 ECC189 6ES8 ECC230 6080 ECC32 6SN7GT ECC35 6SL7 ECC70 6021 ECC801 6060 ECC802 6189 ECC803 6057 ECC804 6GA8 ECC81 12AT7 ECC813 6463 ECC82 12AU7 ECC83 12AX7 ECC84 6CW7 ECC85 6AQ8 ECC86 6GM8 ECC863 12DT7 ECC88 6DJ8 ECC89 6FC7 ECC900 6HA5 ECC91 6J6 ECF200 6X9 ECF201 6U9 ECF202 6AJ9 ECF80 6BL8 ECF801 6GJ7 ECF802 6JW8 ECF805 6GV7 ECF82 6U8 ECF86 6HG8 ECH113 6CU7ECH35 6E8G ECH42 6CU7 ECH80 6AN7 ECH81 6AJ8 ECH82 6E8 ECH83 6DS8 ECH84 6JX8 ECL80 6AB8 ECL82 6BM8 ECL821 6CH6 ECL84 6DX8 ECL85 6GV8 ECL86 6GW8 ECLL800 16KH8 ED2 6AL5ED500 6ED4 EF13 6DA6EF183 6EH7 EF184 6EJ7EF190 6CB6 EF22 7A7EF36 6J7EF37 6J7GT EF39 6K7EF41 6CJ5EF70 6487EF71 5899EF72 5840EF73 6488EF730 5636 EF731 5899 EF732 5840 EF732 5901 EF734 6205 EF74 6391EF80 6BX6EF81 6BH5EF811 6EH7 EF812 6EL7 EF814 6EJ7EF82 6CH6EF83 6BK8EF85 6BY7EF87 6267 EF89 6DA6 EF89F 6DG7 EF905 5654 EF91 6AM6 EF92 6CQ6 EF93 6BA6 EF94 6AU6 EF95 6AK5 EF96 6AG5 EF97 6ES6 EF98 6ET6 EFL200 6Y9 EH90 6CS6 EK90 6BE6 EL180 12BY7 EL300 6FN5 EL33 6M6G EL34 6CA7 EL36 6CM5 EL37 6L6 EL38 6CN6 EL41 6CK5 EL500 6GB5 EL503 8278 EL504 6GB5 EL505 6KG6 EL508 6KW6 EL71 5902 EL80 6M5 EL802 6LD6 EL803 6CK6 EL81 6CJ6 EL82 6DY5 EL820 6CK6 EL821 6CH6 EL822 6CH6 EL83 6CK6 EL84 6BQ5 EL85 6BN5 EL86 6CW5 EL90 6AQ5 EL91 6AM5ELF86 6HG8 ELL80 6HU8 EM34 6CD7 EM35 6U5 EM80 6BR5 EM81 6DA5 EM84 6FG6 EM840 6FG6 EM85 6DG7 EM87 6HU6 EN32 2050 EN91 2D21 EN93 6D4 EQ80 6BE7 EY500 6EC4 EY51 6X2EY80 6U3EY81 6R3EY81F 6V3 EY82 6N3EY83 6AL3 EY84 6374 EY86 6S2EY87 6S2A EY88 6AL3 EZ11 6V4EZ22 7Y4EZ3 6V4EZ35 6X5G EZ4 6CA4EZ40 6BT4 EZ80 6V4EZ81 6CA4 EZ90 6X4EZ900 6063 EZ91 6AV4F1EL 8278 FA6 5677G/50/4K OA2 G105/1D OC3 G150/3D OD3 G75/2D OA3 G77 6C6GZ30 5Z4GGZ31 5U4GGZ32 5V4GA GZ34 5AR4H2-10 2X2AH52 5U4GBH63 6F5GT HAA91 12AL5 HABC80 19T8 HBC90 12AT6 HBC91 12AV6 HCC85 17EW8 HCH81 12AJ7 HD14 1H5GT HD30 3B4HD51 OA2HD52 OB2HD93 1X2BHD94 6BQ6GTB HD96 25BQ6GTB HF121 12AC5 HF61 6CJ5HF93 12BA6HF94 12AU6 HK90 12BE6HL86 30CW5 HL90 19AQ5HL92 50C5HL94 30A5HM04 6BE6HP6 6AM6HY145 1U4HY90 35W4HZ50 14Z3HZ90 12X4KD21 OA3KD24 OC3KD25 OD3KL35 1F5GKT32 25W6GT KT33 25A6KT61 6M6GKT63 6F6GKT71 50L6GT KT77 6CA7 KT88 6550 KTW63 6J7GT KTZ63 6K7GT KTZ63M 6J7GT KY80 5J2L63 6J5L63B 6J5L77 6C4LC900 3HA5 LC97 3FY5 LCC189 5ES8 LCF200 5X9 LCF201 5U9 LCF80 6LN8 LCF801 5GJ7 LCF802 6LX8 LCF86 5HG8 LCH200 5V9 LCL200 10DX8 LCL82 11BM8 LCL84 10DX8 LCL85 10GV8 LF183 4EH7 LF184 4EJ7 LFL200 11Y9 LL500 18GB5 LL505 27KG66 LL521 21KQ6 LL86 10CW5 LN119 50BM8 LN152 6AB8 LN319 13GC8 LY500 28EC4 LY81 11R3LY88 20AQ3 LZ319 9A8LZ329 9A8LZ339 9EN7M8063 6AM6 M8079 5726 M8081 6J6M8100 5654M8121 5840M8136 6189M8137 12AX7A M8162 12AT7WA M8196 5725M8204 5727M8212 5726M8223 OA2WA M8224 OB2WA M8232 6J4WAM8245 6005 MU14 6BT4MV6-5 6SA7GT N119 45B5N14 1C5GTN142 45A5N144 6AM5N147 6M6GN148 7C5N15 3Q5GTN150 6CK5N152 21A6N153 15A6N154 16A5N155 6BN5N16 3Q5GTN17 3S4N18 3Q4N19 3V4N22LL 19KF6N25 3C4N2ED 6HT5N308 25E5N309 15A6N30EL 6LF6N329 16A5N359 21A6N369 16A8N378 15CW5N379 15CW5N389 25GF6N47 6AM5N66 6L6GTN709 6BQ5N727 6AQ5N77 6AM5N78 6BJ5OA2 150C1OA2 150C2OA2 150C4OA2 G/50/4K OA2 HD51OA2 QS1207 OA2 S856OA2 SM150-30 OA2 STR108/30 OA2 STR150/30 OA2 STV150/30 OA2WA M8223 OA2WA QS1210 OA3 G75/2D OA3 KD21OA3 QS1205 OA4G PL1267 OA4G RL1267 OA4G Z300T OB2 108C1OB2 HD52OB2 QS1208 OB2 S860OB2 SR55OB2 STV108/30 OB2WA M8224 OB2WA QS1211 OBC3 12SQ7 OC3 G105/1D OC3 KD24OC3 QS1206 OD3 150C3 OD3 G150/3D OD3 KD25OD3 QS150/40 OD3 VR150 OE3 85A1OF1 6S7OG3 85A2OG3 SR2OG3 STR85/10 OG3 STV85/10 OH4 12A8OM3 6H6OM5 6S7OM6 6K7OSW2190 6AC7 OSW2192 6AG7 OSW2600 6AC7 OSW2601 6AG7 OSW3104 6SA7 OSW3105 6SQ7 OSW3106 6V6GT OSW3107 5CG4 OSW3107 5Z4G OSW3109 6H6 OSW3110 6E5 OSW3111 6SK7 OSW3112 6J5P17A 807 PABC80 9AK8 PC86 4CM4PC88 4DL4PC900 4HA5PC95 4GK5PC97 4FY5 PCC186 7AU7 PCC189 7ES8 PCC805 7EK7 PCC84 7AN7 PCC85 9AQ8 PCC88 7DJ8 PCC89 7FC7 PCE800 9GB8 PCF200 8X9 PCF201 8U9 PCF80 9A8PCF800 9EN7 PCF801 8GJ7 PCF802 9JW8 PCF805 7GV7。

一）、一般电子管的编号（包括接收放大管、小功率整流管、小型振荡管）第一部分：表示灯丝电压伏特数的整数部分：0表示冷阴极1表示灯丝电压为0.7~1.2V2表示灯丝电压为2.2~2.5V3表示灯丝电压为2.8V4表示灯丝电压为4.2V或4.4V5表示灯丝电压为5V6表示灯丝电压为6.3V12表示灯丝电压为12.6V灯丝电压在20V以上时，用实际电压数值表示，例如35则表示35V。

第二部分：表示电子管类型的字母：D表示“二极管”H表示“双二极管”G表示“双二极三极管”B表示“双二极五极管”C表示“三极管”N表示“双三极管”F表示“三极五极管”S表示“四极管”J表示“锐截止五极管和锐截止束射四极管”K表示“遥截止五极管”T表示“双四极管和输出束射四极管”V表示“二次放射管”P表示“输出五极管和输出束射四极管”A表示“变频管”U表示“三极六极管、三极七极管、三极八极管”L表示“横向偏转射线管”E表示“调谐指示管”Z表示“小功率整流二极管”第三部分：表示同类型管序号的数字，无特殊意义。

第四部分：表示电子管的外形结构形式的字母P表示普通玻璃管K表示陶瓷管J表示“橡实”管G表示外径大于11毫米的超小型管B表示外径为8~11毫米的超小型管A表示外径大于4，小于8毫米的超小型管R表示外径为4毫米和4毫米以下的超小型管S表示销式管D表示盘封管（灯塔管）无代号的，外径为19毫米和22.5毫米的小型管，俗称拇指管，例如6N1、6N2、6N3、6N4、6N6、6N10、6N11（二）高压、大功率整流二极管和充气整流管以及闸流管的编号第一部分：表示电子管类型的字母：E表示真空高压整流二极管EM表示真空脉冲整流二极管EQ表示充气整流二极管EG表示充汞整流二极管Z表示冷阴极闸流管ZQ表示充气闸流管ZG表示汞气闸流管ZQM表示脉冲充气闸流管H表示汞整流管（液体汞阴极）Y表示引燃管第二部分：表示同类型管序号的数字。

第三部分：没有代号（用破折号“—”表示）。

国内外常用电子管代换大全专业音响知识2008-06-1220:54阅读185评论0字号：大中小一、常用型号、用途及代换常用型号管芯结构主要用途国外同类型号代备注5X4G直热式双阳极二极管小功率全波整流氧化物阴极5Z3P直热式双阳极二极管小功率全波整流5T4、5ц3C、CV1861、5R4GY、U52、CV1071、5V3、5AU4、5U4G 氧化物阴极5Z4P旁热式双阳极二极管小功率全波整流*5B×1、*5ц4C，GZ30、CV2748、5Z4G/GT氧化物阴极5Z1P直热式双阳极二极管小功率全波整流氧化物阴极5Z2P直热式双阳极二极管小功率全波整流5W4、5Y3G、80、U50氧化物阴极5Z8P旁热式双阳极二极管全波整流*5ц8C氧化物阴极5Z9P旁热式双阳极二极管全波整流*5ц9C氧化物阴极6Z4旁热式双阳极二极管全波整流*6ц4П、6B×4、6×4、6Z31共阴极6Z5P旁热式双阳极二极管小功率全波整流*6ц5C共阴极6H2旁热式双阳极二极管检波、整流*6×2П、6AL5、C氧化物阴极6C1旁热式三极管宽带电压放大*6C1П、CV664、9002氧化物阴极6C3旁热式三极管宽带电压放大*6C3П阴地三极管6C4旁热式三极管宽带电压放大*6C4П栅地三极管6C5P旁热式三极管低频电压放大6C5GT、*6C5C、6C5、CV1067、L63氧化物阴极6C6B旁热式三极管低频电压放大5703、CV3917、*6C6Ь氧化物阴极6C7B旁热式三极管低频电压放大*6C7Ь氧化物阴极6C12旁热式三极管宽带电压放大EC88、5842高S、低N6C31B-Q旁热式三极管电压放大*6C31Ь-B氧化物阴极6C32B-Q旁热式三极管电压放大*6C32Ь-B遥截止三极管6N1旁热式双三极管低频电压放大*6H1П、6AQ8、AA61、ECC40/82氧化物阴极6N2旁热式双三极管低频电压放大*6H2П、6AX7、6AV7、ECC41氧化物阴极6N3旁热式双三极管低频电压放大*6H3П、6A8Q、2C51、ECC42氧化物阴极6N4旁热式双三极管低噪声电压放大ECC83、12A×7高μ、低N6N5P旁热式双三极管低频功率放大*6H13C、6AS7、CV2523、6NS7G/GT低Ri6N6（T）旁热式双三极管低频电压放大*6H6П、E182CC、12BH7氧化物阴极6N7P旁热式双三极管低频功率放大6H7、*H7C、6N7/G/GT共阴极6N8P旁热式双三极管低频电压放大*6H8C*6H8M、6SN7、6F8G、CV181、QB65、ECC32氧化物阴极6N9P旁热式双三极管低频电压放大*6H9C、6SL7、ECC35、6SC7、6CY7高μ6N10旁热式双三极管低频电压放大*6H10M、12AV7A、E82CC、CV491氧化物阴极6N11旁热式双三极管宽带电压放大*6H23П、6DJ8、ECC84、E88CC、6922、CV2492高S、低RI、N 6N12P旁热式双三极管低频电压放大*6H12C、TS229、5687氧化物阴极6N13P旁热式双三极管低频功率放大*6H13C、6AS7、CV2523、6NS7G/GT低内阻6N15旁热式双三极管低频电压放大*6H15П、6J6WA、6CC31、CV858共阴极6N16B旁热式双三极管低频电压放大氧化物阴极6N17B旁热式双三极管低频电压放大*6H17Ь、6112、CV5007氧化物阴极6N21B-Q旁热式双三极管低频电压放大氧化物阴极6N23旁热式双三极管低频电压放大6DJ8、ECC88、PCC88高μ低N6J1旁热锐止五极管宽带电压放大*6ж1П、6AK5、6BC5、EF40、EF95、CV850高频管6J1B锐截止五极管宽带电压放大*6ж1Ь、CV3929、61489、CK5702/7083旁热式阴极6J2锐截止五极管宽带电压放大*6ж2П、6AS6、CV2522、EF11/732、CV4011旁热式阴极6J2B锐截止五极管宽带电压放大*6ж2Ь、CK5639旁热式阴极6J3锐截止四极管宽带电压放大*6ж3П、EF96、CV848、6BC6、6AG5束射四极管6J4锐截止五极管宽带电压放大*6ж4、6136、6BX6、6AC7、EF94旁热式阴极6J4P锐截止五极管宽带电压放大*6ж4C、CV849、1852旁热式阴极6J5锐截止高频管宽带电压放大*6ж5П、EF80、CV2521、6F36、6AH6高S、束射四极管6J7旁热式阴极五极管低频电压放大6*7、OM5C、KTW61、EF37A、W310A、57、STR4141、低噪声N 6J8锐截止五极管低频电压放大CV2901、6SJ7、6CF8、6267、EF16、EF86、2729低噪声N6J8P锐截止五极管宽带电压放大*6ж8C、5693、EF6、EBC3、CV592旁热式阴极6J9锐截止五极管宽带电压放大*6ж9П、EF861旁热式阴极6J20锐截止五极管宽带电压放大*6ж20П空间电荷栅6J23高互导双五极管宽带电压放大*6ж23П阴极框架栅6J23B-Q锐截止五极管宽带电压放大*6ж23B-K低振动噪声12J1S锐截止五极管小功率放大*12ж1л氧化物阴极6K1B遥截止五极管宽带电压放大*6K16K3P遥截止五极管宽带电压放大*6K3、6SK7、6K7、KTZ63、CV1074、6D6、6SG7旁热式阴极6K4遥截止五极管宽带电压放大*6K4П、6BA6、6DA6、EF89/93、5749、6K5旁热式阴极6K5遥截止五极管宽带电压放大同6K4旁热式阴极12K3P遥截止五极管宽带电压放大12K3、12SK7/GT旁热式阴极2P2输出四极管低频功率放大2П2П、DL92、1S4T、1L33、1L34直热式阴极2P3束射四极管低频功率放大3A4、1662、CV807、DL93直热式阴极2P19B五极管功率放大直热式阴极2P29直热式五极管功率放大*2、*2П29л氧化物阴极4P1S直热式阴极功率放大*4П1л、4L2D五极管6P1束射四极管低频功率放大*6П1П、6AQ5、6BW6、6L31、EL14、90旁热式阴极6P3P束射四极管低频功率放大*6П3C、*6л6C、6L6、6L6G/GT、1614、1619、1622同型：1631、6TT3C 6P4P束射四极管低频功率放大旁热式阴极6P6P旁热式束射四极管低频功率放大*6П2、*6П6C、6Φ6、1611、1613、1621、6K6、CV509、6V6GT、CV510、CV1912、CV511、6N6C、KT636P9P旁热式五极管宽带功率放大*6П9C、CV569氧化物阴极6P13P束射四极管低频功率放大*6П13C（旁热）旁热式阴极6P14P旁热式五极管宽带功率放大*6П14П、6BQ5、N709、EL84、CV2975、7320、6L40氧化物阴极6P15P旁热式五极管低频功率放大6CH6、6CW5、EL180、EL821、CV2127、12BY7A氧化物阴极6P25B束射四极管低频功率放大*6П25Ь、EL71、5902氧化物阴极6P30B-Q束射四极管低频功率放大*6П30Ь-B（旁热）氧化物阴极6P31B-Q束射四极管低频功率放大*6П31Ь-B（旁热）氧化物阴极13P1P输出五极管低频功率放大*13П1C旁热式阴极6S6高S五极管电压/功率放大*6Э1П（旁热）氧化物阴极6T1高频双四极管推挽输出QM322、5656旁热式阴极6A2七极电子管T UNER变频CV453、EK90、X77、*6A2П、6BE5、5750旁热式阴极6F1三极-五极管变频/电压放大*6Φ1П、6BL8、6C16旁热式阴极6F2三极-五极管变频/电压放大6Φ2П、6U8、6GH、CV5065、ECF82、6BL8旁热式阴极6G2P双二极-三极管检波、电压放大*6Γ2、6SQ7、6SQ7GT/G旁热式阴极WE300B直热式三极管功率放大300B、4300A古典式低内阻FU-5直热式三极管低频功率放大T100-1、RK57、ML714、NU-150、CV2622、CV2768F123A、GL805、HF150、CV25FU-7旁热式四极管大S功率放大QV05-25、RK39、HY-61、QE06-50、CV124、8075B/250A、807V、5S1FU-13直热束射四极管功率放大*гY-13、813、4B13TT10、QY2-100、QB2、250、CV278、4T100CV1927、3874A、5C/100AFU-15直热束射五极管中功率放大*гY-15氧化物热子FU-17双束射四极管中功率放大*гY-17、CV3517、6360、QQV03-10、QQV03/12旁热式阴极FU-25旁热束射四极管宽带功率放大1625、FD-25氧化物阴极FU-29双束射四极管宽带功率放大*гY-29、829B旁热式阴极FU-31直热式三极管宽带功率放大2T26、826、826“RCA”钍钨阴极FU-32双束射四极管宽带功率放大*гY-32、RS1019、TT20SRS4452、QQE03/20、P2-12与FU-29类同FU-33直热式三极管功率放大ES833、CV635、B142、3578、833A、5T33钍钨阴极FU-46旁热式五极管中功率放大QV06-20、P40、QE05/40、7212、6146、2B46氧化物阴极FU-50束射五极管宽带功率放大*гY-50、SRS552、P50/2旁热式阴极FU-811直热式三极管宽带功率放大*г-811、811A钍钨阴极FU-250F旁热式四极管宽带功率放大4C×250A金属陶瓷型EL81旁热式五极管功率放大6CJ6氧化物阴极845直热式三极管功率放大UV-845Po≈100W6CY7旁热式双二极管电压放大每组**管特性参数不同Rg<100kΩ6CX8旁热式三极管-五极管电压放大和P-K分割比6U9、6F2靓高S 18045旁热式五极管小型功放作耳机放大有极佳表现Po>1WFC4旁热式三极管电压放大*гC4金属陶瓷管6C22D旁热式三极管电压放大5876金属陶瓷管6550旁热束射四极管功率放大KT88氧化物阴极KT100旁热束射四极管功率放大KT94氧化物阴极PL81旁热式五极管功率放大21A6氧化物阴极EL34旁热式五极管功率放大6CA7、KT66氧化物阴极2A3直热式三极管功率放大*2C4、AD1、6A3、6B4G、6C4C211直热式三极管功率放大FD422直热式五极管功率放大2E226C33C-B旁热式三极管功率放大二、国内外电子管代换常用电压放大级即前级放大胆管代换表6N1ECC85,6AQ8,6H1л6N412AX7,ECC83,E83CC,7729,CV4004,B759,CV4926N1012AU7,ECC82,E82CC,7316,CV4003,5814,B749,61896N116DJ8,E88CC,ECC88,6922,ECC189,6J5,6H11N,7308,El88CC6N8P6SN7,B65,5692,33S30,CV1988,6H8C,6HM,6F8G,16336H8C6HM,6F8G,1633,9002,6C8G6J8P6SJ7,6267,EF86,12AT7ECC81,CV4024,6201,B739,A2900,2025,ECC8015 6N9P6SL7,5691,33S29,VT2296F2ECF82,6U86N26H2л功率用管代换表6P3P6L6GC,58816P6P6V6GT,5S2,KT63EL346CA7,KT66,7027A6P14EL84,6BQ5,6П14П6N5P6080,6AS7,6H5CFU-5805FU-7807,1625FU-13813FU-4606146BFU-17FU-6056T5170926T50FU811811AFU812812AGL-211211300B WE300B,NL50,4300BKT886550,NT99,KT1002A32A3S845845A6360,TY-7整流电子管代换及特性表型号代换型号Bb2V UfV/I I2L(mA)最大型式5U4G5Z3P,U52500V5V/3A2500直热式5Y3GT522P350V5V/2A125直热式5R4GY22S2C900V5V/2A150直热式5T4450V5V/3A250A直热式6Z4350V 6.3V/0.5A50直热式6Z56X5230V 6.3V/0.8A60旁热式6X4325V 6.3V/0.5A70旁热式5Z4P5Z4400V5V/2A125旁热式5AR4GZ34450V5V/1.9A250旁热式。

6N1 ECC85,6AQ8,6H1 JI6N4 12AX7,ECC83,E83CC,7729,CV4004,B759,CV4926N10 12AU7,ECC82,E82CC,7316,CV4003,5814,B749,61896N11 6DJ8,E88CC,ECC88,6922,ECC189,6J5,6H11N,7308,El88CC 6N8P 6SN7,B65,5692,33S30,CV1988,6H8C,6HM,6F8G,16336H8C 6HM,6F8G,1633,9002,6C8G6J8P 6SJ7,6267,EF86,12AT7ECC81,CV4024,6201,B739,A2900,2025,ECC80156N9P 6SL7,5691,33S29,VT2296F2 ECF82,6U86N2 6H2j功率用管代换表6P3P 6L6GC,58816P6P 6V6GT,5S2,KT63EL34 6CA7,KT66,7027A6P14 EL84,6BQ5,6 n i4n6N5P 6080,6AS7,6H5CFU-5 805FU-7 807,1625FU-13 813FU-46 06146BFU-17FU-605 6T517092 6T50FU811 811AFU812 812AGL-211 211300B WE300B,NL50,4300BKT88 6550,NT99,KT1002A3 2A3S845 845A6360,TY-7整流电子管代换及特性表型号代换型号Bb2V UfV/I I2L(mA) 最大型式5U4G 5Z3P,U52 500V 5V/3A 2500 直热式5Y3GT 522P 350V 5V/2A 125 直热式5R4GY 22S2C 900V 5V/2A 150 直热式5T4 450V 5V/3A 250A 直热式6Z4 350V 6.3V/0.5A 50 直热式6Z5 6X5 230V 6.3V/0.8A 60 旁热式6X4 325V 6.3V/0.5A 70 旁热式5Z4P 5Z4 400V 5V/2A 125 旁热式5AR4 GZ34 450V 5V/1.9A 250 旁热式5X4G 直热式双阳极二极管小功率全波整流氧化物阴极5Z3P直热式双阳极二极管小功率全波整流 5T4、5u 3C CV1861 5R4GY U52、CV1071 5V3 5AU4 5U4G氧化物阴极5Z4P旁热式双阳极二极管小功率全波整流*5B X 1、*5 u 4C, GZ30 CV2748 5Z4G/GT 氧化物阴极5Z1P 直热式双阳极二极管小功率全波整流氧化物阴极5Z2P 直热式双阳极二极管小功率全波整流 5W4 5Y3G 80 U50 氧化物阴极5Z8P旁热式双阳极二极管全波整流*5 u 8C氧化物阴极5Z9P旁热式双阳极二极管全波整流*5 u 9C氧化物阴极6Z4旁热式双阳极二极管全波整流*6 u 4口、6B X4、6X 4、6Z31共阴极6Z5P旁热式双阳极二极管小功率全波整流*6 u 5C共阴极6H2旁热式双阳极二极管检波、整流*6 X 2口、6AL5 C氧化物阴极6C1旁热式三极管宽带电压放大*6Ci n、CV664 9002氧化物阴极6C3旁热式三极管宽带电压放大*6C3n阴地三极管6C4旁热式三极管宽带电压放大*6C4n栅地三极管6C5P旁热式三极管低频电压放大 6C5GT *6C5C 6C5、CV1067 L63氧化物阴极6C6B旁热式三极管低频电压放大 5703、CV3917 *6C6b氧化物阴极6C7B 旁热式三极管低频电压放大*6C7b 氧化物阴极6C12旁热式三极管宽带电压放大 EC88 5842高S 、低N 6C31B-Q 旁热式三极管电压放大 *6C31b -B 氧化物阴极6C32B-Q 旁热式三极管电压放大 *6C32b -B 遥截止三极管6N1旁热式双三极管低频电压放大*6Hi n 、6AQ8 AA61、ECC40/82氧化物阴极 6N2旁热式双三极管低频电压放大*6H2n 、6AX7 6AV7 ECC41氧化物阴极6N3旁热式双三极管低频电压放大*6H3n 、6A8Q 2C51、ECC42氧化物阴极6N4旁热式双三极管低噪声电压放大 ECC83 12A X 7高卩、低N6N5P 旁热式双三极管低频功率放大*6H13C 6AS7 CV2523 6NS7G/GT 低 Ri6N6 (T)旁热式双三极管低频电压放大*6H6n 、E182CC 12BH7氧化物阴极6N16B 旁热式双三极管低频电压放大氧化物阴极 6N17B 旁热式双三极管低频电压放大 *6H17b 6112 CV5007 氧化物阴极6N21B-Q 旁热式双三极管低频电压放大氧化物阴极6N23旁热式双三极管低频电压放大 6DJ8 ECC88 PCC88高卩低N6N7P 旁热式双三极管低频功率放大 6H7 *H7C 6N7/G/GT 共阴极6N8P 旁热式双三极管低频电压放大 氧化物阴极 *6H8C*6H8M6SN7 6F8G CV181 QB65 ECC32 6N9P 旁热式双三极管低频电压放大 *6H9C 6SL7、ECC35 6SC7 6CY7 高卩 6N10 旁热式双三极管低频电压放大 *6H10M 12AV7A E82CC CV491 氧化物阴极 6N11 旁热式双三极管宽带电压放大 高 S 低 RI N *6H23n 、 6DJ8 ECC84E88CC6922 CV2492 6N12P 旁热式双三极管低频电压放大 *6H12C TS229 5687 氧化物阴极6N13P 旁热式双三极管低频功率放大 *6H13C 6AS7 CV2523 6NS7G/GT 低 内阻 6N15 旁热式双三极管低频电压放大 *6H15n 、 6J6WA 6CC31 CV858 共阴极6J1旁热锐止五极管宽带电压放大 *6冰i n、6AK5 6BC5 EF40 EF95 CV850高频管6J1B锐截止五极管宽带电压放大*6冰1b、CV3929、61489、CK5702/7083 旁热式阴极6J2锐截止五极管宽带电压放大*6冰2口、6AS6 CV2522 EF11/732、CV4011旁热式阴极6J2B锐截止五极管宽带电压放大*6冰2b、CK5639旁热式阴极6J3锐截止四极管宽带电压放大*6冰3口、EF96 CV848 6BC6 6AG5束射四极管6J4锐截止五极管宽带电压放大*6冰4、6136、6BX6 6AC7 EF94旁热式阴极6J4P锐截止五极管宽带电压放大*6冰4C CV849 1852旁热式阴极6J5锐截止高频管宽带电压放大*6冰5口、EF80 CV2521 6F36 6AH6高S、束射四极管6J7 旁热式阴极五极管低频电压放大 6*7 OM5C KTW61 EF37A W310A 57 STR4141 低噪声 N6J8 锐截止五极管低频电压放大 CV2901 6SJ7 6CF8 6267 EF16 EF86 2729 低噪声 N6J8P锐截止五极管宽带电压放大*6冰8C 5693、EF6 EBC3 CV592旁热式阴极6J9锐截止五极管宽带电压放大*6冰9口、EF861旁热式阴极6J20锐截止五极管宽带电压放大*6冰20n空间电荷栅6J23高互导双五极管宽带电压放大*6冰23n阴极框架栅6J23B-Q锐截止五极管宽带电压放大*6冰23B-K低振动噪声12J1S锐截止五极管小功率放大*12冰1畀氧化物阴极6K1B 遥截止五极管宽带电压放大 *6K16K3P遥截止五极管宽带电压放大*6K3、6SK7 6K7、KTZ63 CV1074 6D6 6SG7 旁热式阴极6K4遥截止五极管宽带电压放大*6K4n、6BA6 6DA6 EF89/93、5749、6K5旁热式阴极6K5 遥截止五极管宽带电压放大同 6K4 旁热式阴极12K3P 遥截止五极管宽带电压放大 12K3 12SK7/GT 旁热式阴极2P2输出四极管低频功率放大 2n 2口、DL92 1S4T 1L33、1L34直热式阴极2P3 束射四极管低频功率放大 3A4 1662 CV807 DL93 直热式阴极2P19B 五极管功率放大直热式阴极2P29直热式五极管功率放大*2、*2 n29畀氧化物阴极4P1S直热式阴极功率放大*4 n 1畀、4L2D五极管6P1束射四极管低频功率放大*6 n 1口、6AQ5 6BW6 6L31、EL14 90旁热式阴极6P3P 束射四极管低频功率放大 *6 n 3C *6 JI 6C 6L6、6L6G/GT 1614、1619、 1622 同型：1631、6TT3C6P4P 束射四极管低频功率放大旁热式阴极6P6P旁热式束射四极管低频功率放大*6 n 2、*6 n 6C 6①6、1611、1613、1621、6K6、 CV509、 6V6GT、 CV510、 CV1912、 CV511、 6N6C、 KT636P9P旁热式五极管宽带功率放大*6 n9C CV569氧化物阴极6P13P束射四极管低频功率放大*6 n 13C （旁热）旁热式阴极6P14P旁热式五极管宽带功率放大*6 n 14口、6BQ5 N709 EL84 CV2975 7320、 6L40 氧化物阴极6P15P 旁热式五极管低频功率放大 6CH6 6CW5 EL180 EL821 CV2127 12BY7A 氧化物阴极6P25B束射四极管低频功率放大*6 n 25 b、EL71、5902氧化物阴极6P30B-Q束射四极管低频功率放大*6 n 30b -B （旁热）氧化物阴极6P31B-Q束射四极管低频功率放大*6 n 31b -B （旁热）氧化物阴极13P1P输出五极管低频功率放大*13 n 1C旁热式阴极6S6高S五极管电压/功率放大*6 B 1 n （旁热）氧化物阴极6T1 高频双四极管推挽输出 QM322、5656 旁热式阴极6A2 七极电子管 T UNER变频 CV453 EK90 X77、*6A2n、6BE5 5750 旁热式阴极6F1三极-五极管变频/电压放大*6①1口、6BL 8 6C16旁热式阴极6F2三极-五极管变频/电压放大 6①2口、6U8 6GH CV5065 ECF82 6BL8旁热式阴极6G2P双二极-三极管检波、电压放大*6 r 2、6SQ7 6SQ7GT/G旁热式阴极WE300B直热式三极管功率放大 300B 4300A古典式低内阻FU-5 直热式三极管低频功率放大 T100-1、RK57、ML714、NU-150、CV2622、CV2768 F123A、GL805、HF150、CV25FU-7 旁热式四极管大 S 功率放大 QV05-25、RK39、HY-61、QE06-50、CV124、8075B/250A、807V、5S1FU-13 直热束射四极管功率放大 * r Y-13、813、4B13 TT10> QY2-100 QB2 250、CV278、4T100 CV1927、3874A、5C/100AFU-15直热束射五极管中功率放大* r 丫-15氧化物热子FU-17 双束射四极管中功率放大 * r Y-17、CV3517 6360、QQV03-10 QQV03/12 旁热式阴极FU-25 旁热束射四极管宽带功率放大 1625、FD-25 氧化物阴极FU-29双束射四极管宽带功率放大*r 丫-29、829B旁热式阴极FU-31 直热式三极管宽带功率放大 2T26、826、826“RCA”钍钨阴极FU-32 双束射四极管宽带功率放大 * r Y-32、RS1019 TT20SRS4452 QQEO3/20P2-12 与 FU-29类同FU-33 直热式三极管功率放大 ES833、CV635、B142、3578、833A、5T33 钍钨阴极FU-46 旁热式五极管中功率放大 QV06-20、P40、QE05/40、7212、6146、2B46 氧化物阴极FU-50束射五极管宽带功率放大* r Y-50、SRS552 P50/2旁热式阴极FU-811直热式三极管宽带功率放大*r -811、811A钍钨阴极FU-250F旁热式四极管宽带功率放大 4C X 250A金属陶瓷型EL81 旁热式五极管功率放大 6CJ6 氧化物阴极845直热式三极管功率放大 UV-845 Po~ 100W6CY7旁热式双二极管电压放大每组**管特性参数不同Rg< 100k Q6CX8旁热式三极管-五极管电压放大和P-K分割比6U9 6F2靓高S 18045 旁热式五极管小型功放作耳机放大有极佳表现 Po> 1WFC4旁热式三极管电压放大* r C4金属陶瓷管 6C22D 旁热式三极管电压放大 5876 金属陶瓷管 6550 旁热束射四极管功率放大 KT88 氧化物阴极KT100 旁热束射四极管功率放大 KT94 氧化物阴极PL81 旁热式五极管功率放大 21A6 氧化物阴极EL34 旁热式五极管功率放大 6CA7、 KT66 氧化物阴极2A3 直热式三极管功率放大 *2C4、 AD1、 6A3、 6B4G、 6C4C211 直热式三极管功率放大FD422 直热式五极管功率放大 2E226C33C-B 旁热式三极管功率放大805 胆管可更换 FU-5,6N11 可更换 6922 或者6DJ8,6P6P 可更换 6V6-GT欢迎您的下载，资料仅供参考!致力为企业和个人提供合同协议，策划案计划书，学习资料等等打造全网一站式需求。

2P19B 2P31 C41 B8 1B7 1B5 1B3电子管参数库2P19B灯丝电压(Uf)=2.2V;灯丝电流(If)=0.1A;阳极电压(Ua)=120V;阳极电流(Ia)=7.6±2.2mA;第一栅极电压(Ug1)=﹣5V; 第二栅极电压(Ug2)=90V;第二栅极电流(Ig2)≤3.5mA;第三栅极电压(Ug3)=0V;跨导(S)≥1.7mA/V.(极间电容)输入电容(Cin)≤4.5pF;输出电容(Cout)≤7pF;过渡电容(Cag)≤0.03pF;阳极与阴极间电容(Cak)≤0.05pF.(极限运用数据)最大灯丝电压(Ufmax)=2.5V; 最小灯丝电压(Ufmin)=1.8V; 最大阳极电压(Uamax)(05月06日) [查看全文]2P3灯丝电压(Uf)=1.4/2.8V;灯丝电流(If)=0.2/0.1A;阳极电压(Ua)=135V;阳极电流(Ia)=16±4mA;第一栅极电压(Ug1)=﹣7.5V; 第二栅极电压(Ug2)=90V;第二栅极电流(Ig2)≤3.1mA;输出功率(PO)≥0.15W;非线性失真度系数(THD)≤10%.(极间电容)输入电容(Cin)=4.8pF;输出电容(Cout)=4.2pF;过渡电容(Cag)≤0.34pF.(极限运用数据)最大灯丝电压(Ufmax)=1.54/3.08V;最小灯丝电压(Ufmin)=1.26/2.52V;最大阳极电压(Uamax)(05月06日) [查看全文]1C4灯丝电压（Uf）=2V;灯丝电流（If）=0.2A;第一栅极电压（Ug1）=0V;跨导（S）=1mA/V;内阻（Ri）=1MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=2.5A;第二栅极电压（Ug2）=67.5V;第二栅极电流（Ig2）=0.8mA.(051B8月06日) [查看全文]灯丝电压（Uf）=1.4V;灯丝电流（If）=0.1A.（三极管部分）阳极电流（Ia）=0.15mA;栅极电压（Ug1）=0V;跨导（S）=0.3mA/V;内阻（Ri）=14kΩ.（五极管部分）阳极电流（Ia）=6.3mA;第一栅极电压（Ug1）-6V;跨导（S）=1.15mA/V;内阻（Ri）=0.25MΩ.（应用数据A）（三极管，低频电压放大）阳极供电电压（Uaa）=90V;阳极负载电阻（Ra）=250kΩ;栅极负载电阻（Rg）=1MΩ;电脑增益（K）=30.应用数据B（五极管，A类单端放大）阳极电压（Ua）=90V;阳极电流（Ia）=6.3mA;第一栅极驱动信号电压（Ug1rms）=6V;(05月06日) [查看全文]1B7灯丝电压（Uf）=1.4V;灯丝电流（If）=0.1A;第一栅极电压（Ug1）=0～-15V;变频跨导（Sc）=0.35mA/V;内阻（Ri）=0.35MΩ.(应用数据)阳极电压（Ua）=90V;阳极电流（Ia）=1.5A;第二栅极电压（Ug2）=90V;第二栅极电流（Ig2）=1.6mA;第三五栅极电压（Ug3g5）=45V;第三五栅极电流（Ig3g5）=1.3mA.(05月06日) [查看全文]1B5灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;阳极电流（Ia）=0.8mA;栅极电压（Ug）=-3V;跨导（S）=0.575mA/V;内阻（Ri）=35kΩ.(应用数据)（低频电压放大）阳极供电电压（Uaa）=135V;阳极电阻（Ra）=200kΩ;栅极电阻（Rg）=1MΩ;电脑增益（K）=15.(05月06日) [查看全文]1B3灯丝电压（Uf）=1.25V;灯丝电流（If）=0.2A.(应用数据)最大阳极脉冲电压（Uamax）=14kV;平均整流电流（Icp）=2mA. (05月06日) [查看全文]1AD5灯丝电压（Uf）=1.25V;灯丝电流（If）=0.04A;第一栅极电压（Ug1）=0V; 跨导（S）=0.735mA/V;内阻（Ri）=0.7MΩ.(应用数据)阳极电压（Ua）=67.5V;阳极电流（Ia）=1.85A;第二栅极电压（Ug2）=67.5V; 第二栅极电流（Ig2）=0.76mA.(05月06日) [查看全文]1AC5灯丝电压（Uf）=1.25V;灯丝电流（If）=0.04A;第一栅极电压（Ug1）-4.5V; 跨导（S）=0.75mA/V;内阻（Ri）=0.15MΩ.(应用数据)（A类单端放大）阳极电压（Ua）=67.5V;阳极电流（Ia）=2mA;第一栅极驱动信号电压（Ug1rms）=4.5V;第二栅极电压（Ug2）=67.5V; 第二栅极电流（Ig2）=0.4mA; 阳极负载阻抗（ZL）=25kΩ;输出功率（Po）=0.05W. (05月06日) [查看全文]2P2灯丝电压(Uf)=1.2/2.4V;灯丝电流(If)=0.06/0.03A; 阳极电压(Ua)=60V;阳极电流(Ia)=3.5±1.2mA;第一栅极电压(Ug1)=﹣3.5V; 第二栅极电压(Ug2)=60V;第二栅极电流(Ig2)≤1.2mA;跨导(S)≥0.9mA/V;输出功率(PO)=50mW; 非线性失真度系数(THD)≤10%.(极间电容)输入电容(Cin)=3.7pF;输出电容(Cout)=3.8pF;过渡电容(Cag)=0.4pF.(极限运用数据)最大灯丝电压(Ufmax)=1.4V/2.8V;最小灯丝电压(Ufmin)=0.9/1.8V;(05月06日) [查看全文]2J27S灯丝电压(Uf)=2.2V;灯丝电流(If)=0.057A;阳极电压(Ua)=120V;阳极电流(Ia)=1.9±0.6mA;第一栅极电压(Ug1)=0V;第二栅极电压(Ug2)=45V;第二栅极电流(Ig2)≤0.5mA;第三栅极电压(Ug3)=0V;跨导(S)=1.25±0.25mA/V;内阻(Ri)≥0.7MΩ.(极间电容)输入电容(Cin)≤5.3pF;输出电容(Cout)≤4.9pF;阳极与阴极间电容(Cak)≤0.01pF.(极限运用数据)最大灯丝电压(Ufmax)=2.4V;最小灯丝电压(Ufmin)=2.0V;最大阳极电压(U(05月06日) [查看全文]2J14B灯丝电压(Uf)=2.2V;灯丝电流(If)=0.06A;阳极电压(Ua)=90V;阳极电流(Ia)=1.9±0.6mA;第一栅极电压(Ug1)=0V;第二栅极电压(Ug2)=45V;第二栅极电流(Ig2)≤0.8mA;第三栅极电压(Ug3)=0V;跨导(S)=1.25±0.25mA/V.(极间电容)输入电容(Cin)≤4.5pF;输出电容(Cout)≤6.0pF;过渡电容(Cag)≤0.015pF;阳极与阴极间电容(Cak)≤0.03pF.(极限运用数据)最大灯丝电压(Ufmax)=2.5V;最小灯丝电压(Ufmin)=1.8V;最大阳极电(05月06日) [查看全文]2D1P灯丝电压(Uf)=2.3V;灯丝电流(If)=0.2±0.05A;阳极电压(Ua)=5V;阳极电流(Ia)≥1.6mA.(极间电容)阳极与阴极间电容(Cak)=0.1~0.4pF.(极限运用数据)最大灯丝电压(Ufmax)=2.4V;最小灯丝电压(Ufmin)=2.2V;最大整流电流(Ikmax)=0.1mA;最大反向电压峰值(Upmax)=100V;最大阳极耗散功率(Pamax)=0.01W;最大阴极和灯丝间电压(Ufkm ax)=±25V;最高工作频率(fmax)=3GHz. (05月06日) [查看全文]1Z11灯丝电压(Uf)=1.2V;灯丝电流(If)=0.2A;阳极电压(Ua)=100V;阳极电流(Ia)≥4mA.(极间电容)阳极与阴极间电容(Cak)=1pF.(极限运用数据)最大灯丝电压(Ufmax)=1.32V;最小灯丝电压(Ufmin)=1.08V;最大整流电流(Ikmax)=300μA;最大反向电压峰值(Upmax)=20kV;最小行扫描频率(fmin)=12kHz.(05月06日) [查看全文]1Z7B灯丝电压(Uf)=1.25V;灯丝电流(If)=0.2±0.04A;阳极反向电压峰值(Up)≥30kV;阴极放射电流①(Ia)≥4mA;注:①Ua=100V时.(极间电容)阳极与阴极间电容(Cak)=1.2±0.5pF.(极限运用数据)最大灯丝电压(Ufmax)=1.4V; 最小灯丝电压(Ufmin)=1.1V; 最大反向电压峰值(Upmax)=30kV;最大整流电流(Ikmax)=2mA; 最大脉冲频率(fmax)=300kHz. 电子管参数库1Z0B灯丝电压(Uf)=0.7V;灯丝电流(If)=0.2A;阳极交流电压(Ua~)=100V;阳极电流(Ia)≥2mA;行扫描频率(fH)≥16kHz.(极限运用数据)最大灯丝电压(Ufmax)=0.77V;最小灯丝电压(Ufmin)=0.63V;最大反向电压峰值(Upmax)=8kV;最大整流电流(Ikmax)=3mA;最大阳极耗散功率(Pamax)=0.6W.(05月06日) [查看全文]1Z1灯丝电压(Uf)=1.4V;灯丝电流(If)=0.5±0.055A;阳极电压(Ua)=100V;阳极电流(Ia)≥8mA.(极间电容)阳极与阴极间电容(Cak)=1.55pF.(极限运用数据)最大灯丝电压(Ufmax)=1.54V;最小灯丝电压(Ufmin)=1.26V;最大整流电流(Ikmax)=0.5mA;最大反向电压峰值①(Upmax)=22kV;最大滤波电容(Cmax)=2000pF.注:①最大占空比=22%,最大脉宽=18μs时.(05月06日) [查看全文]1K2灯丝电压(Uf)=1.2V;灯丝电流(If)=0.03A;阳极电压(Ua)=60V;阳极电流(Ia)=1.35±0.5mA;第一栅极电压(Ug1)=0V;第二栅极电压(Ug2)=45V;第二栅极电流(Ig2)=0.35+0.15mA;跨导(S)=0.25~0.7mA;内阻(Ri)=1.5MΩ.(极间电容)输入电容(Cin)=3pF;输出电容(Cout)=4.9pF;过渡电容(Cag)≤0.01pF.(极限运用数据)最大灯丝电压(Ufmax)=1.4V;最小灯丝电压(Ufmin)=0.9V;最大阳极电压(Uamax)=90V;最大第二栅极电压((05月06日) [查看全文]1B2灯丝电压(Uf)=1.2V;灯丝电流(If)=0.03A;阳极电压(Ua)=60V;阳极电流(Ia)=0.9±0.4mA;第一栅极电压(Ug1)=0V;第二栅极电压(Ug2)=45V;第二栅极电流(Ig2)≤0.35mA;跨导(S)=0.2~0.55mA;内阻(Ri)=1MΩ.(极间电容)输入电容(Cin)=1.85pF;输出电容(Cout)=2.1pF;过渡电容(Cag)=0.27pF.(极限运用数据)最大灯丝电压(Ufmax)=1.4V;最小灯丝电压(Ufmin)=0.9V;最大阳极电压(Uamax)=90V; 最大第二栅极电压(Ug2ma (05月06日) [查看全文]1A2灯丝电压(Uf)=1.2V;灯丝电流(If)=0.03A;阳极电压(Ua)=60V;第二四栅极电压(Ug2g4)=45V;第三栅极电压(Ug3)=0V;第一栅极电压(Ug1)=0V;阳极电流(Ia)=0.7±0.3mA;第二四栅极电流(Ig2g4)=1.1±0.5mA;第一栅极电流(Ig1)=130±35μA;变频跨导(Sc)≥0.17mA/V;振荡跨导≥0.65mA/V;第一栅极电阻(Rg1)=51kΩ. (极间电容)输入电容(Cin)=5.1pF;输出电容(Cout)=6.3pF;过渡电容(Cag)≤0.6pF.(极限运用数据)最大灯丝电压(05月06日) [查看全文]1AB5灯丝电压（Uf）=1.2V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）=0V; 跨导（S）=1.1mA/V;内阻（Ri）=275kΩ.(应用数据)阳极电压（Ua）=90V;阳极电流（Ia）=3.5A;第二栅极电压（Ug2）=90V. (05月06日) [查看全文]1A7灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）0～-3V; 变频跨导（Sc）=0.25mA/V; 内阻（Ri）=0.6MΩ.(应用数据)阳极电压（Ua）=90V;阳极电流（Ia）=0.55A;第二栅极电压（Ug2）=90V;第二栅极电流（Ig2）=1.2mA;第三五栅极电压（Ug3g5）=45V;第三五栅极电流（Ig3g5）=0.6mA.(05月06日) [查看全文]1A6灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;第一栅极电压（Ug1）-3～-22V;变频跨导（Sc）=0.25mA/V;内阻（Ri）=0.5MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=1.3A;第二栅极电压（Ug2）=130V;第二栅极电流（Ig2）=2.3mA;第三五栅极电压（Ug3g5）=67.5V;第三五栅极电流（Ig3g5）=2.4mA.(05月06日) [查看全文]1A5灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）-4.5V;跨导（S）=0.85mA/V;内阻（Ri）=0.3MΩ.(应用数据)（A类单端放大）阳极电压（Ua）=90V;阳极电流（Ia）=4mA;第一栅极驱动信号电压（Ug1rms）=3.7V;第二栅极电压（Ug2）=90V;第二栅极电流（Ig2）=0.8mA;阳极负载阻抗（ZL）=25kΩ;输出功率（Po）=0.11W.(05月06日) [查看全文]1A4灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;第一栅极电压（Ug1）-3～15V;跨导（S）=0.75mA/V;内阻（Ri）=1MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=2.3A;第二栅极电压（Ug2）=67.5V;第二栅极电流（Ig2）=0.8mA.(05月06日) [查看全文]5Z3P灯丝电压(Uf)=5V;灯丝电流(If)=3±0.3A;平均整流电流(Icp)≥230mA;变压器次级线圈交流电压有效值(Urms)=2x500V;滤波电容(C)=4μF.(极限运用数据)最大灯丝电压(Ufmax)=5.5V;最小灯丝电压(Ufmin)=4.5V;最大整流电流(Ikmax)=250mA;最大反向电压峰值(Upmax)=1550V.(05月06日) [查看全文]5Z2P灯丝电压(Uf)=5V;灯丝电流(If)=2±0.2A;平均整流电流(Icp)=125mA;变压器次级线圈交流电压有效值(Urms)=2x400V;滤波电容(C)=4μF.(极限运用数据)最大灯丝电压(Ufmax)=5.5V; 最小灯丝电压(Ufmin)=4.5V; 最大整流电流(Ikmax)=125mA;最大反向电压峰值(Upmax)=1.4kV.(05月06日) [查看全文]1G4灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;阳极电流（Ia）=3mA;栅极电压（Ug）=-6V;跨导（S）=0.825mA/V;内阻（Ri）=10.7kΩ.(应用数据)阳极供电电压（Uaa）=90V; 阳极负载电阻（Ra）=0.1MΩ;栅极负载电阻（Rg）=1MΩ;电脑增益（K）=7.(05月06日) [查看全文]1F7灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;第一栅极电压（Ug1）=-1.5～-12V;跨导（S）=0.65mA/V;内阻（Ri）=1MΩ.（应用数据A）（高中频电压放大）阳极电压（Ua）=180V;阳极电流（Ia）=2.2mA;第二栅极电压（Ug2）=67.5V; 第二栅极电流（Ig2）=0.7mA; （应用数据B）（低频电压放大）阳极供电电压（Uaa）=135V;阳极电流（Ia）=0.42mA;阳极负载电阻（Ra）=0.25MΩ;第一栅极负载电阻（Rg1）=1MΩ;电脑增益（K）=36.(05月06日) [查看全文]1F6 灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;第一栅极电压（Ug1）=-1.5～-12V;跨导（S）=0.65mA/V;内阻（Ri）=1MΩ.（应用数据A）（高中频电压放大）阳极电压（Ua）=180V;阳极电流（Ia）=2.2mA;第二栅极电压（Ug2）=67.5V;第二栅极电流（Ig2）=0.7mA;（应用数据B）（低频电压放大）阳极供电电压（Uaa）=135V;阳极电流（Ia）=0.45mA;阳极负载电阻（Ra）=0.25MΩ;第一栅极负载电阻（Rg1）=1MΩ;第二栅极负载电阻（Rg2）=0.8MΩ;电脑增益（K）=36.电子管参数库1F5灯丝电压（Uf）=2V;灯丝电流（If）=0.12A;第一栅极电压（Ug1）-4.5V;跨导（S）=1.7mA/V;内阻（Ri）=0.2MΩ.（应用数据A）（A类单端放大）阳极电压（Ua）=135V;阳极电流（Ia）=8mA;第一栅极驱动信号电压（Ug1rms）=3.8V;第二栅极电压（Ug2）=135V;第二栅极电流（Ig2）=2.4mA;阳极负载阻抗（ZL）=16kΩ;输出功率（Po）=0.3W.（应用数据B）（AB1类推挽放大）阳极电压（Ua）=180V;阳极电流（Ia）=19mA;两管第一栅极间驱动信号电压（Ug1-g1rms）=11V;第二栅极电压（Ug2）=180V;第(05月06日) [查看全文]1F4灯丝电压（Uf）=2V;灯丝电流（If）=0.12A;第一栅极电压（Ug1）-4.5V;跨导（S）=1.7mA/V;内阻（Ri）=0.2MΩ.（应用数据A）（A类单端放大）阳极电压（Ua）=135V;阳极电流（Ia）=8mA;第一栅极驱动信号电压（Ug1rms）=3.8V;第二栅极电压（Ug2）=135V;第二栅极电流（Ig2）=2.4mA;阳极负载阻抗（ZL）=16kΩ;输出功率（Po）=0.3W.（应用数据B）（AB1类推挽放大）阳极电压（Ua）=180V;阳极电流（Ia）=19mA;两管第一栅极间驱动信号电压（Ug1-g1rms）=11V;第二栅极电压（Ug2）=180V;第(05月06日) [查看全文]1E8灯丝电压（Uf）=1.25V;灯丝电流（If）=0.04A;第一栅极电压（Ug1）=0～-9V;变频跨导（Sc）=0.15mA/V;内阻（Ri）=0.4MΩ.(应用数据)阳极电压（Ua）=67.5V;阳极电流（Ia）=1mA;第二四栅极电压（Ug2g4）=65.5V;第二四栅极电流（Ig2g4）=1.5mA.(05月06日) [查看全文]1E7灯丝电压（Uf）=2V;灯丝电流（If）=0.24A;第一栅极电压（Ug1）-7V; 跨导（S）=1.4mA/V;内阻（Ri）=0.26MΩ.(应用数据)（A类推挽放大）阳极电压（Ua）=135V;阳极电流（Ia）=7mA;两管第一栅极驱动信号电压（Ug1-g1rms）=11V;第二栅极电压（Ug2）=135V; 第二栅极电流（Ig2）=2mA; 两管阳极间负载阻抗（Zla-a）=24kΩ;输出功率（Po）=0.6W. (05月06日) [查看全文]1D8灯丝电压（Uf）=1.4V;灯丝电流（If）=0.1A.（三极管部分）阳极电流（Ia）=1.1mA;栅极电压（Ug1）=0V;跨导（S）=0.57mA/V;内阻（Ri）=50kΩ.（五极管部分）阳极电流（Ia）=5mA; 第一栅极电压（Ug1）-9V; 跨导（S）=0.92mA/V;内阻（Ri）=0.2MΩ.（应用数据A）（三极管，低频电压放大）阳极供电电压（Uaa）=90V;阳极负载电阻（Ra）=250kΩ;栅极负载电阻（Rg）=1MΩ;电脑增益（K）=25.（应用数据B）（五极管，A类单端放大）阳极电压（Ua）=90V; 第一栅极驱动信号电压（Ug1rms）=9V;第二栅极电压（Ug2）=90V;(05月06日) [查看全文]1D7灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;第一栅极电压（Ug1）=-3～-22.5V;变频跨导（Sc）=0.3mA/V;内阻（Ri）=0.5MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=1.3mA;第二栅极电压（Ug2）=120V;第二栅极电流（Ig2）=2.3mA;第三五栅极电压（Ug3g5）=67.5V.(05月06日) [查看全文]1D4灯丝电压（Uf）=2V;灯丝电流（If）=0.24A;第一栅极电压（Ug1）-6V;内阻（Ri）=0.14MΩ.(应用数据)（A类单端放大）阳极电压（Ua）=180V;阳极电流（Ia）=9.5mA;第一栅极驱动信号电压（Ug1rms）=5V;第二栅极电压（Ug2）=180V;第二栅极电流（Ig2）=1.5mA;阳极负载阻抗（ZL）=15kΩ;输出功率（Po）=0.75W.(05月06日) [查看全文]1E5灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;第一栅极电压（Ug1）=-3～-8V;跨导（S）=0.65mA/V;内阻（Ri）=1.5MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=1.7A;第二栅极电压（Ug2）=67.5V;第二栅极电流（Ig2）=0.6mA.(05月06日) [查看全文]1E4灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;阳极电流（Ia）=1.5mA;栅极电压（Ug）=-3V;跨导（S）=0.8mA/V;内阻（Ri）=17kΩ.(应用数据)阳极供电电压（Uaa）=90V;阳极负载电阻（Ra）=200kΩ;栅极负载电阻（Rg）=1MΩ;电脑增益（K）=25.(05月06日) [查看全文]1D5灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;第一栅极电压（Ug1）=-3～-15V;跨导（S）=0.75mA/V;内阻（Ri）=1MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=2.3A;第二栅极电压（Ug2）=67.5V;第二栅极电流（Ig2）=0.8mA.(05月06日) [查看全文]1C8灯丝电压（Uf）=1.25V;灯丝电流（If）=0.04A;第一栅极电压（Ug1）=0～-9V; 变频跨导（Sc）=0.15mA/V; 内阻（Ri）=0.4MΩ.(应用数据)阳极电压（Ua）=65.5V;阳极电流（Ia）=1mA;第二四栅极电压（Ug2g4）=65.5V;第二四栅极电流（Ig2g4）=1.5mA.(05月06日) [查看全文]1C7灯丝电压（Uf）=2V;灯丝电流（If）=0.12A;第一栅极电压（Ug1）=-3～-14V;变频跨导（Sc）=0.325mA/V; 内阻（Ri）=0.7MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=1.5A;第二栅极电压（Ug2）=90V; 第三五栅极电压（Ug3g5）=67.5V;第三五栅极电流（Ig3g5）=2mA.(05月06日) [查看全文]1C6灯丝电压（Uf）=2V;灯丝电流（If）=0.12A;第一栅极电压（Ug1）=-3～-14V;变频跨导（Sc）=0.325mA/V; 内阻（Ri）=0.7MΩ.(应用数据)阳极电压（Ua）=180V;阳极电流（Ia）=1.5A;第二栅极电压（Ug2）=90V; 第三五栅极电压（Ug3g5）=67.5V; 第三五栅极电流（Ig3g5）=2mA.(05月06日) [查看全文]1C5灯丝电压（Uf）=1.4V;灯丝电流（If）=0.1A;第一栅极电压（Ug1）-7.5V;跨导（S）=1.5mA/V;内阻（Ri）=0.11MΩ.(应用数据)（A类单端放大）阳极电压（Ua）=90V;阳极电流（Ia）=7.5mA;第一栅极驱动信号电压（Ug1rms）=5V;第二栅极电压（Ug2）=90V;第二栅极电流（Ig2）=1.6mA;阳极负载阻抗（ZL）=8kΩ;输出功率（Po）=0.24W.(05月06日) [查看全文]5Z1P灯丝电压(Uf)=5V;灯丝电流(If)=2±0.4A;平均整流电流(Icp)=125mA;变压器次级线圈交流电压有效值①(Urms)=2x500V;变压器次级线圈交流电压有效值②(Urms)=2x350V;滤波电容(C)=4μF;滤波电感(L)=10H.注:①滤波电路为电感输入时;②滤波电路为电容输入时.电子管参数库4P1S灯丝电压(Uf)=4.2V;灯丝电流(If)=0.325A;阳极电压(Ua)=150V;阳极电流(Ia)=60±20mA;第一栅极电压(Ug1)=﹣3.5V;第二栅极电压(Ug2)=150V;第二栅极电流(Ig2)≤6.5mA;第三栅极电压(Ug3)=0V;跨导(S)=6±1.5mA/V;输出功率(PO)≥4.2W.(极间电容)输入电容(Cin)=8.5pF;输出电容(Cout)=9.4pF;过渡电容(Cag)≤0.1pF.(极限运用数据)最大灯丝电压(Ufmax)=4.7V;最小灯丝电压(Ufmin)=3.9V;最大阳极电压(Uamax)=(05月06日) [查看全文]4J1S灯丝电压(Uf)=4.2V;灯丝电流(If)=0.225A;阳极电压(Ua)=150V;阳极电流(Ia)=1.4~3.1mA;第一栅极电压(Ug1)=﹣2.3V;第二栅极电压(Ug2)=75V;第二栅极电流(Ig2)=0.2~0.9mA;第三栅极电压(Ug3)=0V;跨导(S)=1.2~2.1mA/V;内阻(Ri)≥1MΩ;输出功率(PO)≥0.5W.(极间电容)输入电容(Cin)=4.0pF;输出电容(Cout)=4.2pF;过渡电容(Cag)≤0.007pF.(极限运用数据)最大灯丝电压(Ufmax)=4.8V;最小灯丝电压(Ufmin)(05月06日) [查看全文]2Z2P灯丝电压(Uf)=2.5V;灯丝电流(If)=1.75±0.2A;平均整流电流(Icp)≥6.8mA;变压器次级线圈交流电压有效值(Urms)=4500V;滤波电容①(C)=0.06μF.注:①当选用大于此值的滤波电容时必须加入充电限流电阻,以免滤波电容充电峰值电流超出上述规定.(极限运用数据)最大灯丝电压(Ufmax)=2.75V;最小灯丝电压(Ufmin)=2.25V;最大阳极交流电压有效值(Urms)=4500V;最大反向电压峰值(Upmax)=12.5kV;最大整流电流(Ikmax)=7.5mA.(05月06日) [查看全文]2P29S灯丝电压(Uf)=2.2V;灯丝电流(If)=0.12A;阳极电压(Ua)=160V;阳极电流(Ia)=10mA;第一栅极电压(Ug1)=﹣5.5±1.7V;第二栅极电压(Ug2)=120V; 第二栅极电流(Ig2)≤2.0mA;第三栅极电压(Ug3)=0V;跨导(S)=2.05±0.25mA/V;输出功率(PO)=1.2W.(极间电容)输入电容(Cin)=4.3pF;输出电容(Cout)=5.6pF;过渡电容(Cag)=0.055pF; 阳极与阴极间电容(Cak)=0.03pF. (极限运用数据)最大灯丝电压(Ufmax)=2.4V;最小灯丝电压(05月06日) [查看全文]2P29灯丝电压(Uf)=2.2V;灯丝电流(If)=0.11A;阳极电压(Ua)=120V;阳极电流(Ia)≥2.7mA;第一栅极电压(Ug1)=0V;第二栅极电压(Ug2)=45V;第二栅极电流(Ig2)≤1.2mA;第三栅极电压(Ug3)=0V;跨导(S)≥1.5mA/V.(极间电容)输入电容(Cin)=4.85pF;输出电容(Cout)=2pF;阳极与阴极间电容(Cak)≤0.01pF.(极限运用数据)最大灯丝电压(Ufmax)=2.4V;最小灯丝电压(Ufmin)=2.0V;最大阳极电压(Uamax)=200V;最大第二栅极电压(Ug2ma(05月06日) [查看全文]6C7B灯丝电压(Uf)=6.3V;灯丝电流(If)=0.2A;阳极电压(Ua)=250V;阳极电流(Ia)=4.5±0.9mA;阴极电阻(Rk)=400Ω;跨导(S)=4±0.9mA/V;放大系数(μ)=65.(极间电容)输入电容(Cin)=2.5pF;输出电容(Cout)=2.65pF;过渡电容(Cag)≤1.0pF;灯丝与阴极间电容(Cfk)≤7pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大阳极电压(Uamax)=300V;最大灯丝与阴极间电压(Ufkmax)=±150V;最大阳极耗散功率(05月06日) [查看全文]6C5P灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3±0.025A;阳极电压(Ua)=﹣8V;阳极电流(Ia)=8±3mA;跨导(S)=2.2±0.5mA/V;内阻(Ri)=9kΩ;放大系数(μ)=20±2.(极间电容)输入电容(Cin)=3.8±0.9pF;输出电容(Cout)=7.4~13.4pF;过渡电容(Cag)=2±0.6pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大阳极电压(Uamax)=350V;最大灯丝与阴极间电压(Ufkmax)=100V;最大阳极耗散功率(Pamax)=2.7(05月06日) [查看全文]6C5D灯丝电压(Uf)=6.3V;灯丝电流(If)=0.7±0.07A;阳极电压(Ua)=250V;阳极电流(Ia)=8~23A;跨导(S)=5±1.5mA/V;放大系数(μ)=40±10.(极间电容)输入电容(Cin)=1.9~2.8pF; 输出电容(Cout)≤0.05pF;过渡电容(Cag)=1.15~1.5pF. (极限运用数据)最大灯丝电压(Ufmax)=6.6V; 最小灯丝电压(Ufmin)=6.0V; 最大阳极电压(Uamax)=300V; 最大灯丝与阴极间电压(Ufkmax)=±100V;最大阳极耗散功率(Pamax)=6.5W;最高振荡频率(fma(05月06日) [查看全文]6C4灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3A;阳极电压(Ua)=150V;阳极电流(Ia)=16±4mA;阴极电阻(Rk)=100Ω;跨导(S)=19.5±4.5mA/V;放大系数(μ)=50±15.(极间电容)输入电容(Cin)≤13.3pF;输出电容(Cout)≤0.17pF;过渡电容(Cag)≤3.75pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V; 最小灯丝电压(Ufmin)=5.7V; 最大阳极电压(Uamax)=160V; 最大灯丝与阴极间电压(Ufkma x)=±100V;最大阳极耗散功率(Pamax)=3W;最大(05月05日) [查看全文]6C3灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3A;阳极电压(Ua)=150V; 阳极电流(I a)=16±4mA;阴极电阻(Rk)=100Ω;跨导(S)=19.5±4.5mA/V;放大系数(μ)=50±15.(极间电容)输入电容(Cin)=5.5pF;输出电容(Cout)=0.85pF;过渡电容(Cag)≤2.4pF;灯丝与阴极间电容(Cfk)=7pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大阳极电压(Uamax)=160V;最大灯丝与阴极间电压(Ufkmax)=+100V(-160V);(05月05日) [查看全文]1LA4灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）-4.5V;跨导（S）=0.85mA/V;内阻（Ri）=0.3MΩ.(应用数据)（A类单端放大）阳极电压（Ua）=90V;阳极电流（Ia）=4mA;第一栅极驱动信号电压（Ug1rms）=3.8V;第二栅极电压（Ug2）=90V;第二栅极电流（Ig2）=0.8mA;阳极负载阻抗（ZL）=25kΩ;输出功率（Po）=115mW.(05月05日) [查看全文]1L4灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）=0V;跨导（S）=1mA/V;内阻（Ri）=0.3MΩ.(应用数据)阳极电压（Ua）=90V;阳极电流（Ia）=4.5mA;第二栅极电压（Ug2）=90V.(05月05日) [查看全文]1J6灯丝电压（Uf）=2V;灯丝电流（If）=0.24A;（应用数据B）（B类推挽放大）阳极电压（Ua）=135V;零信号阳极电流（Ia）=5mA;栅极电压（Ug）-0V;输入驱动功率（Pin）=170mW;两管阳极间负载阻抗（ZLa-a）=10kΩ;输出功率（Po）=2.1W.(05月05日) [查看全文]1J5灯丝电压（Uf）=2V;灯丝电流（If）=0.12A;第一栅极电压（Ug1）-16.5V;跨导（S）=0.95mA/V;内阻（Ri）=0.1MΩ.(应用数据)（A类单端放大）阳极电压（Ua）=135V;阳极电流（Ia）=7mA;第一栅极驱动信号电压（Ug1rms）=12V;第二栅极电压（Ug2）=135V;第二栅极电流（Ig2）=2mA;阳极负载阻抗（ZL）=13.5kΩ;输出功率（Po）=0.57W.(05月05日) [查看全文]1H6灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;阳极电流（Ia）=0.8mA;栅极电压（Ug）=-3V;跨导（S）=0.575mA/V;内阻（Ri）=35MΩ.(应用数据)（低频电压放大）阳极供电电压（Uaa）=135V;阳极负载电阻（Ra）=0.5MΩ;栅极负载电阻（Rg）=2MΩ;电脑增益（K）=15.电子管参数库1H5灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;阳极电流（Ia）=0.14mA; 栅极电压（Ug）=0V;跨导（S）=0.275mA/V;内阻（Ri）=0.24MΩ.(应用数据)（低频电压放大）阳极供电电压（Uaa）=90V;阳极负载电阻（Ra）=0.5MΩ;栅极负载电阻（Rg）=2MΩ;电脑增益（K）=50.(05月05日) [查看全文]1H4灯丝电压（Uf）=2V;灯丝电流（If）=0.06A;阳极电流（Ia）=3.1mA;栅极电压（Ug）=-13.5V; 跨导（S）=0.9mA/V;内阻（Ri）=10.3kΩ.（应用数据A）阳极供电电压（Uaa）=180V;阳极负载电阻（Ra）=0.1MΩ;栅极负载电阻（Rg）=1MΩ;电脑增益（K）=75.（应用数据B）（B类推挽放大）阳极电压（Ua）=157.5V;零信号阳极电流（Ia）=2mA;栅极电压（Ug）-15V;输入驱动功率（Pin）=0.25W;两管阳极间负载阻抗（ZLa-a）=8kΩ;输出功率（Po）=2.1W.(05月05日) [查看全文]1P5灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）=0～-12V;跨导（S）=0.75mA/V;内阻（Ri）=0.8MΩ.(应用数据)阳极电压（Ua）=90V;阳极电流（Ia）=2.3mA;第二栅极电压（Ug2）=90V.(05月05日) [查看全文]1LB6灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）=0V;变频跨导（Sc）=0.1mA/V;内阻（Ri）=2MΩ.(应用数据)阳极电压（Ua）=90V;阳极电流（Ia）=0.4A;第二栅极电压（Ug2）=90V;第三五栅极电压（Ug3g5）=67.5V.(05月05日) [查看全文]1LA6灯丝电压（Uf）=1.4V;灯丝电流（If）=0.05A;第一栅极电压（Ug1）=0V;变频跨导（Sc）=0.25mA/V;内阻（Ri）=0.75MΩ.(应用数据)阳极电压（Ua）=90V;阳极电流（Ia）=0.55A;第二栅极电压（Ug2）=90V;第三五栅极电压（Ug3g5）=90V;第三五栅极电流（Ig3g5）=0.6mA.(05月05日) [查看全文]1G6灯丝电压（Uf）=1.4V;灯丝电流（If）=0.1A;阳极电流（Ia）=1mA;栅极电压（Ug）=0V;跨导（S）=0.67mA/V;内阻（Ri）=45kΩ.（应用数据A）（单管放大）阳极供电电压（Ua）=90V;阳极负载电阻（Ra）=0.25MΩ;栅极负载电阻（Rg）=1MΩ;电脑增益（K）=30.（应用数据B）（B类推挽放大）阳极电压（Ua）=90V;零信号阳极电流（Ia）=2mA;栅极电压（Ug）-0V;两管栅极间驱动信号电压（Ug-grms）=35V;两管阳极间负载阻抗（ZLa-a）=12kΩ;输出功率（Po）=0.67W.(05月05日) [查看全文]1G5灯丝电压（Uf）=2V;灯丝电流（If）=0.12A;第一栅极电压（Ug1）-13.5V;跨导（S）=1.55mA/V;内阻（Ri）=0.16MΩ.(应用数据)（A类单端放大）阳极电压（Ua）=135V;阳极电流（Ia）=8.7mA;第一栅极驱动信号电压（Ug1rms）=8V;第二栅极电压（Ug2）=135V; 第二栅极电流（Ig2）=2.5mA; 阳极负载阻抗（ZL）=9kΩ;输出功率（Po）=0.6W. (05月05日) [查看全文]6C1灯丝电压(Uf)=6.3V;灯丝电流(If)=0.15A;阳极电压(Ua)=250V;阳极电流(Ia)=6.1±2.5mA;栅极电压(Ug)=﹣7V;跨导(S)=2.65±0.65mA/V;内阻(Ri)=8.4~14.8kΩ.(极间电容)输入电容(Cin)=0.95~1.8pF; 输出电容(Cout)=0.75~1.45pF;过渡电容(Cag)=1.0~1.8pF. (极限运用数据)最大灯丝电压(Ufmax)=6.9V; 最小灯丝电压(Ufmin)=5.7V; 最大阳极电压(Uamax)=275V; 最大灯丝与阴极间电压(Ufkmax)=﹣90V;最大阳极耗散(05月05日) [查看全文]6B8P灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3±0.025A; (双二极管部分)平均整流电流(Icp)≥220μA;(五极管部分)阳极电压(Ua)=250V;阳极电流(Ia)=7.3~13mA;第一栅极电压(Ug1)=﹣3V; 第二栅极电压(Ug2)=125V; 第二栅极电流(Ig2)=2.45+1.05mA; 跨导(S)=1.32~1.6mA/V.(极间电容)输入电容(Cin)=3.9~4.15pF;输出电容(Cout)=11±2pF;过渡电容(Cag)≤0.008pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7(05月05日) [查看全文]6A7P灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3±0.025A;阳极电压(Ua)=250V;阳极电流(Ia)=3.5±1mA;第二四栅极电压(Ug2g4)=100V;第三栅极电压(Ug3)=0V;第一栅极电流(Ig1)=0.51±0.13mA;第二四栅极电流(Ig2g4)=9±2.5mA;变频跨导(Sc)=0.45±0.15mA/V;振荡跨导=4.7±1.2mA/V.(极间电容)输入电容(Cin)=11±3pF;输出电容(Cout)=11±3pF;过渡电容(Cag)=0.7pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压((05月05日) [查看全文]6A2灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3A;阳极电压(Ua)=250V;阳极电流(Ia)=3±1mA;第二四栅极电压(Ug2g4)=100V;第三栅极电压(Ug3)=﹣1.5V;第二四栅极电流(Ig2g4)=7.0±2.1mA;第一栅极电阻(Rg1)=20kΩ;变频跨导(Sc)≥0.3mA/V;振荡跨导≥4.5mA/V.(极间电容)输入电容(Cin)≤8.8pF;输出电容(Cout)≤10.1pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大阳极电压(Uamax)=330V;最大(05月05日) [查看全文]5Z9P灯丝电压(Uf)=5V;灯丝电流(If)=3±0.3A;平均整流电流(Icp)≥190mA;变压器次级线圈交流电压有效值(Urms)=2x500V;滤波电容(C)=4μF.(极限运用数据)最大灯丝电压(Ufmax)=5.5V;最小灯丝电压(Ufmin)=4.5V;最大整流电流(Ikmax)=205mA;最大反向电压峰值(Upmax)=1700V;最大阳极耗散功率(Pamax)=12W.(05月05日) [查看全文]5Z8P灯丝电压(Uf)=5V;灯丝电流(If)=5±0.75A;平均整流电流(Icp)≥400mA;变压器次级线圈交流电压有效值(Urms)=2x500V;滤波电容(C)=4μF.(极限运用数据)最大灯丝电压(Ufmax)=5.5V; 最小灯丝电压(Ufmin)=4.5V; 最大整流电流(Ikmax)=420mA;最大反向电压峰值(Upmax)=1700V;最大阳极耗散功率(Pamax)=30W.(05月05日) [查看全文]5Z4P灯丝电压(Uf)=5V;灯丝电流(If)=1.8~2.2A;平均整流电流(Icp)≥122mA;变压器次级线圈交流电压有效值(Urms)=2x500V;滤波电容(C)=4μF.(极限运用数据)最大灯丝电压(Ufmax)=5.5V; 最小灯丝电压(Ufmin)=4.5V; 最大整流电流(Ikmax)=125mA;最大反向电压峰值(Upmax)=1350V.(05月05日) [查看全文]1R5T灯丝电压（Uf）=1.4V;灯丝电流（If）=0.025A;第一栅极电压（Ug1）=0V; 变频跨导（Sc）=0.3mA/V; 内阻（Ri）=0.75MΩ.(应用数据)阳极电压（Ua）=67.5V;阳极电流（Ia）=1.4mA;第二四栅极电压（Ug2g4）=67.5V; 第二四栅极电流（Ig2g4）=3.2mA.电子管参数库6E2灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3±0.03A;阳极电流①(Ia)=2±0.5mA;栅极截止电压②(Ugj)=﹣10±5V;阳极电源电压(Ea)=250V;荧光屏电压(UL)=250V;荧光屏电流①(IL)=1mA;跨导(S)≥0.5mA/V;阳极内阻(Ri)=100kΩ;栅极电阻(Rg)=3MΩ;放大系数(μ)≥20.注:①Ug=0V时;②荧光屏光带闭合时.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大荧光屏电压(ULmax)=250V;最小荧光屏电压(ULmin)=200(05月05日) [查看全文]6E1灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3A;荧光屏电压(UL)=250V;阳极电压(Ua)=100V;栅极电压(Ug)=0~﹣15V;阳极电阻(Ra)=0.5MΩ;栅极电阻(Rg)=0.1MΩ;荧光屏扇形指示角(θL)=5o~55o.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大荧光屏电压(ULmax)=250V;最大阳极电压(Uamax)=250V;最大阳极耗散功率(Pamax)=0.2W;最大栅极电阻(Rgmax)=3MΩ.(05月05日) [查看全文]12C3P灯丝电压(Uf)=12.6V;灯丝电流(If)=0.09A;阳极电压(Ua)=100V;阳极电流(Ia)=30.2±12.5mA;跨导(S)=2.2~4.2mA/V;放大系数(μ)=8~17;输出功率①(PO)≥275mA.注:①Ua=130V;f≥7.5x108Hz时.(极间电容)输入电容(Cin)=1.55±0.55pF;输出电容(Cout)=0.65±0.15pF;过渡电容(Cag)=1.15±0.25pF.(极限运用数据)最大灯丝电压(Ufmax)=14.5V;最小灯丝电压(Ufmin)=10.8V;最大阳极电压(Uamax)=300(05月05日) [查看全文]6C32B灯丝电压(Uf)=6.3V;灯丝电流(If)=0.165A;阳极电压(Ua)=200V;阳极电流(Ia)=3.0±1.3mA;阴极电阻(Rk)=280Ω;跨导(S)=3.5±1.3mA/V;放大系数(μ)=70~140.(极间电容)输入电容(Cin)=3.0±0.7pF;输出电容(Cout)=0.65±0.35pF;过渡电容(Cag)≤1.2pF;灯丝与阴极间电容(Cfk)≤6.0pF.(极限运用数据)最大灯丝电压(Ufmax)=7.0V; 最小灯丝电压(Ufmin)=5.7V; 最大阳极电压(Uamax)=250V; 最大灯丝与阴极间电压(Ufkmax)(05月05日) [查看全文]6C31B灯丝电压(Uf)=6.3V;灯丝电流(If)=0.22A;阳极电压(Ua)=50V;阳极电流(Ia)=40±10mA;跨导(S)=20±6mA/V;放大系数(μ)>13.(极间电容)输入电容(Cin)=4.1±1.0pF;输出电容(Cout)≤1.5pF;过渡电容(Cag)=3.8±1.0pF;灯丝与阴极间电容(Cfk)≤5.5pF.(极限运用数据)最大灯丝电压(Ufmax)=7.0V; 最小灯丝电压(Ufmin)=5.7V; 最大阳极电压(Uamax)=100V; 最大灯丝与阴极间电压(Ufkmax)=±200V;最大阳极耗散功率(Pamax)=2(05月05日) [查看全文]6C19 灯丝电压(Uf)=6.3V;灯丝电流(If)=1±0.07A;阳极电压(Ua)=110V;栅极电压(Ug)=﹣7V;阳极电流(Ia)=105±25mA;阴极电阻(Rk)=130Ω;跨导(S)=7.5±1.5mA/V;内阻(Ri)=300Ω.(极间电容)输入电容(Cin)=6.5pF;输出电容(Cout)=2.5pF;过渡电容(Cag)=8.0pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大阳极耗散功率(Pamax)=11W;最大栅极电阻(Rgmax)=0.5MΩ;最大阳极电压①(Uamax(05月05日) [查看全文]6C16灯丝电压(Uf)=6.3V;灯丝电流(If)=0.3A;阳极电压(Ua)=150V;阳极电流(Ia)=24mA;阴极电阻(Rk)=60Ω;跨导(S)=24mA/V.(极间电容)输入电容(Cin)=10pF;输出电容(Cout)=1pF;过渡电容(Cag)=3pF.(极限运用数据)最大灯丝电压(Ufmax)=6.9V;最小灯丝电压(Ufmin)=5.7V;最大阳极电流(Iamax)=30mA;最大灯丝与阴极间电压(Ufkmax)=150V;最大阳极耗散功率(Pamax)=4W.(05月05日) [查看全文]6C12灯丝电压(Uf)=6.3V;灯丝电流(If)=0.17mA;阳极电压(Ua)=160V;阳极电流(Ia)=12±3mA;跨导(S)=13±3mA/V;放大系数(μ)=65.(极间电容)输入电容(Cin)=3.7±0.5pF;输出电容(Cout)=1.5±0.5pF;过渡电容(Cag)=0.08±0.02pF.(极限运用数据)最大灯丝电压(Ufmax)=7.0V;最小灯丝电压(Ufmin)=5.7V;最大阳极电压(Uamax)=175V;最大灯丝与阴极间电压(Ufkmax)=100V;最大阳极耗散功率(Pamax)=2W;最大栅极电阻(Rgmax)=1(05月05日) [查看全文]1Q5灯丝电压（Uf）=1.4V;灯丝电流（If）=0.1A;第一栅极电压（Ug1）-4.5V;跨导（S）=0.21mA/V.(应用数据)（A类单端放大）阳极电压（Ua）=90V;阳极电流（Ia）=9.5mA;第一栅极驱动信号电压（Ug1rms）=3.2V;第二栅极电压（Ug2）=90V;第二栅极电流（Ig2）=1.6mA;。

6N1 ECC85,6AQ8,6H1 JI6N4 12AX7,ECC83,E83CC,7729,CV4004,B759,CV4926N10 12AU7,ECC82,E82CC,7316,CV4003,5814,B749,61896N11 6DJ8,E88CC,ECC88,6922,ECC189,6J5,6H11N,7308,El88CC 6N8P 6SN7,B65,5692,33S30,CV1988,6H8C,6HM,6F8G,16336H8C 6HM,6F8G,1633,9002,6C8G6J8P 6SJ7,6267,EF86,12AT7ECC81,CV4024,6201,B739,A2900,2025,ECC80156N9P 6SL7,5691,33S29,VT2296F2 ECF82,6U86N2 6H2j功率用管代换表6P3P 6L6GC,58816P6P 6V6GT,5S2,KT63EL34 6CA7,KT66,7027A6P14 EL84,6BQ5,6 n i4n6N5P 6080,6AS7,6H5CFU-5 805FU-7 807,1625FU-13 813FU-46 06146BFU-17FU-605 6T517092 6T50FU811 811AFU812 812AGL-211 211300B WE300B,NL50,4300BKT88 6550,NT99,KT1002A3 2A3S845 845A6360,TY-7整流电子管代换及特性表型号代换型号Bb2V UfV/I I2L(mA) 最大型式5U4G 5Z3P,U52 500V 5V/3A 2500 直热式5Y3GT 522P 350V 5V/2A 125 直热式5R4GY 22S2C 900V 5V/2A 150 直热式5T4 450V 5V/3A 250A 直热式6Z4 350V 6.3V/0.5A 50 直热式6Z5 6X5 230V 6.3V/0.8A 60 旁热式6X4 325V 6.3V/0.5A 70 旁热式5Z4P 5Z4 400V 5V/2A 125 旁热式5AR4 GZ34 450V 5V/1.9A 250 旁热式5X4G 直热式双阳极二极管小功率全波整流氧化物阴极5Z3P直热式双阳极二极管小功率全波整流 5T4、5u 3C CV1861 5R4GY U52、CV1071 5V3 5AU4 5U4G氧化物阴极5Z4P旁热式双阳极二极管小功率全波整流*5B X 1、*5 u 4C, GZ30 CV2748 5Z4G/GT 氧化物阴极5Z1P 直热式双阳极二极管小功率全波整流氧化物阴极5Z2P 直热式双阳极二极管小功率全波整流 5W4 5Y3G 80 U50 氧化物阴极5Z8P旁热式双阳极二极管全波整流*5 u 8C氧化物阴极5Z9P旁热式双阳极二极管全波整流*5 u 9C氧化物阴极6Z4旁热式双阳极二极管全波整流*6 u 4口、6B X4、6X 4、6Z31共阴极6Z5P旁热式双阳极二极管小功率全波整流*6 u 5C共阴极6H2旁热式双阳极二极管检波、整流*6 X 2口、6AL5 C氧化物阴极6C1旁热式三极管宽带电压放大*6Ci n、CV664 9002氧化物阴极6C3旁热式三极管宽带电压放大*6C3n阴地三极管6C4旁热式三极管宽带电压放大*6C4n栅地三极管6C5P旁热式三极管低频电压放大 6C5GT *6C5C 6C5、CV1067 L63氧化物阴极6C6B旁热式三极管低频电压放大 5703、CV3917 *6C6b氧化物阴极6C7B 旁热式三极管低频电压放大*6C7b 氧化物阴极6C12旁热式三极管宽带电压放大 EC88 5842高S 、低N 6C31B-Q 旁热式三极管电压放大 *6C31b -B 氧化物阴极6C32B-Q 旁热式三极管电压放大 *6C32b -B 遥截止三极管6N1旁热式双三极管低频电压放大*6Hi n 、6AQ8 AA61、ECC40/82氧化物阴极 6N2旁热式双三极管低频电压放大*6H2n 、6AX7 6AV7 ECC41氧化物阴极6N3旁热式双三极管低频电压放大*6H3n 、6A8Q 2C51、ECC42氧化物阴极6N4旁热式双三极管低噪声电压放大 ECC83 12A X 7高卩、低N6N5P 旁热式双三极管低频功率放大*6H13C 6AS7 CV2523 6NS7G/GT 低 Ri6N6 (T)旁热式双三极管低频电压放大*6H6n 、E182CC 12BH7氧化物阴极6N16B 旁热式双三极管低频电压放大氧化物阴极 6N17B 旁热式双三极管低频电压放大 *6H17b 6112 CV5007 氧化物阴极6N21B-Q 旁热式双三极管低频电压放大氧化物阴极6N23旁热式双三极管低频电压放大 6DJ8 ECC88 PCC88高卩低N6N7P 旁热式双三极管低频功率放大 6H7 *H7C 6N7/G/GT 共阴极6N8P 旁热式双三极管低频电压放大 氧化物阴极 *6H8C*6H8M6SN7 6F8G CV181 QB65 ECC32 6N9P 旁热式双三极管低频电压放大 *6H9C 6SL7、ECC35 6SC7 6CY7 高卩 6N10 旁热式双三极管低频电压放大 *6H10M 12AV7A E82CC CV491 氧化物阴极 6N11 旁热式双三极管宽带电压放大 高 S 低 RI N *6H23n 、 6DJ8 ECC84E88CC6922 CV2492 6N12P 旁热式双三极管低频电压放大 *6H12C TS229 5687 氧化物阴极6N13P 旁热式双三极管低频功率放大 *6H13C 6AS7 CV2523 6NS7G/GT 低 内阻 6N15 旁热式双三极管低频电压放大 *6H15n 、 6J6WA 6CC31 CV858 共阴极6J1旁热锐止五极管宽带电压放大 *6冰i n、6AK5 6BC5 EF40 EF95 CV850高频管6J1B锐截止五极管宽带电压放大*6冰1b、CV3929、61489、CK5702/7083 旁热式阴极6J2锐截止五极管宽带电压放大*6冰2口、6AS6 CV2522 EF11/732、CV4011旁热式阴极6J2B锐截止五极管宽带电压放大*6冰2b、CK5639旁热式阴极6J3锐截止四极管宽带电压放大*6冰3口、EF96 CV848 6BC6 6AG5束射四极管6J4锐截止五极管宽带电压放大*6冰4、6136、6BX6 6AC7 EF94旁热式阴极6J4P锐截止五极管宽带电压放大*6冰4C CV849 1852旁热式阴极6J5锐截止高频管宽带电压放大*6冰5口、EF80 CV2521 6F36 6AH6高S、束射四极管6J7 旁热式阴极五极管低频电压放大 6*7 OM5C KTW61 EF37A W310A 57 STR4141 低噪声 N6J8 锐截止五极管低频电压放大 CV2901 6SJ7 6CF8 6267 EF16 EF86 2729 低噪声 N6J8P锐截止五极管宽带电压放大*6冰8C 5693、EF6 EBC3 CV592旁热式阴极6J9锐截止五极管宽带电压放大*6冰9口、EF861旁热式阴极6J20锐截止五极管宽带电压放大*6冰20n空间电荷栅6J23高互导双五极管宽带电压放大*6冰23n阴极框架栅6J23B-Q锐截止五极管宽带电压放大*6冰23B-K低振动噪声12J1S锐截止五极管小功率放大*12冰1畀氧化物阴极6K1B 遥截止五极管宽带电压放大 *6K16K3P遥截止五极管宽带电压放大*6K3、6SK7 6K7、KTZ63 CV1074 6D6 6SG7 旁热式阴极6K4遥截止五极管宽带电压放大*6K4n、6BA6 6DA6 EF89/93、5749、6K5旁热式阴极6K5 遥截止五极管宽带电压放大同 6K4 旁热式阴极12K3P 遥截止五极管宽带电压放大 12K3 12SK7/GT 旁热式阴极2P2输出四极管低频功率放大 2n 2口、DL92 1S4T 1L33、1L34直热式阴极2P3 束射四极管低频功率放大 3A4 1662 CV807 DL93 直热式阴极2P19B 五极管功率放大直热式阴极2P29直热式五极管功率放大*2、*2 n29畀氧化物阴极4P1S直热式阴极功率放大*4 n 1畀、4L2D五极管6P1束射四极管低频功率放大*6 n 1口、6AQ5 6BW6 6L31、EL14 90旁热式阴极6P3P 束射四极管低频功率放大 *6 n 3C *6 JI 6C 6L6、6L6G/GT 1614、1619、 1622 同型：1631、6TT3C6P4P 束射四极管低频功率放大旁热式阴极6P6P旁热式束射四极管低频功率放大*6 n 2、*6 n 6C 6①6、1611、1613、1621、6K6、 CV509、 6V6GT、 CV510、 CV1912、 CV511、 6N6C、 KT636P9P旁热式五极管宽带功率放大*6 n9C CV569氧化物阴极6P13P束射四极管低频功率放大*6 n 13C （旁热）旁热式阴极6P14P旁热式五极管宽带功率放大*6 n 14口、6BQ5 N709 EL84 CV2975 7320、 6L40 氧化物阴极6P15P 旁热式五极管低频功率放大 6CH6 6CW5 EL180 EL821 CV2127 12BY7A 氧化物阴极6P25B束射四极管低频功率放大*6 n 25 b、EL71、5902氧化物阴极6P30B-Q束射四极管低频功率放大*6 n 30b -B （旁热）氧化物阴极6P31B-Q束射四极管低频功率放大*6 n 31b -B （旁热）氧化物阴极13P1P输出五极管低频功率放大*13 n 1C旁热式阴极6S6高S五极管电压/功率放大*6 B 1 n （旁热）氧化物阴极6T1 高频双四极管推挽输出 QM322、5656 旁热式阴极6A2 七极电子管 T UNER变频 CV453 EK90 X77、*6A2n、6BE5 5750 旁热式阴极6F1三极-五极管变频/电压放大*6①1口、6BL 8 6C16旁热式阴极6F2三极-五极管变频/电压放大 6①2口、6U8 6GH CV5065 ECF82 6BL8旁热式阴极6G2P双二极-三极管检波、电压放大*6 r 2、6SQ7 6SQ7GT/G旁热式阴极WE300B直热式三极管功率放大 300B 4300A古典式低内阻FU-5 直热式三极管低频功率放大 T100-1、RK57、ML714、NU-150、CV2622、CV2768 F123A、GL805、HF150、CV25FU-7 旁热式四极管大 S 功率放大 QV05-25、RK39、HY-61、QE06-50、CV124、8075B/250A、807V、5S1FU-13 直热束射四极管功率放大 * r Y-13、813、4B13 TT10> QY2-100 QB2 250、CV278、4T100 CV1927、3874A、5C/100AFU-15直热束射五极管中功率放大* r 丫-15氧化物热子FU-17 双束射四极管中功率放大 * r Y-17、CV3517 6360、QQV03-10 QQV03/12 旁热式阴极FU-25 旁热束射四极管宽带功率放大 1625、FD-25 氧化物阴极FU-29双束射四极管宽带功率放大*r 丫-29、829B旁热式阴极FU-31 直热式三极管宽带功率放大 2T26、826、826“RCA”钍钨阴极FU-32 双束射四极管宽带功率放大 * r Y-32、RS1019 TT20SRS4452 QQEO3/20P2-12 与 FU-29类同FU-33 直热式三极管功率放大 ES833、CV635、B142、3578、833A、5T33 钍钨阴极FU-46 旁热式五极管中功率放大 QV06-20、P40、QE05/40、7212、6146、2B46 氧化物阴极FU-50束射五极管宽带功率放大* r Y-50、SRS552 P50/2旁热式阴极FU-811直热式三极管宽带功率放大*r -811、811A钍钨阴极FU-250F旁热式四极管宽带功率放大 4C X 250A金属陶瓷型EL81 旁热式五极管功率放大 6CJ6 氧化物阴极845直热式三极管功率放大 UV-845 Po~ 100W6CY7旁热式双二极管电压放大每组**管特性参数不同Rg< 100k Q6CX8旁热式三极管-五极管电压放大和P-K分割比6U9 6F2靓高S 18045 旁热式五极管小型功放作耳机放大有极佳表现 Po> 1WFC4旁热式三极管电压放大* r C4金属陶瓷管 6C22D 旁热式三极管电压放大 5876 金属陶瓷管 6550 旁热束射四极管功率放大 KT88 氧化物阴极KT100 旁热束射四极管功率放大 KT94 氧化物阴极PL81 旁热式五极管功率放大 21A6 氧化物阴极EL34 旁热式五极管功率放大 6CA7、 KT66 氧化物阴极2A3 直热式三极管功率放大 *2C4、 AD1、 6A3、 6B4G、 6C4C211 直热式三极管功率放大FD422 直热式五极管功率放大 2E226C33C-B 旁热式三极管功率放大805 胆管可更换 FU-5,6N11 可更换 6922 或者6DJ8,6P6P 可更换 6V6-GT欢迎您的下载，资料仅供参考!致力为企业和个人提供合同协议，策划案计划书，学习资料等等打造全网一站式需求。

电子管6n11引脚图管脚识别代换资料6n11是在音响功放电路中常用的放大元件电子管,国产6N11正常屏压大致在90－130V之间，6N1/6N2/6N11的管脚接线一致.小九脚管（俗称“北京管”），详见下图中的详细参数和管脚资料。

1(6)屏极，2（7）栅极，3（8）阴极，45灯丝.<6n11参数>6N11代换资料:可以直代6DJ8，6922，E88CC，ECC88，7308等；电子管又叫真空管，美国人称为Tube，英国人称为Valve。

J.A.Fleming于1904年制造出第一只二极管Diode，从此以后整流器才开始应用在各行各业；De Forest Lee于1907年在二极管的基础上制作出了三极管Triode，从而使得放大器诞生了；之后衍生出的五级管Pentode和束射四极管Beam Tetrode，使电子管可以工作于更高的频率和输出更大的功率。

没有这些东西的发明也就没有现代如此发达的信息社会。

电子管6n11参数资料：说明：类型:旁热式阴极高频双三极管主要用途:低噪声高频电压放大（单只三极管）灯丝电压(Uf)=6.3V;灯丝电流(If)=0.34A;阳极电压（Ua）=90V;阳极电流（Ia）=12～21.5mA;跨导（S）=9.5±15.7mA/V;放大系数（μ）=27±6;阴极电阻（Rk）=90Ω.(极间电容)输入电容（Cin）=3.4pF;输出电容（Cout）=1.8pF;过渡电容（Cag）=1.8pF.(极限运用数据)最大灯丝电压（Ufmax）=6.9V;最小灯丝电压（Ufmin）=5.7V;最大阳极电压（Uamax）=130V;最大灯丝与阴极间电压（Ufkmax）±150V; 最大阴极电流（Ikmax）=22mA;最大阳极耗散功率（Pamax）＝2Ｗ;最大栅极电阻（Rgmax）=1MΩ.。