1n5338b

-10 位 ADC（仅 C8051F380/1/2/3/C）•高达 500ksps•内建模拟多路复用器，单端和差分模式•VREF 来自外部引脚、内部参考或 V DD•内建温度传感器•外部转换启动输入选项-两个比较器-内部参考电压（仅 C8051F380/1/2/3/C）-掉电检测器和上电复位电路USB 功能控制器-符合 USB 规格 2.0-全速 (12Mbps) 或低速 (1.5Mbps) 运行-集成时钟恢复；全速或低速无需外部晶体-支持八个灵活的终端-1kB USB 缓冲存储器-集成收发器；无需外部电阻片上调试-片上调试电路提供全速、非侵入式的系统内调试（无需仿真器）-提供断点、单步执行、检查/修改内存和寄存器-比使用 ICE 芯片、目标仿真头和仿真插座的仿真系统有更优越的性能电源电压输入： 2.7 至 5.25V-使用片内稳压器时，支持的电压范围为 2.7~5.25V -流水线指令体系结构；70% 指令的执行时间为 1 个或2个系统时钟-高达 48 MIPS 的操作-扩展的中断处理程序内存-4352 或 2304字节 RAM-64、32 或 16kB 闪存；可在系统内编程的 512 字节扇区数字外围设备-40/25 个端口 I/O；全部能承受 5V 高灌电流-硬件增强型SPI™、两个 I2C/SMBus™ 和两个增强型UART 串口-六个通用 16 位计数器/定时器-16 位可编程计数器阵列 (PCA)，有五个采集/比较模块-外部存储器接口 (EMIF)时钟源-内部振荡器：启用时钟恢复时精度为 ±0.25%。

支持所有USB 和 UART 模式-外部振荡器：晶体、RC、C 或时钟（1 或 2 引脚模式）-低频 (80kHz) 内部振荡器-在运行中可切换时钟源封装-48 引脚 TQFP (C8051F380/2/4/6)-32 引脚 LQFP (C8051F381/3/5/7/C)-5x5mm 32 引脚 QFN (C8051F381/3/5/7/C)温度范围： –40 至 +85°CC8051F380/1/2/3/4/5/6/7/CC8051F380/1/2/3/4/5/6/7/CTable of Contents1. System Overview (16)2. C8051F34x Compatibility (20)2.1. Hardware Incompatibilities (21)3. Pinout and Package Definitions (22)4. Typical Connection Diagrams (34)4.1. Power (34)4.2. USB (36)4.3. Voltage Reference (VREF) (36)5. Electrical Characteristics (37)5.1. Absolute Maximum Specifications (37)5.2. Electrical Characteristics (38)6. 10-Bit ADC (ADC0, C8051F380/1/2/3/C only) (46)6.1. Output Code Formatting (47)6.3. Modes of Operation (50)6.3.1. Starting a Conversion (50)6.3.2. Tracking Modes (51)6.3.3. Settling Time Requirements (52)6.4. Programmable Window Detector (56)6.4.1. Window Detector Example (58)6.5. ADC0 Analog Multiplexer (C8051F380/1/2/3/C only) (59)7. Voltage Reference Options (62)8. Comparator0 and Comparator1 (64)8.1. Comparator Multiplexers (71)9. Voltage Regulators (REG0 and REG1) (74)9.1. Voltage Regulator (REG0) (74)9.1.1. Regulator Mode Selection (74)9.1.2. VBUS Detection (74)9.2. Voltage Regulator (REG1) (74)10. Power Management Modes (76)10.1. Idle Mode (76)10.2. Stop Mode (77)10.3. Suspend Mode (77)11. CIP-51 Microcontroller (79)11.1. Instruction Set (80)11.1.1. Instruction and CPU Timing (80)11.2. CIP-51 Register Descriptions (85)12. Prefetch Engine (88)13. Memory Organization (89)13.1. Program Memory (91)13.2. Data Memory (91)13.3. General Purpose Registers (92)13.4. Bit Addressable Locations (92)13.5. Stack (92)C8051F380/1/2/3/4/5/6/7/C14. External Data Memory Interface and On-Chip XRAM (93)14.1. Accessing XRAM (93)14.1.1. 16-Bit MOVX Example (93)14.1.2. 8-Bit MOVX Example (93)14.2. Accessing USB FIFO Space (94)14.3. Configuring the External Memory Interface (95)14.4. Port Configuration (95)14.5. Multiplexed and Non-multiplexed Selection (98)14.5.1. Multiplexed Configuration (98)14.5.2. Non-multiplexed Configuration (98)14.6. Memory Mode Selection (100)14.6.1. Internal XRAM Only (100)14.6.2. Split Mode without Bank Select (100)14.6.3. Split Mode with Bank Select (101)14.6.4. External Only (101)14.7. Timing (102)14.7.1. Non-multiplexed Mode (104)14.7.1.1. 16-bit MOVX: EMI0CF[4:2] = 101, 110, or 111 (104)14.7.1.2. 8-bit MOVX without Bank Select: EMI0CF[4:2] = 101 or 111 (105)14.7.1.3. 8-bit MOVX with Bank Select: EMI0CF[4:2] = 110 (106)14.7.2. Multiplexed Mode (107)14.7.2.1. 16-bit MOVX: EMI0CF[4:2] = 001, 010, or 011 (107)14.7.2.2. 8-bit MOVX without Bank Select: EMI0CF[4:2] = 001 or 011 (108)14.7.2.3. 8-bit MOVX with Bank Select: EMI0CF[4:2] = 010 (109)15. Special Function Registers (111)15.1. 13.1. SFR Paging (111)16. Interrupts (118)16.1. MCU Interrupt Sources and Vectors (119)16.1.1. Interrupt Priorities (119)16.1.2. Interrupt Latency (119)16.2. Interrupt Register Descriptions (119)16.3. INT0 and INT1 External Interrupt Sources (127)17. Reset Sources (129)17.1. Power-On Reset (130)17.2. Power-Fail Reset / VDD Monitor (131)17.3. External Reset (132)17.4. Missing Clock Detector Reset (132)17.5. Comparator0 Reset (132)17.6. PCA Watchdog Timer Reset (133)17.7. Flash Error Reset (133)17.8. Software Reset (133)17.9. USB Reset (133)18. Flash Memory (135)18.1. Programming The Flash Memory (135)18.1.1. Flash Lock and Key Functions (135)C8051F380/1/2/3/4/5/6/7/C18.1.2. Flash Erase Procedure (135)18.1.3. Flash Write Procedure (136)18.2. Non-Volatile Data Storage (137)18.3. Security Options (137)19. Oscillators and Clock Selection (142)19.1. System Clock Selection (143)19.2. USB Clock Selection (143)19.3. Programmable Internal High-Frequency (H-F) Oscillator (145)19.3.1. Internal Oscillator Suspend Mode (145)19.4. Clock Multiplier (147)19.5. Programmable Internal Low-Frequency (L-F) Oscillator (148)19.5.1. Calibrating the Internal L-F Oscillator (148)19.6. External Oscillator Drive Circuit (149)19.6.1. External Crystal Mode (149)19.6.2. External RC Example (151)19.6.3. External Capacitor Example (151)20. Port Input/Output (153)20.1. Priority Crossbar Decoder (154)20.2. Port I/O Initialization (158)20.3. General Purpose Port I/O (161)21. Universal Serial Bus Controller (USB0) (172)21.1. Endpoint Addressing (172)21.2. USB Transceiver (173)21.3. USB Register Access (175)21.4. USB Clock Configuration (179)21.5. FIFO Management (181)21.5.1. FIFO Split Mode (181)21.5.2. FIFO Double Buffering (182)21.5.1. FIFO Access (182)21.6. Function Addressing (183)21.7. Function Configuration and Control (183)21.8. Interrupts (186)21.9. The Serial Interface Engine (193)21.10. Endpoint0 (193)21.10.1. Endpoint0 SETUP Transactions (193)21.10.2. Endpoint0 IN Transactions (193)21.10.3. Endpoint0 OUT Transactions (194)21.11. Configuring Endpoints1-3 (196)21.12. Controlling Endpoints1-3 IN (197)21.12.1. Endpoints1-3 IN Interrupt or Bulk Mode (197)21.12.2. Endpoints1-3 IN Isochronous Mode (198)21.13. Controlling Endpoints1-3 OUT (201)21.13.1. Endpoints1-3 OUT Interrupt or Bulk Mode (201)21.13.2. Endpoints1-3 OUT Isochronous Mode (201)22. SMBus0 and SMBus1 (I2C Compatible) (205)C8051F380/1/2/3/4/5/6/7/C22.1. Supporting Documents (206)22.2. SMBus Configuration (206)22.3. SMBus Operation (206)22.3.1. Transmitter Vs. Receiver (207)22.3.2. Arbitration (207)22.3.3. Clock Low Extension (207)22.3.4. SCL Low Timeout (207)22.3.5. SCL High (SMBus Free) Timeout (208)22.4. Using the SMBus (208)22.4.1. SMBus Configuration Register (208)22.4.2. SMBus Timing Control Register (210)22.4.3. SMBnCN Control Register (214)22.4.3.1. Software ACK Generation (214)22.4.3.2. Hardware ACK Generation (214)22.4.4. Hardware Slave Address Recognition (217)22.4.5. Data Register (221)22.5. SMBus Transfer Modes (223)22.5.1. Write Sequence (Master) (223)22.5.2. Read Sequence (Master) (224)22.5.3. Write Sequence (Slave) (225)22.5.4. Read Sequence (Slave) (226)22.6. SMBus Status Decoding (226)23. UART0 (232)23.1. Enhanced Baud Rate Generation (233)23.2. Operational Modes (234)23.2.1. 8-Bit UART (234)23.2.2. 9-Bit UART (235)23.3. Multiprocessor Communications (236)24. UART1 (240)24.1. Baud Rate Generator (241)24.2. Data Format (242)24.3. Configuration and Operation (243)24.3.1. Data Transmission (243)24.3.2. Data Reception (243)24.3.3. Multiprocessor Communications (244)25. Enhanced Serial Peripheral Interface (SPI0) (250)25.1. Signal Descriptions (251)25.1.1. Master Out, Slave In (MOSI) (251)25.1.2. Master In, Slave Out (MISO) (251)25.1.3. Serial Clock (SCK) (251)25.1.4. Slave Select (NSS) (251)25.2. SPI0 Master Mode Operation (251)25.3. SPI0 Slave Mode Operation (253)25.4. SPI0 Interrupt Sources (254)25.5. Serial Clock Phase and Polarity (254)25.6. SPI Special Function Registers (256)26. Timers (263)26.1. Timer 0 and Timer 1 (266)26.1.1. Mode 0: 13-bit Counter/Timer (266)26.1.2. Mode 1: 16-bit Counter/Timer (267)26.1.3. Mode 2: 8-bit Counter/Timer with Auto-Reload (267)26.1.4. Mode 3: Two 8-bit Counter/Timers (Timer 0 Only) (268)26.2. Timer 2 (274)26.2.1. 16-bit Timer with Auto-Reload (274)26.2.2. 8-bit Timers with Auto-Reload (275)26.2.3. Timer 2 Capture Modes: USB Start-of-Frame or LFO Falling Edge (275)26.3. Timer 3 (281)26.3.1. 16-bit Timer with Auto-Reload (281)26.3.2. 8-bit Timers with Auto-Reload (282)26.3.3. Timer 3 Capture Modes: USB Start-of-Frame or LFO Falling Edge (282)26.4. Timer 4 (288)26.4.1. 16-bit Timer with Auto-Reload (288)26.4.2. 8-bit Timers with Auto-Reload (289)26.5. Timer 5 (293)26.5.1. 16-bit Timer with Auto-Reload (293)26.5.2. 8-bit Timers with Auto-Reload (294)27. Programmable Counter Array (298)27.1. PCA Counter/Timer (299)27.2. PCA0 Interrupt Sources (300)27.3. Capture/Compare Modules (301)27.3.1. Edge-triggered Capture Mode (302)27.3.2. Software Timer (Compare) Mode (303)27.3.3. High-Speed Output Mode (304)27.3.4. Frequency Output Mode (305)27.3.5. 8-bit Pulse Width Modulator Mode (306)27.3.6. 16-Bit Pulse Width Modulator Mode (307)27.4. Watchdog Timer Mode (308)27.4.1. Watchdog Timer Operation (308)27.4.2. Watchdog Timer Usage (309)27.5. Register Descriptions for PCA0 (311)28. C2 Interface (316)28.1. C2 Interface Registers (316)28.2. C2 Pin Sharing (319)Document Change List (320)Contact Information (321)List of FiguresFigure1.1. C8051F380/2/4/6 Block Diagram (18)Figure1.2. C8051F381/3/5/7/C Block Diagram (19)Figure3.1. TQFP-48 Pinout Diagram (Top View) (25)Figure3.2. TQFP-48 Package Diagram (26)Figure3.3. TQFP-48 Recommended PCB Land Pattern (27)Figure3.4. LQFP-32 Pinout Diagram (Top View) (28)Figure3.5. LQFP-32 Package Diagram (29)Figure3.6. LQFP-32 Recommended PCB Land Pattern (30)Figure3.7. QFN-32 Pinout Diagram (Top View) (31)Figure3.8. QFN-32 Package Drawing (32)Figure3.9. QFN-32 Recommended PCB Land Pattern (33)Figure4.1. Connection Diagram with Voltage Regulator Used and No USB (34)Figure4.2. Connection Diagram with Voltage Regulator Not Used and No USB (34)Figure4.3. Connection Diagram with Voltage Regulator Used and USB Connected (Bus-Powered) (35)Figure4.4. Connection Diagram with Voltage Regulator Used and USB Connected (Self-Powered) (35)Figure4.5. Connection Diagram for USB Pins (36)Figure4.6. Connection Diagram for Internal Voltage Reference (36)Figure6.1. ADC0 Functional Block Diagram (46)Figure6.2. Typical Temperature Sensor Transfer Function (48)Figure6.3. Temperature Sensor Error with 1-Point Calibration (49)Figure6.4. 10-Bit ADC Track and Conversion Example Timing (51)Figure6.5. ADC0 Equivalent Input Circuits (52)Figure6.6. ADC Window Compare Example: Right-Justified Data (58)Figure6.7. ADC Window Compare Example: Left-Justified Data (58)Figure7.1. Voltage Reference Functional Block Diagram (62)Figure8.1. Comparator0 Functional Block Diagram (64)Figure8.2. Comparator1 Functional Block Diagram (65)Figure8.3. Comparator Hysteresis Plot (66)Figure8.4. Comparator Input Multiplexer Block Diagram (71)Figure11.1. CIP-51 Block Diagram (79)Figure13.1. On-Chip Memory Map for 64kB Devices (C8051F380/1/4/5) (89)Figure13.2. On-Chip Memory Map for 32kB Devices (C8051F382/3/6/7) (90)Figure13.3. On-Chip Memory Map for 16kB Devices (C8051F38C) (91)Figure14.1. USB FIFO Space and XRAM Memory Map with USBFAE set to ‘1’ (94)Figure14.2. Multiplexed Configuration Example (98)Figure14.3. Non-multiplexed Configuration Example (99)Figure14.4. EMIF Operating Modes (100)Figure14.5. Non-Multiplexed 16-bit MOVX Timing (104)Figure14.6. Non-multiplexed 8-bit MOVX without Bank Select Timing (105)Figure14.7. Non-multiplexed 8-bit MOVX with Bank Select Timing (106)Figure14.8. Multiplexed 16-bit MOVX Timing (107)C8051F380/1/2/3/4/5/6/7/CFigure14.9. Multiplexed 8-bit MOVX without Bank Select Timing (108)Figure14.10. Multiplexed 8-bit MOVX with Bank Select Timing (109)Figure17.1. Reset Sources (129)Figure17.2. Power-On and VDD Monitor Reset Timing (130)Figure18.1. Flash Program Memory Map and Security Byte (137)Figure19.1. Oscillator Options (142)Figure19.2. External Crystal Example (150)Figure20.1. Port I/O Functional Block Diagram (Port 0 through Port 3) (153)Figure20.2. Port I/O Cell Block Diagram (154)Figure20.3. Peripheral Availability on Port I/O Pins (155)Figure20.4. Crossbar Priority Decoder in Example Configuration(No Pins Skipped) (156)Figure20.5. Crossbar Priority Decoder in Example Configuration (3 Pins Skipped) (157)Figure21.1. USB0 Block Diagram (172)Figure21.2. USB0 Register Access Scheme (175)Figure21.3. USB FIFO Allocation (181)Figure22.1. SMBus Block Diagram (205)Figure22.2. Typical SMBus Configuration (206)Figure22.3. SMBus Transaction (207)Figure22.4. Typical SMBus SCL Generation (209)Figure22.5. Typical Master Write Sequence (223)Figure22.6. Typical Master Read Sequence (224)Figure22.7. Typical Slave Write Sequence (225)Figure22.8. Typical Slave Read Sequence (226)Figure23.1. UART0 Block Diagram (232)Figure23.2. UART0 Baud Rate Logic (233)Figure23.3. UART Interconnect Diagram (234)Figure23.4. 8-Bit UART Timing Diagram (234)Figure23.5. 9-Bit UART Timing Diagram (235)Figure23.6. UART Multi-Processor Mode Interconnect Diagram (236)Figure24.1. UART1 Block Diagram (240)Figure24.2. UART1 Timing Without Parity or Extra Bit (242)Figure24.3. UART1 Timing With Parity (242)Figure24.4. UART1 Timing With Extra Bit (242)Figure24.5. Typical UART Interconnect Diagram (243)Figure24.6. UART Multi-Processor Mode Interconnect Diagram (244)Figure25.1. SPI Block Diagram (250)Figure25.2. Multiple-Master Mode Connection Diagram (252)Figure25.3. 3-Wire Single Master and 3-Wire Single Slave Mode Connection Diagram (252)Figure25.4. 4-Wire Single Master Mode and 4-Wire Slave Mode Connection Diagram (253)Figure25.5. Master Mode Data/Clock Timing (255)Figure25.6. Slave Mode Data/Clock Timing (CKPHA = 0) (255)C8051F380/1/2/3/4/5/6/7/C Figure25.7. Slave Mode Data/Clock Timing (CKPHA = 1) (256)Figure25.8. SPI Master Timing (CKPHA = 0) (260)Figure25.9. SPI Master Timing (CKPHA = 1) (260)Figure25.10. SPI Slave Timing (CKPHA = 0) (261)Figure25.11. SPI Slave Timing (CKPHA = 1) (261)Figure26.1. T0 Mode 0 Block Diagram (267)Figure26.2. T0 Mode 2 Block Diagram (268)Figure26.3. T0 Mode 3 Block Diagram (269)Figure26.4. Timer 2 16-Bit Mode Block Diagram (274)Figure26.5. Timer 2 8-Bit Mode Block Diagram (275)Figure26.6. Timer2 Capture Mode (T2SPLIT = 0) (276)Figure26.7. Timer2 Capture Mode (T2SPLIT = 0) (277)Figure26.8. Timer 3 16-Bit Mode Block Diagram (281)Figure26.9. Timer 3 8-Bit Mode Block Diagram (282)Figure26.10. Timer3 Capture Mode (T3SPLIT = 0) (283)Figure26.11. Timer3 Capture Mode (T3SPLIT = 0) (284)Figure26.12. Timer 4 16-Bit Mode Block Diagram (288)Figure26.13. Timer 4 8-Bit Mode Block Diagram (289)Figure26.14. Timer 5 16-Bit Mode Block Diagram (293)Figure26.15. Timer 5 8-Bit Mode Block Diagram (294)Figure27.1. PCA Block Diagram (298)Figure27.2. PCA Counter/Timer Block Diagram (299)Figure27.3. PCA Interrupt Block Diagram (300)Figure27.4. PCA Capture Mode Diagram (302)Figure27.5. PCA Software Timer Mode Diagram (303)Figure27.6. PCA High-Speed Output Mode Diagram (304)Figure27.7. PCA Frequency Output Mode (305)Figure27.8. PCA 8-Bit PWM Mode Diagram (306)Figure27.9. PCA 16-Bit PWM Mode (307)Figure27.10. PCA Module 4 with Watchdog Timer Enabled (308)Figure28.1. Typical C2 Pin Sharing (319)List of TablesTable1.1. Product Selection Guide (17)Table2.1. C8051F38x Replacement Part Numbers (20)Table3.1. Pin Definitions for the C8051F380/1/2/3/4/5/6/7/C (22)Table3.2. TQFP-48 Package Dimensions (26)Table3.3. TQFP-48 PCB Land Pattern Dimensions (27)Table3.4. LQFP-32 Package Dimensions (29)Table3.5. LQFP-32 PCB Land Pattern Dimensions (30)Table3.6. QFN-32 Package Dimensions (32)Table3.7. QFN-32 PCB Land Pattern Dimensions (33)Table5.1. Absolute Maximum Ratings (37)Table5.2. Global Electrical Characteristics (38)Table5.3. Port I/O DC Electrical Characteristics (39)Table5.4. Reset Electrical Characteristics (39)Table5.5. Internal Voltage Regulator Electrical Characteristics (40)Table5.6. Flash Electrical Characteristics (40)Table5.7. Internal High-Frequency Oscillator Electrical Characteristics (41)Table5.8. Internal Low-Frequency Oscillator Electrical Characteristics (41)Table5.9. External Oscillator Electrical Characteristics (41)Table5.10. ADC0 Electrical Characteristics (42)Table5.11. Temperature Sensor Electrical Characteristics (43)Table5.12. Voltage Reference Electrical Characteristics (43)Table5.13. Comparator Electrical Characteristics (44)Table5.14. USB Transceiver Electrical Characteristics (45)Table11.1. CIP-51 Instruction Set Summary (81)Table14.1. AC Parameters for External Memory Interface (110)Table15.1. Special Function Register (SFR) Memory Map (112)Table15.2. Special Function Registers (113)Table16.1. Interrupt Summary (120)Table21.1. Endpoint Addressing Scheme (173)Table21.2. USB0 Controller Registers (178)Table21.3. FIFO Configurations (182)Table22.1. SMBus Clock Source Selection (209)Table22.2. Minimum SDA Setup and Hold Times (210)Table22.3. Sources for Hardware Changes to SMBnCN (217)Table22.4. Hardware Address Recognition Examples (EHACK = 1) (218)Table22.5. SMBus Status Decoding: Hardware ACK Disabled (EHACK = 0) (227)Table22.6. SMBus Status Decoding: Hardware ACK Enabled (EHACK = 1) (229)Table23.1. Timer Settings for Standard Baud Rates Using Internal Oscillator (238)Table24.1. Baud Rate Generator Settings for Standard Baud Rates (241)Table25.1. SPI Slave Timing Parameters (262)Table27.1. PCA Timebase Input Options (299)Table27.2. PCA0CPM Bit Settings for PCA Capture/Compare Modules (301)Table27.3. Watchdog Timer Timeout Intervals1 (310)List of RegistersSFR Definition6.1. ADC0CF: ADC0 Configuration (53)SFR Definition6.2. ADC0H: ADC0 Data Word MSB (54)SFR Definition6.3. ADC0L: ADC0 Data Word LSB (54)SFR Definition6.4. ADC0CN: ADC0 Control (55)SFR Definition6.5. ADC0GTH: ADC0 Greater-Than Data High Byte (56)SFR Definition6.6. ADC0GTL: ADC0 Greater-Than Data Low Byte (56)SFR Definition6.7. ADC0LTH: ADC0 Less-Than Data High Byte (57)SFR Definition6.8. ADC0LTL: ADC0 Less-Than Data Low Byte (57)SFR Definition6.9. AMX0P: AMUX0 Positive Channel Select (60)SFR Definition6.10. AMX0N: AMUX0 Negative Channel Select (61)SFR Definition7.1. REF0CN: Reference Control (63)SFR Definition8.1. CPT0CN: Comparator0 Control (67)SFR Definition8.2. CPT0MD: Comparator0 Mode Selection (68)SFR Definition8.3. CPT1CN: Comparator1 Control (69)SFR Definition8.4. CPT1MD: Comparator1 Mode Selection (70)SFR Definition8.5. CPT0MX: Comparator0 MUX Selection (72)SFR Definition8.6. CPT1MX: Comparator1 MUX Selection (73)SFR Definition9.1. REG01CN: Voltage Regulator Control (75)SFR Definition10.1. PCON: Power Control (78)SFR Definition11.1. DPL: Data Pointer Low Byte (85)SFR Definition11.2. DPH: Data Pointer High Byte (85)SFR Definition11.3. SP: Stack Pointer (86)SFR Definition11.4. ACC: Accumulator (86)SFR Definition11.5. B: B Register (86)SFR Definition11.6. PSW: Program Status Word (87)SFR Definition12.1. PFE0CN: Prefetch Engine Control (88)SFR Definition14.1. EMI0CN: External Memory Interface Control (96)SFR Definition14.2. EMI0CF: External Memory Interface Configuration (97)SFR Definition14.3. EMI0TC: External Memory TIming Control (103)SFR Definition15.1. SFRPAGE: SFR Page (111)SFR Definition16.1. IE: Interrupt Enable (121)SFR Definition16.2. IP: Interrupt Priority (122)SFR Definition16.3. EIE1: Extended Interrupt Enable 1 (123)SFR Definition16.4. EIP1: Extended Interrupt Priority 1 (124)SFR Definition16.5. EIE2: Extended Interrupt Enable 2 (125)SFR Definition16.6. EIP2: Extended Interrupt Priority 2 (126)SFR Definition16.7. IT01CF: INT0/INT1 ConfigurationO (128)SFR Definition17.1. VDM0CN: VDD Monitor Control (132)SFR Definition17.2. RSTSRC: Reset Source (134)SFR Definition18.1. PSCTL: Program Store R/W Control (139)SFR Definition18.2. FLKEY: Flash Lock and Key (140)SFR Definition18.3. FLSCL: Flash Scale (141)SFR Definition19.1. CLKSEL: Clock Select (144)C8051F380/1/2/3/4/5/6/7/CSFR Definition19.2. OSCICL: Internal H-F Oscillator Calibration (145)SFR Definition19.3. OSCICN: Internal H-F Oscillator Control (146)SFR Definition19.4. CLKMUL: Clock Multiplier Control (147)SFR Definition19.5. OSCLCN: Internal L-F Oscillator Control (148)SFR Definition19.6. OSCXCN: External Oscillator Control (152)SFR Definition20.1. XBR0: Port I/O Crossbar Register 0 (159)SFR Definition20.2. XBR1: Port I/O Crossbar Register 1 (160)SFR Definition20.3. XBR2: Port I/O Crossbar Register 2 (161)SFR Definition20.4. P0: Port 0 (162)SFR Definition20.5. P0MDIN: Port 0 Input Mode (162)SFR Definition20.6. P0MDOUT: Port 0 Output Mode (163)SFR Definition20.7. P0SKIP: Port 0 Skip (163)SFR Definition20.8. P1: Port 1 (164)SFR Definition20.9. P1MDIN: Port 1 Input Mode (164)SFR Definition20.10. P1MDOUT: Port 1 Output Mode (165)SFR Definition20.11. P1SKIP: Port 1 Skip (165)SFR Definition20.12. P2: Port 2 (166)SFR Definition20.13. P2MDIN: Port 2 Input Mode (166)SFR Definition20.14. P2MDOUT: Port 2 Output Mode (167)SFR Definition20.15. P2SKIP: Port 2 Skip (167)SFR Definition20.16. P3: Port 3 (168)SFR Definition20.17. P3MDIN: Port 3 Input Mode (168)SFR Definition20.18. P3MDOUT: Port 3 Output Mode (169)SFR Definition20.19. P3SKIP: Port 3 Skip (169)SFR Definition20.20. P4: Port 4 (170)SFR Definition20.21. P4MDIN: Port 4 Input Mode (170)SFR Definition20.22. P4MDOUT: Port 4 Output Mode (171)SFR Definition21.1. USB0XCN: USB0 Transceiver Control (174)SFR Definition21.2. USB0ADR: USB0 Indirect Address (176)SFR Definition21.3. USB0DAT: USB0 Data (177)USB Register Definition21.4. INDEX: USB0 Endpoint Index (179)USB Register Definition21.5. CLKREC: Clock Recovery Control (180)USB Register Definition21.6. FIFOn: USB0 Endpoint FIFO Access (182)USB Register Definition21.7. FADDR: USB0 Function Address (183)USB Register Definition21.8. POWER: USB0 Power (185)USB Register Definition21.9. FRAMEL: USB0 Frame Number Low (186)USB Register Definition21.10. FRAMEH: USB0 Frame Number High (186)USB Register Definition21.11. IN1INT: USB0 IN Endpoint Interrupt (187)USB Register Definition21.12. OUT1INT: USB0 OUT Endpoint Interrupt (188)USB Register Definition21.13. CMINT: USB0 Common Interrupt (189)USB Register Definition21.14. IN1IE: USB0 IN Endpoint Interrupt Enable (190)USB Register Definition21.15. OUT1IE: USB0 OUT Endpoint Interrupt Enable (191)USB Register Definition21.16. CMIE: USB0 Common Interrupt Enable (192)USB Register Definition21.17. E0CSR: USB0 Endpoint0 Control (195)USB Register Definition21.18. E0CNT: USB0 Endpoint0 Data Count (196)C8051F380/1/2/3/4/5/6/7/C USB Register Definition21.19. EENABLE: USB0 Endpoint Enable (197)USB Register Definition21.20. EINCSRL: USB0 IN Endpoint Control Low (199)USB Register Definition21.21. EINCSRH: USB0 IN Endpoint Control High (200)USB Register Definition21.22. EOUTCSRL: USB0 OUT Endpoint Control Low Byte 202 USB Register Definition21.23. EOUTCSRH: USB0 OUT Endpoint Control High Byte (203)USB Register Definition21.24. EOUTCNTL: USB0 OUT Endpoint Count Low (203)USB Register Definition21.25. EOUTCNTH: USB0 OUT Endpoint Count High (204)SFR Definition22.1. SMB0CF: SMBus Clock/Configuration (211)SFR Definition22.2. SMB1CF: SMBus Clock/Configuration (212)SFR Definition22.3. SMBTC: SMBus Timing Control (213)SFR Definition22.4. SMB0CN: SMBus Control (215)SFR Definition22.5. SMB1CN: SMBus Control (216)SFR Definition22.6. SMB0ADR: SMBus0 Slave Address (218)SFR Definition22.7. SMB0ADM: SMBus0 Slave Address Mask (219)SFR Definition22.8. SMB1ADR: SMBus1 Slave Address (219)SFR Definition22.9. SMB1ADM: SMBus1 Slave Address Mask (220)SFR Definition22.10. SMB0DAT: SMBus Data (221)SFR Definition22.11. SMB1DAT: SMBus Data (222)SFR Definition23.1. SCON0: Serial Port 0 Control (237)SFR Definition23.2. SBUF0: Serial (UART0) Port Data Buffer (238)SFR Definition24.1. SCON1: UART1 Control (245)SFR Definition24.2. SMOD1: UART1 Mode (246)SFR Definition24.3. SBUF1: UART1 Data Buffer (247)SFR Definition24.4. SBCON1: UART1 Baud Rate Generator Control (248)SFR Definition24.5. SBRLH1: UART1 Baud Rate Generator High Byte (248)SFR Definition24.6. SBRLL1: UART1 Baud Rate Generator Low Byte (249)SFR Definition25.1. SPI0CFG: SPI0 Configuration (257)SFR Definition25.2. SPI0CN: SPI0 Control (258)SFR Definition25.3. SPI0CKR: SPI0 Clock Rate (259)SFR Definition25.4. SPI0DAT: SPI0 Data (259)SFR Definition26.1. CKCON: Clock Control (264)SFR Definition26.2. CKCON1: Clock Control 1 (265)SFR Definition26.3. TCON: Timer Control (270)SFR Definition26.4. TMOD: Timer Mode (271)SFR Definition26.5. TL0: Timer 0 Low Byte (272)SFR Definition26.6. TL1: Timer 1 Low Byte (272)SFR Definition26.7. TH0: Timer 0 High Byte (273)SFR Definition26.8. TH1: Timer 1 High Byte (273)SFR Definition26.9. TMR2CN: Timer 2 Control (278)SFR Definition26.10. TMR2RLL: Timer 2 Reload Register Low Byte (279)SFR Definition26.11. TMR2RLH: Timer 2 Reload Register High Byte (279)SFR Definition26.12. TMR2L: Timer 2 Low Byte (279)SFR Definition26.13. TMR2H Timer 2 High Byte (280)SFR Definition26.14. TMR3CN: Timer 3 Control (285)C8051F380/1/2/3/4/5/6/7/CSFR Definition26.15. TMR3RLL: Timer 3 Reload Register Low Byte (286)SFR Definition26.16. TMR3RLH: Timer 3 Reload Register High Byte (286)SFR Definition26.17. TMR3L: Timer 3 Low Byte (286)SFR Definition26.18. TMR3H Timer 3 High Byte (287)SFR Definition26.19. TMR4CN: Timer 4 Control (290)SFR Definition26.20. TMR4RLL: Timer 4 Reload Register Low Byte (291)SFR Definition26.21. TMR4RLH: Timer 4 Reload Register High Byte (291)SFR Definition26.22. TMR4L: Timer 4 Low Byte (291)SFR Definition26.23. TMR4H Timer 4 High Byte (292)SFR Definition26.24. TMR5CN: Timer 5 Control (295)SFR Definition26.25. TMR5RLL: Timer 5 Reload Register Low Byte (296)SFR Definition26.26. TMR5RLH: Timer 5 Reload Register High Byte (296)SFR Definition26.27. TMR5L: Timer 5 Low Byte (296)SFR Definition26.28. TMR5H Timer 5 High Byte (297)SFR Definition27.1. PCA0CN: PCA Control (311)SFR Definition27.2. PCA0MD: PCA Mode (312)SFR Definition27.3. PCA0CPMn: PCA Capture/Compare Mode (313)SFR Definition27.4. PCA0L: PCA Counter/Timer Low Byte (314)SFR Definition27.5. PCA0H: PCA Counter/Timer High Byte (314)SFR Definition27.6. PCA0CPLn: PCA Capture Module Low Byte (315)SFR Definition27.7. PCA0CPHn: PCA Capture Module High Byte (315)C2 Register Definition28.1. C2ADD: C2 Address (316)C2 Register Definition28.2. DEVICEID: C2 Device ID (317)C2 Register Definition28.3. REVID: C2 Revision ID (317)C2 Register Definition28.4. FPCTL: C2 Flash Programming Control (318)C2 Register Definition28.5. FPDAT: C2 Flash Programming Data (318)。

SPICE仿真用的稳压管型号稳压管型号多为一些半导体公司自定的，但一般在型号内都包括稳压值，方便选用。

但早期的稳压管型号则不是这样，是按顺序编号，难以直观看出稳压值，这些型号或许已很少使用了，但在SPICE仿真时却还要用到，比如PSPICE中的DIODE库中就有一些这样的稳压管型号，而新型号则没有，所以了解这些旧型号稳压管的参数有时也很必要。

以下把部分顺序编号的早期稳压管的参数列出，方便选用（特别是用SPICE仿真时），资料来自乐山无线电公司的网站：型号封装稳压值（最小典型最大）最大工作电流1N5333B DO41 3.14 3.3 3.47 3801N5334B DO41 3.42 3.6 3.78 3501N5335B DO41 3.71 3.9 4.10 3201N5336B DO41 4.09 4.3 4.52 2901N5337B DO41 4.47 4.7 4.94 2601N5338B DO41 4.85 5.1 5.36 2401N5339B DO41 5.32 5.6 5.88 2201N5340B DO41 5.70 6.0 6.30 2001N5341B DO41 5.89 6.2 6.51 2001N5342B DO41 6.46 6.8 7.14 1751N5343B DO41 7.13 7.5 7.88 1751N5344B DO41 7.79 8.2 8.61 1501N5345B DO41 8.27 8.7 9.14 1501N5346B DO41 8.65 9.1 9.56 1501N5347B DO41 9.50 10 10.50 1251N5348B DO41 10.45 11 11.55 1251N5349B DO41 11.40 12 12.60 1001N5350B DO41 12.35 13 13.65 1001N5351B DO41 13.30 14 14.70 1001N5352B DO41 14.25 15 15.75 751N5353B DO41 15.20 16 16.80 751N5354B DO41 16.15 17 17.85 701N5355B DO41 17.10 18 18.90 651N5356B DO41 18.05 19 19.95 651N5357B DO41 19.00 20 21.00 651N5358B DO41 20.90 22 23.10 501N5359B DO41 22.80 24 25.20 501N5360B DO41 23.75 25 26.25 501N5361B DO41 25.65 27 28.35 501N5362B DO41 26.60 28 29.40 501N5363B DO41 28.50 30 31.50 401N5364B DO41 31.35 33 34.65 401N5365B DO41 34.20 36 37.80 301N5366B DO41 37.05 39 40.95 301N5367B DO41 40.85 43 45.15 301N5368B DO41 44.65 47 49.35 25 1N5369B DO41 48.45 51 53.55 25 1N5370B DO41 53.20 56 58.80 20 1N5371B DO41 57.00 60 63.00 20 1N5372B DO41 58.90 62 65.10 20 1N5373B DO41 64.60 68 71.40 20 1N5374B DO41 71.25 75 78.75 20 1N5375B DO41 77.90 82 86.10 15 1N5376B DO41 82.65 87 91.35 15 1N5377B DO41 86.45 91 95.55 15 1N5378B DO41 95.00 100 105.00 12 1N5379B DO41 104.50 110 115.50 12 1N5380B DO41 114.00 120 126.00 10 1N5381B DO41 123.50 130 136.50 10 1N5382B DO41 133.00 140 147.00 8 1N5383B DO41 142.50 150 157.50 8 1N5384B DO41 152.00 160 168.00 8 1N5385B DO41 161.50 170 178.50 8 1N5386B DO41 171.00 180 189.00 5 1N5387B DO41 180.50 190 199.10 5 1N5388B DO41 190.00 200 210.00 5 1N5221B DO-35 2.4 201N5222B DO-35 2.5 201N5223B DO-35 2.7 201N5224B DO-35 2.8 201N5225B DO-35 3 201N5226B DO-35 3.3 201N5227B DO-35 3.6 201N5228B DO-35 3.9 201N5229B DO-35 4.3 201N5230B DO-35 4.7 201N5231B DO-35 5.1 201N5232B DO-35 5.6 201N5233B DO-35 6 201N5234B DO-35 6.2 201N5235B DO-35 6.8 201N5236B DO-35 7.5 201N5237B DO-35 8.2 201N5238B DO-35 8.7 201N5239B DO-35 9.1 201N5240B DO-35 10 201N5241B DO-35 11 201N5242B DO-35 12 201N5243B DO-35 13 9.51N5245B DO-35 15 8.5 1N5246B DO-35 16 7.8 1N5247B DO-35 17 7.4 1N5248B DO-35 18 71N5249B DO-35 19 6.6 1N5250B DO-35 20 6.2 1N5251B DO-35 22 5.6 1N5252B DO-35 24 5.2 1N5253B DO-35 25 51N5254B DO-35 27 4.6 1N5255B DO-35 28 4.5 1N5256B DO-35 30 4.2 1N5257B DO-35 33 3.8 1N5258B DO-35 36 3.4 1N5259B DO-35 39 3.2 1N5260B DO-35 43 31N5261B DO-35 47 2.7 1N5262B DO-35 51 2.5 1N5263B DO-35 56 2.2 1N5264B DO-35 60 2.1 1N5265B DO-35 62 21N5266B DO-35 68 1.8 1N5267B DO-35 75 1.7 1N5268B DO-35 82 1.5 1N5269B DO-35 87 1.4 1N5270B DO-35 91 1.4 1N5271B DO-35 100 1.3 1N5272B DO-35 110 1.1 1N4728A DO-41 3.3 76 1N4729A DO-41 3.6 69 1N4730A DO-41 3.9 64 1N4731A DO-41 4.3 58 1N4732A DO-41 4.7 53 1N4733A DO-41 5.1 49 1N4734A DO-41 5.6 45 1N4735A DO-41 6.2 41 1N4736A DO-41 6.8 37 1N4737A DO-41 7.5 34 1N4738A DO-41 8.2 31 1N4739A DO-41 9.1 28 1N4740A DO-41 10 25 1N4741A DO-41 11 23 1N4742A DO-41 12 211N4744A DO-41 15 17 1N4745A DO-41 16 15.5 1N4746A DO-41 18 14 1N4747A DO-41 20 12.5 1N4748A DO-41 22 11.5 1N4749A DO-41 24 10.5 1N4750A DO-41 27 9.5 1N4751A DO-41 30 8.5 1N4752A DO-41 33 7.5 1N4753A DO-41 36 71N4754A DO-41 39 6.5 1N4755A DO-41 43 61N4756A DO-41 47 5.5 1N4757A DO-41 51 51N4758A DO-41 56 4.5 1N4759A DO-41 62 41N4760A DO-41 68 3.7 1N4761A DO-41 75 3.3 1N4762A DO-41 82 31N4763A DO-41 91 2.8 1N4764A DO-41 100 2.5 1N4371A DO-35 2.7 201N4372A DO-35 3 20 1N746A DO-35 3.3 201N747A DO-35 3.6 201N748A DO-35 3.9 201N749A DO-35 4.3 201N750A DO-35 4.7 201N751A DO-35 5.1 201N752A DO-35 5.6 201N753A DO-35 6.2 201N754A DO-35 6.8 201N755A DO-35 7.5 201N756A DO-35 8.2 201N757A DO-35 9.1 201N758A DO-35 10 20 1N759A DO-35 12 20 1N957B DO-35 6.8 18.5 1N958B DO-35 7.5 16.5 1N959B DO-35 8.2 151N960B DO-35 9.1 141N961B DO-35 10 12.5 1N962B DO-35 11 11.51N964B DO-35 13 9.5 1N965B DO-35 15 8.5 1N966B DO-35 16 7.8 1N967B DO-35 18 71N968B DO-35 20 6.2 1N969B DO-35 22 5.6 1N970B DO-35 24 5.2 1N971B DO-35 27 4.6 1N972B DO-35 30 4.2 1N973B DO-35 33 3.8 1N974B DO-35 36 3.4 1N975B DO-35 39 3.2 1N976B DO-35 43 31N977B DO-35 47 2.7 1N978B DO-35 51 2.5 1N979B DO-35 56 2.2 1N980B DO-35 62 21N981B DO-35 68 1.8 1N982B DO-35 75 1.7 1N983B DO-35 82 1.5 1N984B DO-35 91 1.4 1N985B DO-35 100 1.3 1N986B DO-35 110 1.1 1N987B DO-35 120 11N988B DO-35 130 0.95 1N989B DO-35 150 0.85 1N990B DO-35 160 0.8 1N991B DO-35 180 0.68 1N992B DO-35 200 0.65。

BTA41A/B BTB41BMarch 1995STANDARD TRIACSSymbol ParameterValue Unit I T(RMS)RMS on-state current (360°conduction angle)BTA Tc =75°C 40ABTBTc =85°C 45I TSMNon repetitive surge peak on-state current (Tj initial =25°C )tp =8.3ms 315A tp =10ms 300I 2t I 2t valuetp =10ms 450A 2s dI/dtCritical rate of rise of on-state currentGate supply :I G =500mA di G /dt =1A/µsRepetitive F =50Hz 10A/µs Non Repetitive50Tstg Tj Storage and operating junction temperature range-40to +150-40to +125°C °C TlMaximum lead temperature for soldering during 10s at 4.5mm from case260°C TOP 3(Plastic)A1A2G.HIGH SURGE CURRENT CAPABILITY .COMMUTATION :(dV/dt)c >10V/µs .BTA Family :INSULATING VOLTAGE =2500V (RMS)(UL RECOGNIZED :E81734)DESCRIPTIONSymbol ParameterBTA41-...A/B /BTB41-...BUnit400600700800V DRM V RRM Repetitive peak off-state voltage Tj =125°C400600700800VABSOLUTE RATINGS (limiting values)FEATURESThe BTA41A/B /BTB41B triac family are high performance glass passivated PNPN devices.These parts are suitables for general purpose ap-plications where high surge current capability is re-quired.Application such as phase control and static switching on inductive or resistive load.1/5GATE CHARACTERISTICS (maximum values)Symbol ParameterValue Unit Rth (j-a)Junction to ambient50°C/W Rth (j-c )DC Junction to case for DCBTA 1.2°C/WBTB0.8Rth (j-c)AC Junction to case for 360°conduction angle(F=50Hz)BTA 0.9°C/W BTB0.6SymbolTest ConditionsQuadrantSuffixUnitAB I GTV D =12V(DC)R L =33ΩTj=25°CI-II-III MAX 10050mA IVMAX 150100V GT V D =12V(DC)R L =33ΩTj=25°C I-II-III-IV MAX 1.5V V GD V D =V DRM R L =3.3k ΩTj=125°C I-II-III-IV MIN 0.2V tgt V D =V DRM I G =500mA dI G /dt =3A/µs Tj=25°C I-II-III-IV TYP 2.5µs I LI G =1.2I GTTj=25°CI-III-IV TYP7060mA II200180I H *I T =500mA gate open Tj=25°C MAX 10080mA V TM *I TM =60A tp=380µs Tj=25°C MAX 1.8V I DRM I RRM V DRM Rated V RRMRatedTj=25°C MAX 0.01mATj=125°C MAX 6dV/dt *Linear slope up to V D =67%V DRM gate open Tj=125°CMIN250250V/µs(dV/dt)c *(dI/dt)c =18A/ms BTA (dI/dt)c =20A/msBTBTj=125°C MIN 10V/µs*For either polarity of electrode A 2voltage with reference to electrode A 1.P G (AV)=1WP GM =40W (tp =20µs)I GM =8A (tp =20µs)V GM =16V (tp =20µs).ELECTRICAL CHARACTERISTICSTHERMAL RESISTANCESBTA41A/B /BTB41B2/5ORDERING INFORMATIONPackage I T(RMS)V DRM/V RRM Sensitivity SpecificationA V A BBTA (Insulated)41400X X600X X700X X800X XBTB (Uninsulated)45400X600X700X800XFig.1:Maximum RMS power dissipation versus RMS on-state current(F=50Hz).(Curves are cut off by(dI/dt)c limitation)(BTA)Fig.2:Correlation between maximum RMS power dissipation and maximum allowable temperatures(T amb and T case)for different thermal resistances heatsink+ contact(BTA).Fig.3:Maximum RMS power dissipation versus RMS on-state current(F=50Hz).(Curves are cut off by(dI/dt)c limitation)(BTB)Fig.4:Correlation between maximum RMS power dissipation and maximum allowable temperatures(T amb and T case)for different thermal resistances heatsink+ contact(BTB).BTA41A/B/BTB41B3/5Fig.8:Relative variation of gate trigger current and holding current versus junction temperature.Fig.9:Non Repetitive surge peak on-state current versus number of cycles.Fig.10:Non repetitive surge peak on-state current for a sinusoidal pulse with width :t ≤ 10ms,and corresponding value of I 2t.1E-31E-21E-11E+01E+11E+21E+30.010.101.00Zth/Rth Zth(j-c)Zth(j-a)tp(s)Fig.7:Relative variation of thermal transient impedance pulse duration.Fig.5:RMS on-state current versus case temperature.(BTA)Fig.6:RMS on-state current versus case temperature.(BTB)BTA41A/B /BTB41B4/5Fig.11:On-state characteristics (maximum values).PACKAGE MECHANICAL DATA TOP 3PlasticCooling method :C Marking :type number Weight :4.7gRecommended torque value :0.8m.N.Maximum torqur value :1m.N.HR 4.6CAGDBPN NL MJIREF.DIMENSIONSMillimeters Inches Min.Max.Min.Max.A 15.1015.500.5940.611B20.7021.100.8140.831C 14.3015.600.5610.615D 16.1016.500.6320.650G 3.40-0.133-H 4.40 4.600.1730.182I 4.08 4.170.1610.164J1.45 1.550.0570.062L 0.500.700.0190.028M2.70 2.900.1060.115N 5.40 5.650.2120.223P1.201.400.0470.056Information furnished is believed to be accurate and reliable.However,SGS-THOMSON Microelectronics assumes no responsability for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use.No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.Specifications mentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectronics.©1995SGS-THOMSON Microelectronics -Printed in Italy -All rights reserved.SGS-THOMSON Microelectronics GROUP OF COMPANIESAustralia -Brazil -France -Germany -Hong Kong -Italy -Japan -Korea -Malaysia -Malta -Morocco -The Nether-lands -Singapore -Spain -Sweden -Switzerland -Taiwan -Thailand -United Kingdom -U.S.A.BTA41A/B /BTB41B5/5。

Application Note: SY7728F60V High Efficiency Four-String Boost LED DriverGeneral DescriptionSY7728F is a high efficiency peak current mode boost controller with four matching current sources to drive WLED arrays of LCD backlight.The device has a wide input voltage range from 4.5V to 30V. The LED current is programmable through a resistor. It also integrates both PWM and Analog dimming function for accurate LED current control.Ordering InformationPackage Code Temperature Code Optional Spec Code□(□□)□SY7728Features∙ 4.5-30V Wide Input Voltage Range∙Programmable 5mA~240mA LED Current per String∙LED Current with +/-3% Accuracy at 100mA per String∙PWM and Analog Mode Dimming: Dimming Frequency: 100Hz~50 kHz∙+/-1% Current Matching Among Strings at 100mA per String∙Programmable Switching Frequency,100kHz-1MHz ∙Internal Soft-start∙Open and Short LED Protection∙Programmable over-voltage Protection ∙RoHS Compliant and Halogen Free ∙Compact Package: SOP16E&SOP16Applications∙Monitor Panel Backlight ∙TV Panel BacklightTypical ApplicationsFigure 1. Typical Application CircuitPWM, 100Hz-SY7728F REFERENCE APPLICATION CIRCUIT-PARALLEL OPERATIONPinout (top view)CADIM LED1LED2LED3LED4RT EN ISET VCCPWM INISEN OVP GND COMP GATECADIM LED1LED2LED3LED4RT EN ISET VCCPWM INISEN OVP GND COMP GATE (SOP16E) (SOP16)Top Mark: CBP xyz for SY7728FFEC (Device code: CBP; x=year code, y=week code, z= lot number code )CBG xyz for SY7728FFFC (Device code: CBG; x=year code, y=week code, z= lot number code)Function BlockISENRTCADIMENPWMISETVCC GATE GNDLED1 LED4COMPOVPINAbsolute Maximum Ratings(Note 1)LED x--------------------------------------------------------------------------------------------------------------- -0.3 to 60VIN, EN,CA DIM--------------------------------------------------------------------------------------------------- -0.3 to 33VGate, VCC------------------------------------------------------------------------------------ -0.3 to min(15V, VIN+0.3V) All other p ins-------------------------------------------------------------------------------------------------------- -0.3 to 6VPower Dissipation, PD @ TA = 25°C SOP16E/SOP16---------------------------------------------------------------------2.5WPackage Thermal Resistance (Note 2)SOP16EθJA--------------------------------------------------------------------------------------- 40°C/W SOP16E θJC ----------------------------------------------------------------------------------------------------------- 20°C/W SOP16 θJA ----------------------------------------------------------------------------------------------------------- 80°C/W SOP16 θJC--------------------------------------------------------------------------------------- 18°C/W Junction Temperature Range -----------------------------------------------------------------------------------------150°CLead Temperature (Soldering, 10 sec.) ---------------------------------------------------------------------------- 260°CStorage Temperature Range ---------------------------------------------------------------------------- -65°C to 150°C Recommended Operating Conditions(Note 3)Supply Input Voltage ------------------------------------------------------------------------------------------------- 4.5V to 30V Junction Temperature Range ----------------------------------------------------------------------------------- -40°C to 125°C Ambient Temperature Range ------------------------------------------------------------------------------------ -40°C to 85°CElectrical CharacteristicsNote 1:Stresses beyond the “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only. Functional operation of the device at these or any other conditions beyond those indicated in the operatio nal sections of the specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Note 2:θJA is measured according to JESD51-2, 51-7 while ambient temperature=25℃, θJC is measured in accordance with JESD51-14.Note 3: The device is not guaranteed to function outside its operating conditions.Note 4: This parameter is guaranteed by design.Note 5: The recommended minimum PWM on time is 1µs.Typical Performance Characteristics (V IN =12V, I LED =100mA, 54V per string, 4 strings )I L E D (m A )Analog Dimming CurveAnalog Dimming Duty Cycle (%)102030405060708090100I L E D (m A)PWM Dimming Duty Cycle (%)102030405060708090100Analog PWM Dimming(f ADIM =100Hz, d=50%)Time (2ms/div and 1µs/div)PWM 5V/divV OUT 50V/div V DRAIN 50V/div I LED50mA/divPWM Dimming(f ADIM =100Hz, d=50%)Time (2ms/div and 1µs/div)PWM 5V/div V OUT 50V/div V DRAIN 50V/div I LED100mA/divAnalog PWM Dimming(f ADIM =50kHz, d=50%)Time (5μs/div)PWM5V/divV OUT 50V/div V DRAIN 50V/div I LED 50mA/div PWM Dimming(f ADIM =50kHz, d=50%)Time (5μs/div)PWM5V/divV OUT 50V/divV DRAIN 50V/divI LED 100mA/divStartup from V INTime (10ms/div)V IN 10V/div V OUT 50V/div V DRAIN50V/divI LED100mA/divStartup from ENTime (10ms/div)EN 2V/div V OUT50V/divV DRAIN50V/divI LED100mA/divSteady StateTime (5μs/div)PWM 5V/div V COMP1V/divV DRAIN50V/divI LED 100mA/divOpen LED Protection (Open LED2)Time (10ms/div and 1µs/div)V LX50V/div I LED1100mA/divV OUT 20V/div V LED1 2V/div LED20.2V/div V OUT 20V/div V DRAIN50V/div I LED100mA/divApplications InformationThe SY7728F contains a peak current mode boost controller and 4-channel matching current sources to drive WLED arrays of LCD backlight. The device works under programmable switching frequency. The internal soft-start function avoids the inrush current during startup. Refer to the block diagram to better understand the operation of the IC.LE D Current Setting:LED1~LED4 are the 4-channel LED driver outputs. The sinking current of each channel can be programmed with a resistor R ISET connecting from ISET pin to ground:pwmLED=SET =ISET pwm DOWN LED=SET =ISET DOWN 1200D I I (mA)(PWM)R (Kohm)1200D R I I (mA)(Ana log)R (R +50)(Kohm)⨯⨯⨯⨯For PWM mode R ISET =10K Ω(ohm), the LED current is set to 120mA. The maximum sinking current of each channel is 240mA. For higher current application, different channels can be paralleled. The LED current evenly flow through the paralleled channels because of good current matching.Input Capacitor CIN:The ripple current through input capacitor is calculated as:IN OUT IN CIN_RMS I =X5R or X7R ceramic capacitors with greater than 4.7uF capacitance are recommended to handle this ripple current. To minimize the potential noise problem, place this ceramic capacitor really close to the IN and GND pins. Care should be taken to minimize the loop area formed by C IN , and IN/GND pins.Output Capacitor C OUT :The output capacitor is selected to handle the output ripple noise requirements. This ripple voltage is related to the capacitor’s capacitance and its equivalent series resistance (ESR). For the best performance, it is recommended to use X5R or better grade low ESR ceramic capacitor. The voltage rating of the output capacitor should be higher than the maximum output voltage. The minimum required capacitance can be calculated as:LED OUT IN OUT SW OUT RIPPLEn I (V V )C F V V ⨯⨯-=⨯⨯RIPPLEV is the peak to peak output ripple, n is thenumber of LED string.For LED applications, the output capacitance should be large enough to attenuate the V LEDX ripple voltage. Formost applications, a 4.7μF ceramic capacitor in parallel with a 47uF electrolytic capacitor will be sufficient. Inductor L:There are several considerations in choosing this inductor. 1)Choose the inductance to provide the desired ripplecurrent. The inductance is calculated as:L =V inV out2×V out −V in ×ηn ×I led ×F sw ×∆I LI L(for CCM )Where F SW is the switching frequency, n is the number ofLED string , I LED i s the current of each LED string,Vin is input voltage,Vout is output voltage ,Δ is total inductor current ripple, is inductor average current. 2)The saturation current rating of the inductor must be selected to be greater than the peak inductor current under full load conditions.Where is total efficiency.3)The DCR of the inductor and the core loss at the switching frequency must be low enough to achieve the desired efficiency requirement.Main MOSFE T Selection:The choice of the main MOSFET depends on the current through MOSFET, the maximum V DS voltage, the switching frequency, the capability of the MOSFET to dissipate heat.The maximum RMS current through MOSFET is given by:I mos _rms =V out ×n ×I ledV in ×ηV out −V in V out 1+13(∆I L 2×I L)2(for CCM )The maximum drain to source voltage equals the outputvoltage.Rectifier Diode Selection:Because of high switching speed of SY7728F, a Schottky diode with low forward voltage drop and fast switching speed is desirable for the application. The voltage rating of the diode must be higher than maximum output voltage. T he diode’s average and peak current rating should exceed the average output current and peak inductor current.Internal 10V LDO:VCC is the output of internal LDO. Connect a 1uF capacitor from VCC pin to ground. This LDO provides 10V power supply for the external MOSFET gate driver. The typical dropout voltage of the LDO is 200mV. VCC drops to 0 when the IC shuts down.Open LE D Protection:When any LED string is open, the respective LEDx pin will be pulled to ground. SY7728F continues charging the output voltage until over voltage protection is triggered. Then the part stops switching and checks the condition of all the LEDx pins. The part will mark off and disable the one which voltage is below 100mV. Then the output of boost slowly drops because of the load current. The IC resumes switching once the V OUT goes back to the regulation value. When all LED strings are open, over voltage protection is triggered, the IC will turn off the boost converter.Short LE D Protection:When any diode on the LED string becomes shorted, the LEDx voltage on that string may exceed V SCP_TH (typical 8V), and short LED fault is detected. If short LED fault lasts for more than 15mS (typical value), the IC will mark off and disable that string. When all strings are marked off, the IC will also latch off the boost converter. Recycling input power or enable signal to turn on the disabled string after fault condition is removed.No Rectifier Diode Protection:When the chip is enabled, SY7728F will check the connection of the rectifier diode by sensing the voltage on OVP pin. If the voltage on OVP pin is lower than V OSP_TH (typical 40mV), the IC will shut down.Peak Current Limitation:The device employs cycle by cycle current limitation to protect the main FET of Boost circuit. When the peak current sensing voltage (V ISEN) exceeds 480mV (typical value), the device will turn off the main FET. The FET will turn on again until next clock signal arrives.Diode/Inductor Short-Circuit Protection:When Diode/Inductor Short is happened, the current flow through Boost MOSFET will increase significantly. If the voltage on ISEN pin exceeds approximately 0.58V during the ON period of the boost MOSFET. If the short last for about 15ms during PWM on time, The IC will shut off and stay latched after timer expires. Timer will be reset if ISEN pin voltage drops below 0.58V for eight (8) consecutive clock cycles.Over Temperature Protection:To prevent the IC from over temperature, the device will shutdown when the junction temperature exceeds 150℃. When the junction temperature decrease to 130 ℃,IC will resume to switching.Abnormal Working when VIN>VLED:If VIN>LED Forward Voltage at EN on, which may cause VLEDX>LED regulation voltage last for about 15ms then the boost converter will be latched off. Need to avoid such application condition.High Output Voltage Application:In applications when the LED string voltage is higher than the maximum voltage rating of LEDx pins, a high voltage rating external MOSFET can be used as shown below to prevent the IC from damage.Multiple Controllers in Parallel Operation：For applications having more than 4 LED strings, designer can use multiple controllers for parallel operation. A reference circuit is illustrated in Figure 2.Both controllers share the common Boost converter power train for 8 strings of LED operation.Layout Design:Proper PCB layout and components placement are critical to the performance of the IC and to prevent noise and electromagnetic interference problems. Following are some rules for the PCB layout:1)The loop of main FET, rectifier diode, and outputcapacitor must be as short as possible2)It is desirable to maximize the PCB copper areaconnecting to GND pin to achieve the best thermal and noise performance. If the board space allowed, a ground plane is highly desirable.3)C IN must be close to Pins IN and GND. The loop areaformed by C IN and GND must be minimized.4)The PCB copper area associated with main FETdrain must be minimized to avoid the potential noise problem.5)The small signal components must be placed close toIC and must NOT be adjacent to the main FET drain net on the PCB layout to avoid the noise problem.6)The GND of ceramic capacitor of C ADIM must beplaced as closed as GND pin (pin 15) to avoid noise interference in analog dimming application.7)Boost rectifier diode/inductor short protection isachieved by detecting the voltage between ISEN pin (pin 6) and GND pin (pin 15).The current is very high when short fault occurs, the trace between the source pole of boost main FET and current sense resistor, the trace between the drain pole of boos t main FET and anode of boost rectifier diode/inductor must be as short and wide as possible.SOP16 Package Outline & PCB Layout0.00Top view Front view.41.5Side viewRecommended PCB layoutNotes:All dimension in millimeter and exclude mold flash & metal burrSOP16E Package Outline & PCB LayoutTop ViewBottom ViewSide View A Side View B Notes: All dimension in millimeter and exclude mold flash & metal burrReel WidthTaping & Reel Specification1.Taping orientationFeeding direction2.Carrier Tape & Reel specification for packages3.Others: NARevision HistoryThe revision history provided is for informational purpose only and is believed to be accurate, however, not warranted.。

Proteus元件库详解Issue 1.1 – Dated 01/July/2000Labcenter Electronics Component Library DocumentationDEVICE.LIBDescriptionThis library contains general schematic symbols such as resistors, capacitors, diodes and transistors. DEVICE.LIB also contains connector symbols for use on PCBs.ContentsAERIAL BATTERY BRIDGE BUZZER CAPCAP-ELEC CAP-POL CAP-PRE CAP-VAR CELL CONN-D9 CONN-D15 CONN-D25CONN-H2 CONN-H4CONN-H5CONN-H6CONN-H10CONN-H12CONN-H15CONN-H16CONN-H20CONN-H32CRYSTALDIACDIODEDIODE-LEDIND-IRON INDUCTOR LAMP-FIL LAMP-NEON LED METER NJFET NMOSFET NPN OPAMP PIN PJFET PMOSFET PNPPOTPOT-LIN POT-LOG PRESET REG-NEG REG-POS REL-SPM:A REL-SPM:B RELAY:A RELAY:B RESRES-PRE RES-VAR RESPACK-7 RESPACK-8 SCRSW-DPSTSW-SPDTSW-SPSTTERMINALTHYRISTORTRAN-2P2STRAN-2P3STRAN-2P5STRIACVEROPINNotesThe generic parts such as NPN, PNP are unpackaged and are thus not intended for use on schematics where PCB manufacture is the end goal. This generic parts may of course be use as templates for specific device types.The components have the appropriate properties for simulation where corresponding models exist.DIODE.LIBDescriptionThis library contains diodes and bridge rectifiers from a number of manufacturers. All the parts in this library are packaged for PCB design and have appropriate simulator properties and/or models although some of the models are generic to a particular category of diode –e.g. small signal switching diode.Contents1M110ZS5 1M120ZS5 1M130ZS5 1M150ZS5 1M160ZS5 1M180ZS5 1M200ZS5 1N746A1N747A1N748A1N749A1N750A1N751A1N752A1N753A1N754A1N755A1N9161N957B1N958B1N959B1N960B1N961B1N962B1N963B1N964B1N965B1N966B1N967B1N968B1N969B1N970B1N971B1N972B1N973B1N974B1N975B1N976B 1N977B 1N978B1N979B1N980B1N981B1N982B1N983B1N984B1N985B1N986B1N992B 1N4001 1N4002 1N4003 1N4004 1N4005 1N4006 1N4007 1N4148 1N4370A 1N4371A 1N4372A 1N4728A 1N4729A 1N4730A 1N4731A 1N4732A 1N4733A 1N4734A 1N4735A 1N4736A 1N4737A 1N4738A 1N4739A 1N4740A 1N4741A 1N4742A 1N4743A 1N4744A 1N4745A1N4751A 1N4751B 1N4752A 1N4753A 1N4754A 1N4755A 1N4756A 1N4757A 1N4758A 1N4759A 1N4760A 1N4761A 1N4762A 1N4763A 1N4764A 1N5221B 1N5222B 1N5223B 1N5224B 1N5225B 1N5226B 1N5227B 1N5228B 1N5229B 1N5230B 1N5231B 1N5232B 1N5233B 1N5234B 1N5235B1N5241B 1N5242B 1N5243B 1N5244B 1N5245A 1N5245B 1N5246B 1N5247B 1N5248B 1N5249B 1N5250B 1N5251B 1N5252B 1N5253B 1N5254B 1N5255B 1N5256B 1N5257B 1N5258B 1N5259B 1N5260B 1N5261B 1N5262B 1N5263B 1N5264B 1N5265B 1N5266B 1N5267B 1N5268B 1N5269B1N5275B1N5276B1N5277B1N5278B1N5279B1N5280B1N5281B1N5333BRL 1N5334BRL 1N5335BRL 1N5336BRL 1N5337BRL 1N5338BRL 1N5339BRL 1N5340BRL 1N5341BRL 1N5342BRL 1N5343BRL 1N5344BRL 1N5345BRL 1N5346BRL 1N5347BRL 1N5348BRL 1N5349BRL 1N5350BRL 1N5351BRL 1N5352BRL 1N5353BRL 1N5354BRL 1N5355BRL1N5361BRL 1N5362BRL 1N5363BRL 1N5364BRL 1N5365BRL 1N5366BRL 1N5367BRL 1N5368BRL 1N5369BRL 1N5370BRL 1N5371BRL 1N5372BRL 1N5373BRL 1N5374BRL 1N5375BRL 1N5377BRL 1N5378BRL 1N5379BRL 1N5380BRL 1N5381BRL 1N5382BRL 1N5383BRL 1N5384BRL 1N5385BRL 1N5386BRL 1N5387BRL 1N5388BRL 1N54001N54011N54021N54071N54081N5913B1N5914B1N5915B1N5916B1N5917B1N5918B1N5919B1N5920B1N5921B1N5922B1N5923B1N5924B1N5925B1N5926B1N5927B1N5928B1N5929B1N5930B1N5931B1N5932B1N5933B1N5934B1N5935B1N5936B1N5937B1N5938B1N5939B 1N5940B 1N5941B 1N5942B 1N5943B 1N5944B 1N5945B 1N5946B 1N5947B 1N5948B 1N5949B 1N5950B 1N5951B 1N5952B 1N5953B 1N5954B 1N5955B 1N5956B 1N5985B 1N5986B 1N5987B 1N5988B 1N5989B 1N5990B 1N5991B 1N5992B 1N5993B 1N5994B 1N5995B 1N5996B 1N5997B 1N5998B 1N5999B 1N6000B 1N6001B 1N6002B 1N6003B 1N6004B 1N6005B 1N6006B 1N6007B 1N6008B 1N6009B 1N6010B 1N6011B 1N6012B 1N6013B 1N6014B 1N6015B 1N6016B 1N6017B 1N6018B 1N6019B 1N6020B 1N6021B 1N6022B 1N6023B 1N6024B 1N6025B3EZ3V9D53EZ4V3D53EZ7V5D5 3EZ8V2D5 3EZ9V1D5 3EZ10D5 3EZ11D5 3EZ12D5 3EZ13D5 3EZ14D5 3EZ15D5 3EZ16D5 3EZ17D5 3EZ18D5 3EZ19D5 3EZ20D5 3EZ22D5 3EZ24D5 3EZ27D5 3EZ28D5 3EZ30D5 3EZ33D5 3EZ36D5 3EZ39D5 3EZ43D5 3EZ47D5 3EZ51D5 3EZ56D5 3EZ62D5 3EZ68D5 3EZ75D5 3EZ82D53EZ140D5 3EZ150D5 3EZ160D5 3EZ170D5 3EZ180D5 3EZ190D5 3EZ200D5 3EZ220D5 3EZ240D5 3EZ270D5 3EZ300D5 3EZ330D5 3EZ360D5 3EZ400D5 AA119 BAR28 BAX13 BAX16 BB212BY127BY206 BYT30 BYW51 BYW80 BYW98 BZG03C10 BZG03C12 BZG03C15 BZG03C18 BZG03C20BZG03C150 BZG03C180 BZT03C BZT03C7V5 BZT03C8V2 BZT03C9V1 BZT03C10 BZT03C12 BZT03C15 BZT03C16 BZT03C18 BZT03C20 BZT03C22 BZT03C24 BZT03C27 BZT03C30 BZT03C33 BZT03C36 BZT03C39 BZT03C43 BZT03C47 BZT03C51 BZT03C56 BZT03C62 BZT03C68 BZT03C75 BZT03C82 BZT03C91 BZT03C100 BZT03C120BZT03C220 BZT03C270 BZV85C BZV85C5V1 BZV85C5V6 BZV85C6V2 BZV85C6V8 BZV85C7V5 BZV85C8V2 BZV85C9V1 BZV85C10 BZV85C12 BZV85C13 BZV85C15 BZV85C16 BZV85C18 BZV85C20 BZV85C22 BZV85C24 BZV85C27 BZV85C30 BZV85C33 BZV85C36 BZV85C39 BZV85C43 BZV85C47 BZV85C51 BZV85C56 BZV85C62 BZV85C68BZV90C8V2 BZV90C10 BZV90C12 BZV90C15 BZV90C16 BZV90C18 BZV90C20 BZV90C27 BZX55CBZX55C2V4RL BZX55C2V7RL BZX55C3V0RL BZX55C3V3 BZX55C3V3RL BZX55C3V6 BZX55C3V6RL BZX55C3V9 BZX55C3V9RL BZX55C4V3 BZX55C4V3RL BZX55C4V7 BZX55C4V7RL BZX55C5V1 BZX55C5V1RL BZX55C5V6 BZX55C5V6RL 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BZX79C39RLBZX79C56BZX79C56RLBZX79C62RLBZX79C68RL BZX79C75 BZX79C75RL BZX79C82RL BZX79C91RL BZX79C100RL BZX79C110RL BZX79C120RL BZX79C130RL BZX79C150RL BZX79C160RL BZX79C180RL BZX79C200RL BZX83C2V7RL BZX83C3V0RLBZX83C3V3RL BZX83C3V6RL BZX83C3V9RL BZX83C4V3RL BZX83C4V7RL BZX83C5V1RL BZX83C5V6RL BZX83C6V2RL BZX83C6V8RL BZX83C7V5RL BZX83C8V2RL BZX83C9V1RL BZX83C10RL BZX83C11RLBZX83C12RL BZX83C13RL BZX83C15RL BZX83C16RL BZX83C18RL BZX83C20RL BZX83C22RL BZX83C24RL BZX83C27RL BZX83C30RL BZX83C33RL BZX84C2V4 BZX84C2V7 BZX84C3V0 BZX84C3V3 BZX84C3V9BZX84C4V3 BZX84C4V7 BZX84C5V1 BZX84C5V6 BZX84C6V2 BZX84C6V8 BZX84C7V5 BZX84C8V2 BZX84C9V1 BZX84C10 BZX84C11 BZX84C12 BZX84C13BZX84C15BZX84C16BZX84C18BZX84C20BZX84C22BZX84C24BZX84C27BZX84C30BZX84C33BZX84C36BZX84C47BZX85CBZX85C3V3BZX85C3V3RLBZX85C3V6BZX85C3V6RLBZX85C3V9BZX85C3V9RLBZX85C4V3BZX85C4V3RLBZX85C4V7BZX85C4V7RLBZX85C5V1BZX85C5V1RLBZX85C6V2 BZX85C6V2RL BZX85C6V8 BZX85C6V8RL BZX85C7V5 BZX85C7V5RL BZX85C8V2 BZX85C8V2RL BZX85C9V1 BZX85C9V1RL BZX85C10 BZX85C10RL BZX85C11 BZX85C11RL BZX85C12 BZX85C12RL BZX85C13 BZX85C13RL BZX85C15 BZX85C15RL BZX85C16 BZX85C16RL BZX85C18 BZX85C18RL BZX85C20 BZX85C20RL BZX85C22 BZX85C22RL BZX85C24 BZX85C24RL BZX85C27 BZX85C27RL BZX85C30BZX85C43RL BZX85C47RL BZX85C51RL BZX85C56RL BZX85C62RL BZX85C68RL BZX85C75RL BZX85C82RL BZX85C91RL BZX85C100RL BZX284C2V4 BZX284C2V7 BZX284C3V0 BZX284C3V3 BZX284C3V6 BZX284C3V9 BZX284C4V3 BZX284C4V7 BZX284C5V1 BZX284C5V6 BZX284C6V2 BZX284C6V8 BZX284C7V5 BZX284C8V2 BZX284C9V1 BZX284C10 BZX284C11 BZX284C12 BZX284C13 BZX284C15BZX284C27 BZX284C30 BZX284C33 BZY88C GBPC802 GBPC804 GBPC808 MMBZ5226B MMBZ5227B MMBZ5228B MMBZ5229B MMBZ5230B MMBZ5231B MMBZ5232B MMBZ5233B MMBZ5234B MMBZ5235B MMBZ5236B MMBZ5237B MMBZ5238B MMBZ5239B MMBZ5240B MMBZ5241B MMBZ5242B MMBZ5243B MMBZ5244B MMBZ5245B MMBZ5246B MMBZ5247B MMBZ5248BMMBZ5254B MMBZ5255B MMBZ5256B MMBZ5257B MR751MR754MV2108 MZ5520B MZ5521B MZ5522B MZ5523B MZ5524B MZ5525B MZ5526B MZ5527B MZ5528B MZ5529B MZ5530B MZD3V9 MZD4V3 MZD4V7 MZD5V1 MZD5V6 MZD6V2 MZD6V8 MZD7V5 MZD8V2 MZD9V1 MZD10 MZD11MZD15 MZD16 MZD18 MZD20 MZD22 MZD24 MZD27 MZD30 MZD33 MZD36 MZD39 MZD43 MZD47 MZD51 MZD56 MZD62 MZD68 MZD75 MZD82 MZD91 MZD100 MZD110 MZD120 MZD130 MZD150 MZD160 MZD180 MZD200 MZP4728A MZP4729A MZP4730A MZP4731A MZP4732AMZP4738A MZP4739A MZP4740A MZP4741A MZP4742A MZP4743A MZP4744A MZP4745A MZP4746A MZP4747A MZP4748A MZP4749A MZP4750A MZP4751A MZP4752A MZP4753A MZP4754A MZP4755A MZP4756A MZP4757A MZP4758A MZP4759A MZP4760A MZP4761A MZP4762A MZP4763A MZP4764A MZPY3V9RL MZPY4V3RL MZPY4V7RLMZPY8V2RL MZPY9V1RL MZPY10RL MZPY11RL MZPY12RL MZPY13RL MZPY15RL MZPY16RL MZPY18RL MZPY20RL MZPY22RL MZPY24RL MZPY27RL MZPY30RL MZPY33RL MZPY36RL MZPY39RL MZPY43RL MZPY47RL MZPY51RL MZPY56RL MZPY62RL MZPY68RL MZPY75RL MZPY82RL MZPY91RL MZPY100RL OA47OA90OA91P600PW01PW06S04S005SK202L5SK204L5UF4001UF4002UF4003UF4004UF5400UF5401UF5402UF5404UF5406W01W02W04W005 ZPD2V7RL ZPD3V0RL ZPD3V3RL ZPD3V6RL ZPD3V9RL ZPD4V3RLZPD4V7RLZPD5V1RLZPD5V6RLZPD6V2RLZPD6V8RLZPD7V5RLZPD8V2RLZPD9V1RLZPD10RLZPD11RLZPD12RLZPD13RLZPD24RLZPD27RLZPD30RLZPD33RLBIPOLAR.LIBDescriptionThis library contains bipolar transistors from a number of manufacturers. All the parts in this library are packaged for PCB design and have appropriate simulator properties and/or models although some of the models are generic to a particular category of transistor –e.g. small signal low frequency.Contents2N697 2N706 2N1711 2N1893 2N2219 2N2222 2N2369 2N2905 2N2907 2N2926 2N3019 2N3053 2N3054 2N3055 2N3702 2N3703 2N3704 2N3705 2N3706 2N3707 2N3708 2N3711 2N3771 2N3772 2N3773 2N3866 2N3903 2N3904 2N3905 2N3906 2N4401 2N4427 2N5401 2N54152N55512N65452N65472N66092SA7152SA8722SA10852SB7162SB7182SC11622SC25472SD7562SD758AC127AC128BC107BC108BC109BC140BC168 BC169 BC171 BC177 BC178 BC179 BC182 BC183 BC184 BC212 BC213 BC214 BC237 BC239 BC301 BC303 BC327 BC328 BC337 BC338 BC441 BC461 BC478 BC547 BC548 BC549 BC550 BC557 BC558 BC559BD135 BD136 BD139 BD140 BD437 BD438 BD539 BD540 BD711 BD712 BD743 BD911 BD912 BDX53 BDX54 BF173 BF180 BF259 BF337 BF494 BFY50 BFY51 BFY52 BFY90 BSX20 BU208 BU407 BU426 BU806 BUP35BUV48 BUW49 MJ423 MJ2501 MJ2955 MJ3001 MJ11015 MJ11016 MJ15004 MJE340 MJE350 MJE13005 MJE13007 MPS3638 MPSA14 MPSA42 MPSA65 MPSA92 MPSH10 TIP31 TIP32 TIP33 TIP34 TIP35 TIP36 TIP41 TIP42 TIP47 TIP122 TIP127TIPL762 TIPL763 TIPL770 TIPL791 TIPP31 TIPP32 TIPP112 ZTX107 ZTX108 ZTX109 ZTX300 ZTX302 ZTX304 ZTX313 ZTX450 ZTX451 ZTX453 ZTX455 ZTX500 ZTX502 ZTX504 ZTX541 ZTX542 ZTX550 ZTX551 ZTX650 ZTX651 ZTX652 ZTX653 ZTX689ZTX851ZTX853ZTX857FET.LIBDescriptionThis library contains field effect transistors (JFETs and MOSFETs) from a number of manufacturers. All the parts in this library are packaged for PCB design and have appropriate simulator properties and/or models although some of the models are generic to a particular category of transistor – e.g. small signal low frequency.Contents2N3819 2N5459 2N5460 2SJ48 2SJ49 2SJ50 2SJ56 2SJ118 2SJ1622SK1332SK1342SK1352SK1762SK4132SK1058BF244BUK453BUK455BUK456BUZ10BUZ11BUZ20BUZ21BUZ31IRF130IRF330IRF510IRF520IRF530IRF540IRF740IRF820IRF830IRF840IRF9520IRF9530IRFP250IRFP450J109J112MPF102MTH40N06SMP60N06SNW60N10VN10VN66VN121VALVES.LIBDescriptionThis library contains both specific and generic symbols for thermionic valves. The parts are not packaged for PCB since we have been unable to locate a reliable source of mechanical data, but most of the specific types are linked to SPICE models. Contents5AR4 5U4GB 5V3A 5V4GA 5Y3GT 6DJ86L6GC6V6GTA12AT712AU712AX712BH7ECF82EF86EL34EL84GZ34KT88PENTODETRIODENotesWe have chosen to draw dual valve types as single element parts because of the difficulties that arise with common heaters and in some cases cathode pins. Circuit simulations may fail if unused parts of the valves are not connected to ground.We have not provided models for the valve heaters.74STD.LIBDescriptionThis library contains standard TTL parts from the 74 series. All the parts are packaged for through hole PCB layout and most have corresponding simulator models. De Morgan (negative logic) and IEC versions are provided where appropriate. Contents7400 7400.DM 7400.IEC 7401 7401.DM 7401.IEC 7402 7402.DM 7402.IEC 7403 7403.IEC 7404 7404.DM 7404.IEC 7405 7405.DM 7405.IEC 7406 7406.DM 7406.IEC 7407 7407.DM 7407.IEC 7408 7408.DM 7408.IEC 7409 7409.DM 7409.IEC 7410 7410.DM 7410.IEC 7412 7412.DM 7412.IEC 7413 7413.DM 7413.IEC 7414 7414.DM 7414.IEC 7416 7416.DM 7416.IEC74177417.DM7417.IEC74207420.DM7420.IEC74227422.DM7422.IEC74257427.DM 7427.IEC 7430 7430.DM 7430.IEC 7432 7432.DM 7432.IEC 7433 7433.DM 7433.IEC 7437 7437.DM 7437.IEC 7438 7438.IEC 7439 7439.DM 7439.IEC 7440 7440.DM 7440.IEC 7442 7442.IEC 7445 7445.IEC 7446 7446.IEC 7447 7447.IEC7450 7451 7451.IEC 7454 7470 7470.IEC 7472 7472.IEC 7473 7473.IEC 7474 7474.IEC 7475 7475.IEC 7476 7476.IEC 7482 7483 7485 7485.IEC 7486 7486.IEC 7490 7491 7492 7493 7495 7496 7497 74100 74107 74107.IEC 7410974121 74122 74122.IEC 74123 74123.IEC 74125 74125.DM 74125.IEC 74126 74126.DM 74126.IEC 74128 74128.DM 74128.IEC 74132 74132.DM 74132.IEC 74136 74136.IEC 74141 74145 74147 74147.IEC 74148 74148.IEC 74150 74151 74151.IEC 74153 74153.IEC 7415474156.IEC 74157 74157.IEC 74159 74160 74160.IEC 74161 74161.IEC 74162.IEC 74163 74163.IEC 74164.IEC 74165 74165.IEC 74166 74166.IEC 74167 74170 74173 74173.IEC 74174 74174.IEC 74175 74175.IEC 74176 74177 74178 74179 74180 74181 74181.IEC74184 74185 74190 74190.IEC 74191 74191.IEC 74192 74192.IEC 74193 74193.IEC 74194 74194.IEC 74195 74195.IEC 74196 74196.IEC 74197 74197.IEC 74198 74199 74221 74221.IEC 74247 74248 74249 74251 74251.IEC 74259 74259.IEC 74273 74273.IEC 74276 74276.IEC7428374283.IEC7428474284.IEC7428574285.IEC742907429874298.IEC7436574365.IEC7436674366.IEC7436774367.IEC7436874368.IEC7437674376.IEC7439074390.IEC7439374393.IEC7442574425.DM7449074490.IEC74LS.LIBDescriptionThis library contains LS TTL parts from the 74 series. All the parts are packaged for through hole PCB layout and most have corresponding simulator models. De Morgan (negative logic) and IEC versions are provided where appropriate. Contents74LS01.DM 74LS01.IEC 74LS02 74LS02.DM 74LS02.IEC 74LS03 74LS03.IEC 74LS0474LS04.DM 74LS04.IEC 74LS05 74LS05.DM 74LS05.IEC 74LS08 74LS08.DM 74LS08.IEC 74LS09 74LS09.DM 74LS09.IEC 74LS10 74LS10.DM 74LS10.IEC 74LS11 74LS11.DM 74LS11.IEC 74LS12 74LS12.DM 74LS12.IEC 74LS13 74LS13.DM 74LS13.IEC 74LS14 74LS14.DM 74LS14.IEC 74LS15 74LS15.DM 74LS15.IEC 74LS18 74LS18.DM 74LS18.IEC 74LS19 74LS19.DM74LS19.IEC74LS2074LS20.DM74LS20.IEC74LS2174LS21.DM74LS21.IEC74LS2274LS22.DM74LS22.IEC74LS2474LS24.DM74LS24.IEC74LS2674LS26.DM74LS26.IEC74LS2774LS27.DM74LS28.DM 74LS28.IEC 74LS3074LS30.DM 74LS30.IEC 74LS3274LS32.DM 74LS32.IEC 74LS3374LS33.DM 74LS33.IEC 74LS3774LS37.DM 74LS37.IEC 74LS3874LS38.IEC 74LS4074LS40.DM 74LS40.IEC 74LS4274LS42.IEC 74LS4774LS47.IEC 74LS4874LS48.IEC 74LS4974LS49.IEC 74LS5174LS51.IEC 74LS5474LS5574LS5674LS5774LS6974LS7374LS73.IEC 74LS7474LS74.IEC 74LS7574LS75.IEC 74LS7674LS76.IEC 74LS7874LS78.IEC 74LS8374LS8574LS85.IEC 74LS8674LS86.IEC 74LS9074LS9174LS9274LS9374LS9574LS9674LS10774LS107.IEC 74LS10974LS109.IEC 74LS11274LS112.IEC 74LS11374LS113.IEC 74LS11474LS114.IEC74LS123.IEC 74LS12574LS125.DM 74LS125.IEC 74LS12674LS126.DM 74LS126.IEC 74LS13274LS132.DM 74LS132.IEC 74LS13674LS136.IEC 74LS13774LS137.IEC 74LS13874LS138.IEC 74LS13974LS139.IEC 74LS14574LS14774LS147.IEC 74LS14874LS148.IEC 74LS15374LS153.IEC 74LS15574LS155.IEC 74LS15674LS156.IEC 74LS15774LS157.IEC 74LS15874LS162.IEC 74LS16374LS163.IEC 74LS164.IEC 74LS16574LS165.IEC 74LS16674LS166.IEC 74LS16974LS169.IEC 74LS17074LS17174LS17374LS173.IEC 74LS17474LS174.IEC 74LS17574LS175.IEC 74LS18174LS181.IEC 74LS18374LS19074LS190.IEC 74LS19174LS191.IEC 74LS19274LS192.IEC 74LS19374LS193.IEC 74LS19474LS19774LS197.IEC 74LS22174LS221.IEC 74LS24074LS240.IEC 74LS24174LS241.IEC 74LS24274LS242.IEC 74LS24374LS243.IEC 74LS24474LS244.IEC 74LS24574LS245.IEC 74LS24774LS24874LS24974LS25174LS251.IEC 74LS25774LS257.IEC 74LS25874LS258.IEC 74LS25974LS259.IEC 74LS26674LS266.IEC 74LS27374LS28374LS283.IEC74LS29074LS29374LS29574LS29874LS298.IEC74LS29974LS299.IEC74LS32374LS323.IEC74LS34774LS347.IEC74LS35274LS352.IEC74LS35374LS353.IEC74LS35474LS354.IEC74LS355PROTEUS V LIBRARY DOCUMENTATION 74LS355.IEC 74LS35674LS356.IEC 74LS35774LS357.IEC 74LS36574LS365.IEC 74LS36674LS366.IEC 74LS36774LS367.IEC 74LS36874LS368.IEC 74LS37374LS373.IEC74LS37474LS374.IEC74LS37774LS377.IEC 74LS37874LS37974LS38174LS381.IEC 74LS38274LS382.IEC 74LS38674LS386.IEC 74LS39074LS390.IEC 74LS39374LS393.IEC 74LS39574LS39874LS39974LS42374LS423.IEC 74LS44774LS49074LS490.IEC 74LS54074LS540.IEC 74LS54174LS541.IEC 74LS59074LS590.IEC 74LS59174LS591.IEC 74LS59274LS592.IEC 74LS62974LS638.IEC74LS63974LS639.IEC74LS64074LS640.IEC74LS64174LS641.IEC74LS64274LS642.IEC74LS64374LS643.IEC74LS64474LS644.IEC74LS64574LS645.IEC74LS67074LS670.IEC74LS68274LS682.IEC74LS68374LS683.IEC74LS68474LS684.IEC74LS68574LS685.IEC74ALS.LIBDescriptionThis library contains ALS TTL parts from the 74 series. All the parts are packaged for through hole PCB layout, but there are no simulator models. De Morgan (negative logic) and IEC versions are provided where appropriate.Contents74ALS0074ALS00.DM 74ALS00.IEC 74ALS01。

•Operating Junction Temperature Range(Note2): -55°C to +200°C •Storage Temperature Range : -55°C to +200°C•Maximum T hermal R esistence: 15o C/W from J unction to L ead •Maximum Thermal Resistence: 83o C/W from Junction to Ambient Maximum Ratings•Zener Voltage From 5.1V to 200V•Halogen Free Available Upon Request By Adding Suffix "-HF"•Epoxy Meets UL 94 V-0 Flammability Rating•Lead Free Finish/RoHS Compliant (Note1)("P" Suffix Designates Compliant. See Ordering Information)FeaturesNote:1.High Temperature Solder Exemption Applied, S ee EU Directive Annex 7a.2.Max Operating Temperature for DC Conditions is 150°C, But not to Exceed 200°C for Pulsed Conditions With Low Duty Cycle or Non−Repetitive.Regulator Voltage Test Current Maximum Dynamic ImpedanceMaximum Reverse Current Test Voltage Maximum Regulator Current Maximum Dynamic Knee Impedance Maximum Surge Current V Z I Z Z ZT I R V R I ZM Z ZK @1.0mAI ZSM V mA ΩµA V mA ΩA V 1N5338B 5.1240 1.51193040014.40.391N5339B 5.622011286540013.40.251N5340B 620011379030012.70.191N5341B 6.220011376520012.40.11N5342B 6.8175110 5.270020011.50.151N5343B 7.5175 1.510 5.763020010.70.151N5344B 8.2150 1.510 6.2580200100.21N5345B 8.7150210 6.65452009.50.21N5346B 9.115027.5 6.95201509.20.221N5347B 10125257.64751258.60.221N5348B 11125 2.558.443012580.251N5349B 12100 2.529.13951257.50.251N5350B 13100 2.519.936510070.251N5351B 14100 2.5110.634075 6.70.251N5352B 1575 2.5111.531575 6.30.251N5353B 1675 2.5112.22957560.31N5354B 1770 2.50.512.928075 5.80.351N5355B 1865 2.50.513.726475 5.50.41N5356B 196530.514.425075 5.30.41N5357B 206530.515.223775 5.10.41N5358B 2250 3.50.516.721675 4.70.451N5359B 2450 3.50.518.2198100 4.40.551N5360B 255040.519190110 4.30.551N5361B 275050.520.6176120 4.10.61N5362B 285060.521.2170130 3.90.61N5363B 304080.522.8158140 3.70.61N5364B 3340100.525.1144150 3.50.61N5365B 3630110.527.4132160 3.30.651N5366B 3930140.529.7122170 3.10.651N5367B 4330200.532.7110190 2.80.71N5368B 4725250.535.8100210 2.70.81N5369B 5125270.538.893230 2.50.91N5370B 5620350.542.686280 2.311N5371B 6020400.545.579350 2.2 1.21N5372B 6220420.547.176400 2.1 1.351N5373B 6820440.551.7705002 1.51N5374B 7520450.55663620 1.9 1.61N5375B 8215650.562.258720 1.8 1.81N5376B 8715750.56654.5760 1.721N5377B 9115750.569.252.5760 1.6 2.21N5378B 10012900.57647.5800 1.5 2.31N5379B 110121250.583.6431000 1.4 2.51N5380B 120101700.591.239.51150 1.3 2.51N5381B 130101900.598.836.61250 1.2 2.51N5382B 14082300.5106341500 1.2 2.51N5383B 15083300.511431.61500 1.131N5384B 16083500.512229.41650 1.131N5385B 17083800.5129281750131N5386B 18054300.513726.41750141N5387B 19054500.51442518500.951N5388B20054800.515223.618500.95MCC Part NumberMaximum Voltage Regulation 1N5338B 1N5339B 1N5340B 1N5341B 1N5342B 1N5343B 1N5344B 1N5345B 1N5346B 1N5347B 1N5348B 1N5349B 1N5350B 1N5351B 1N5352B 1N5353B 1N5354B 1N5355B 1N5356B 1N5357B 1N5358B 1N5359B 1N5360B 1N5361B 1N5362B 1N5363B 1N5364B 1N5365B 1N5366B 1N5367B 1N5368B 1N5369B 1N5370B 1N5371B 1N5372B 1N5373B 1N5374B 1N5375B 1N5376B 1N5377B 1N5378B 1N5379B 1N5380B 1N5381B 1N5382B 1N5383B 1N5384B 1N5385B 1N5386B 1N5387B 1N5388BMARKING CODEElectrical Characteristics @ 25°C Unless Otherwise SpecifiedRemarks:1. Devices Listed Have a ± 5% Tolerance on Nominal VZ. Suffix C Denotes a +2%2.ZENER VOLTAGE(Vz)AND IMPEDANCE(Z ZT&Z ZK)-T est conditions for Zener voltage and impedance are asfollows;Iz is applied40+/-10ms prior to reading.Mounting contacts are located from the inside edge of mounting clips to the body of the diode(Ta=25o C)3.SURGE CURRENT(Ir)-Surge current is specified as the maximum allowable peak,non-recurrent square-wavecurrent with a pulse width,PW,of8.3ms.The data given in Figure5may be used to find the maximum surge current for a quare wave of any pulse width between1ms and1000ms by plotting the applicable points on logarithmic paper.Examples of this, using the 6.8v , is shown in Figure 6. Mountingcontact located as specified in Note3.(T A=25ć).4.VOLTAGE REGULATION(Vz)-Test conditions for voltage regulation are as follows:Vz measurements are madeat10%and then at50%of the Iz max value listed in the electrical characteristics table.The test currents are the same for the5%and10%tolerance devices.The test current time druation for each Vz measurement is40+/-10ms.(T A=25C).Mounting contact located as specified in Note2.5.MAXIMUM REGULATOR CURRENT(I ZM)-The maximum current shown is based on the maximum voltage of a5%type unit.Therefore,it applies only to the B-suffix device.The actual I ZM for any device may not exceed the value of5watts divided by the actual Vz of the device.T L=75Cat maximum from the device body.APPLICATION NOTE:Since the actual voltage available from a given Zener diode is temperature dependent, it is necessary to determine junction temperature under any set of operating conditions in order to calculate its value. The following procedure is recommended:Lead Temperature, T L, should be determined from:T L = q LA P D + T Aq LA is the lead‐to‐ambient thermal resistance and P D is the power dissipation.Junction Temperature, T J, may be found from:T J = T L + D T JLD T JL is the increase in junction temperature above the lead temperature and may be found from Figure 7 for a train of power pulses or from Figure 1 for dc power.D T JL = q JL P DFor worst‐case design, using expected limits of I Z, limits of P D and the extremes of T J(D T J) may be estimated. Changes in voltage, V Z, can then be found from:D V = q VZ D T Jq VZ, the Zener voltage temperature coefficient. Under high power‐pulse operation, the Zener voltage will vary with time and may also be affected significantly by the zener resistance. For best regulation, keep current excursions as low as possible.Data of Figure 7 should not be used to compute surge capability. Surge limitations are given in Figure 5. They are lower than would be expected by considering only junction temperature, as current crowding effects cause temperatures to be extremely high in small spots resulting in device degradation should the limits of Figure 5 be exceeded.Curve Characteristics0255075100125150123456P o w e r D i s s i p a t i o n (W )Lead Temperature (°C)Fig. 1 - Power Derating Curve0.20.52520502005000.11101001000Zener Voltage (V)Z e n e r C u r r e n t (m A )Fig. 3 - Typical Zener Breakdown Characteristics0.111010010001000001237891011456Zener Voltage (V)Z e n e r C u r r e n t (m A )Fig. 2 - Typical Zener Breakdown Characteristics0.111040101003200Nominal Zener Voltage (V)P e a k S u r g e C u r r e n t (A )Fig. 5- Surge Current Characteristics0.111030Pulse Width (ms)P e a k S u r g e C u r r e n t (A )Fig. 6 - Peak Surge Current VS Pulse Width0.11101001000Z e n e r C u r r e n t (m A )Fig. 4 - Typical Zener Breakdown CharacteristicsZener Voltage (V)Curve Characteristics0102030400.20.80.01.00.4 0.6Lead Length to Heat Sink (inch)J u n c t i o n t o L e a d T h e r m a l R e s i s t a n c e (C /W )Fig. 7 - Typical Thermal ResistaceOrdering InformationDevice Packing(Part Number)-TP Note : Adding "-HF" Suffix For Halogen Free, eg . Part Number-TP-HF(Part Number)-AP (Part Number)-BPTape&Reel: 4Kpcs/Reel Ammo Packing: 3Kpcs/Ammo Box Bulk:500pcs/Box,25Kpcs/Carton。

裸芯片种类裸芯片种类放大器：差动放大器AD629 AD8132 AD8351 AMP03 CA3026 INA117音频放大器LM1875 LM1876 LM2876 LM386 LM3875 LM3886 LM4766 LM4905 TDA1015 TTEA2025缓冲放大器HA0-5002HA0-5033HA-5002HAO-5033测量放大器AD524AD620AD622AD623AD624AD625AD627AMP02FSIN A110INA111INA118INA122INA128INA128AINA129NA129AINA163INA2 321INA321LTC6800PGA203PGA206隔离放大器AD202AD210INA110ISO122对数放大器AD8317SL2524BTL441低噪声放大器CHA2090F100MA01502D功率放大器CA3020LM1875LM1876LM2876LM386LM3875LM3886LM4 766LM4905MA08509BTDA1015TTDA2822TGA2710TGA4505TGA4513TGA4517TGA 4905可编程放大器AD526HA2400HA2405PGA103RF/IF放大器AD8351MC1550MC1590MCC1550采样-保持放大器AD585AAD684AD781HA0-5320LF198SHM-45MM可变增益放大器AD603AAD604SAD8367AD8369THS7530VCA810视频放大器AD813LM733LT1227TL592UA733C运算放大器AD515AD548AD549JAD644AD648AD704AD706AD708AD7 11AD712AD713AD741AD744AD746AD797AD8002AD8014AAD8033 AD8034AD8042AD8044AD8052AD8061AD8062AD8066AD8067AD8099AD8 11AD817AD820AD822AD823AD824AD825AD828AD829AD844AD846AD84 7AD848AD849AD8513AD8541AD8552AD8602AD8605AD8620AD86 51AD8672AD9617AD9632ADOP07CA258CA3078CA3080CA3094CA3140CA3160CA3193CLC4 00CLC449CLC501AMCHA0-2520HA0-2541HA0-2625HA0-5104HA2502HA2512HA-2515HA2522HA2525HA2529HA2540HA-2602HA2622HA2640HA2645HA-5102HA-5104HA5130 HA5142HAO-2540ICL7642ICL7650LF147LF153/LF353LF155LF156LF157LF347 LF351LF353LF356LF357LF411LF412LF441ALF442LF444LM10 7LM108LM108ALM118LM12LM124LM143LM1458LM148LM 1556LM158LM301LM307LM308ALM324LM343LM346LM347LM348LM 358LM432LM441LM675LM711LM715LM7171LM725LM741LM747LM7 59LM833LMC6034LMC6082LMH6624LMH6702LMV824LT1008LT1012CLT1013LT1014LT1055LT1057CLT1494LT1495LT1803LT1880LT6233LTC1052MA01M AX4020MAX407MAX4385EMAX4472MAX492MAX495MC1456MC1536MC1 537MC1556MC3303MC33171MC3503MC4741MCC1536MSK103NE5532OP07GBCOP07G RBCOP07NBCOP09OP11GBCOP11GRBCOP11NBCOP17OP177OP17NBCOP191OP196OP 200OP213OP215OP220NBCOP2228OP227OP249OP260OP262OP27OP270O P270GBCOP277OP279OP27GBCOP27NBCOP282OP282GBCOP284OP284GB COP285OP291OP297GBCOP37NBCOP400GBCOP4177OP420OP4227OP42NBCOP467 GBCOP470OP471OP471GBCOP482OP482GBCOP484OP491OP491GBCOP497OP727OP7 47OP77OP777OP77NBCOP90OP97NBCOPA111OPA128OPA132OPA177OPA2132OPA2227OPA2228OPA227OPA228OPA2350OPA241OPA2541OPA2658OPA277 OPA335OPA4134OPA4227OPA4234OPA4277OPA445OPA541OPA544OPA547OPA548O PA549OPA551OPA552OPA602OPA606OPA620OPA627OPA643OPA704OPA727PA7 6RC3078RC4136RC4558TCA0372THS4021THS4082TL061TL064TL071TL072T L081TL082TL084TLC2264TLC2274TLC274TLC27L4TLC27L9TLC4501TLE2 021CTLE2027TLE2064TLE2072TLE2074TLE2082TLE2161TLE2662TLV2211TLV2254T LV2324TLV2442TLV2764UA709电压比较器LM111LM119LM139LM1414LM1514LM161LM193LM2901L M2903LM306LM311LM319LM339LM361LM393LM710LMV393LMV7235L MV7239LMX393LT1713ILT1721MAX900MAX903MAX9030MAX909MAX9109 MAX912MAX913MAX921MAX923MAX975MAX998MC1414MC1514MC34074MCC15 14RC1414TLV3492TSM109(A)电压跟随器LM102LM110LM210LM310电源管理：电压调节器可调输出调节器LM133LM137HLM137KLM138LM150LM2576ADJLM317HL M317KLM337HLM337KLM338LM350LM396LM723LMV431LT1033LT1038SVR1038T LV431AUA723CUC1033KUC117UC137UC150KUC337BUCK（降压斩波）调节器LM2672 LM2674LM2675LM2676LM2677LT1076固定输出调节器78057809781278157905791278L1278M05C78M06FSC78M0 978M1878T1279L0979M0579M0679M1279M1579M15FSCK A78M10KA7906LM109KLM2576-12LM2576-5LM309KLM320-12LM320-15LM320-5LM323LM340-15LM7812LM78L09LM78L12ACLM79L09LM79M05LM79M12LM79M1 5MC7812ACMC78M18MC78M24UA78L09AUA78M10UA79M15UC7812低压差调节器ADP3338-5AME8805DEGTLM1084I-ADJLM1085LM1085I-ADJLM1117-1.8LM1117-ADJLM2936LM2940-15LM2940-5LM2941LM2990-15LM2991LMS1587-3.3LMS8117ALMS8117A-1.8LP2950LP2951ALP2980-5LP2985A-5.0LP2985AI-2.5LP2985LT1083LT1084-12LT1085CLT1086HLT1086KCLT1175LT1185LT1581-ADJ LT1763LT1764MAX1818MAX604MAX883MIC29150MIC2915 2MIC29300-5.0MIC29302MIC2941A-ADJMIC29500-3.3MIC29500-5.0MIC29502MIC29750-3.3MIC29750-5.0MIC29752MIC5201MIC5219-5.0MSK5012MSK5150RC1117RC1584RC1585RC1587TPS7301QTPS73HD318可编程调节器ICL7663MAX663MAX664MAX666开关调节器ADP1111ADP3000ADP3050T1074PWM控制LT1526MAX1993MC3406SG1526TL494TL598TOP222YUC15 26UC1843UC1846UC1863UC2825AUC2843UC2846UC3524UC3525AUC3526U C3526AUC3825AUC3840UC3842UC3843UC3845UC3846UC3851UC3856UCC1800UC C1805UCC1806UCC1846UCC2580UCC2805UCC3580-1UCC3581UCC3801UCC3802UCC3803UCC3805UCC3808UCC38 08UCC3810UCC3850-1UCC38C40DC-DCAD536AD636JAD637SADP2105HAT2099LTC3414LTC3416M AX762MAX764MC34063MX636PM7224GBCRMS-DC变换器AD536AD636JAD637SMX636电压-电流变换器XTR110AG电压变换器ICL7660ICL7662电压基准LM113MD8LM129LM136-5.0 LM199LM329LM336-2.5LM336-5.0LM385-2.5LM399LM4040LM4050A-10LM4050A-4.1LT1031CDMAX6065MAX6125MAX6143MAX6176MAX6220M AX6241MAX6325MAX6350MAX674REF01REF02REF05REF101REF10 2REF195TL1431TL431A马达控制MC33035MCC33035ML4425UC3625UC3637UC3638存储器：快闪存储器(FLASH)K8D6316UBMK9F28080U0CK9F2808U0CMT28C6428P18MT 28F128J3FSMT28F400B5BQ48AMT28F642D18SST39LF100SST39 VF080SST39VF1681TMS29F040X76F100随机存取存储器(RAM)IDT6116SAUIDT7026IDT7164IS61LV12816LIS61LV5128ALK4 H561638DK6R4008CIDK6R4016V1DMK68345MT28C6428P18 SMJ44C251BSTK12C68STK20C04X20C04只读存储器(ROM)IS93C66M27C1001M95640TMS27PC128X24C04X28C64X50 45X84641数据变换：模数转换器(ADC)14433AD9048AD1674AD537AD571SAD573AD574AD674AD7555AD7 575AD7671AD7723AD7864AD7870AD7875AD7876AD7889AD7 892AD7893AD7895AD9012AD9040AD9040AAD9042AD9048AD9050AD9058A D9200AD9203AD9240AD9260ADC0801ADC0802ADC0803ADC0804ADC0808ADC 0820ADC0844ADC0848ADC12081ADC500BMMADC674ADC825MMADS574SADS774ADS785 2ADS7864ADS805ADS8342CA3318DDC112UICL7107ICL7109LTC1608MAX162MAX170CMAX18 9MAX192MAX195MC14433TC7107THS1206THS1207TLC2543ZN447ZN449数模转换器(DAC)AD390AD396KAD5320AD5321AD5424AD5433AD5541AD5 58AD561JAD565AD664AD667AD7224AD7245AD7247AD7520AD7521AD753 3AD7534AD7538AD7541AD7542AAD7545AD7547AD9742AD9760CA3338DA C08DAC0800DAC0830DAC0832DAC1208DAC1210DAC1218DAC1219DAC1230DA C4813DAC4815DAC7724DAC8412DAC8562DAC-HZ12BMMMAX197MAX5201MAX530MAX5721MX7224MX7534 J/D数据采集系统AD363AD7716AD7874AD7890AD7891AD974MAX125压频(V/F)和频压(F/V)转换AD650ALM2917VFC32分立器件：二极管雪崩二极管BYV26B限流二极管CD5302快恢复二极管1N54181N581125F10030BF2030BF40CPD25FR104FR107FR 604MUR1100MUR120MUR130MUR410MUR460MURB1620CTMURC1520 MURC1540MURC1560MURC410MURC415MURC420MURC460MURC820MURS120US1M锗二极管1N60低漏电流二极管XPAD10PIN二极管5082-00015082-0012MA4P160-134整流二极管1N40011N40021N40041N40061N40481N47201N47221N5 4011N54811N5625CD483GL34DHSMS2820肖特基二极管1N57111N58181N58201N582230CLJQ100B340LABAS70BA T54CD5711CP108CPD77HSCH-5331MBR0520MBR10100MBR1545MBR20200MBR2060MBR253 5MBR3100MBRC1060MS1045MS16100MS1680MS8100SB360SB540SB560SBL164 0SC036H100S5BSC060S045ASC070H045ASC070H150ASC105H045ASC105H100ASC105S 030ASC105S060ASC125H100SSC125S060ASC125S060SSC200S0308SC200S045SSC275H100SSC275S030SSC275S050S5B开关二极管1N36001N41481N41531N914BAS16BAS21BAV21BAV70BAV 99BAW56CD4150CD4153瞬态电压抑制二极管(TVS)1.5KE18ACD1.5KE39CA1.5KE400A1.5KE47C1.5KE82A变容二极管BB132BBY40MC100EPT20齐纳二极管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双极晶体管(BJT)：达林顿晶体管2N62842N62872N6533BD651BDV65BCP117CP517MJ10007 MJ11015MJ11016MJD122TIP122TIP127TIP137TIP142ZTX603NPN型晶体管2C2222A2N16132N2219A2N22222N2222A2N2369A2N248 42N29202N30192N33022N34182N34402N35842N37162N37172N37712N3866A2N 39042N39462N39472N39612N41302N42402N50312N50382N51092N53012N5 3022N53302N53312N54862N55512N55842N56292N58852N58862N62702N6 2732N63542N63732N64312N64962N64972N65152N67182N7082N90132N91 82N930AT381AT387BC441BC817BC846BCX5616BF258BF620BF622BFG59 1BFQ18ABFR183BFR90ABFR92ABFR93BFS20BU406BU508ABUR52BU W45BUW45BUX98ACP310FCX493FJA13009FMMT491FMMTA42XCWKS C2258AKSC2330KSC5027KSC5042LM114LM194LM394MAT01MAT02MJ13015MJ15024MJ161 10MJE13009MJE180MJW16018MMBT3904MPSA05MPSA43MRF4427MRF581M RF951MRFC581PN3568PNP型晶体管2C2907A2N15362N21432N27932N2905A2N2907A2N3636 2N37992N38672N39062N40332N40362N42092N53792N54012N54162N56802N6 2112N62132N64202N64212N64233N108BC461BC557BC558BFT92BSR12BUW2 2CP608CP710D45H11KSA1304MJ15012MJD350MJE170MJE5172MJ EC15029MJEC350MMBT3906MMBTH81MPSA93MPSA94PN4258S9015TIP32C结型场效应晶体管(JFET)：N沟道2N38232N41182N42212N43382N43912N43922N4416A2N54342N54572N54842N59022N59052N59062N59112N5912ATF13100J106MPF4 392NE321000NE32400NE32500SST108U310P沟道MMBFJ177SST177绝缘栅效应晶体管(MOSFET)：N沟道2N66602N66612N67662N67962N70022N7002E2N72252N7 2682N72692N7394APT6060NDBLF244BLF246BS107ABSS138DAFDH27N50FD W2520CFQD13N06FQD2N60FQD6N40CFQP13N06FQP13N10FQP19N20CPWDFQP2N60CFQP33N10 PWDFQP5N50CFQPF16N15FQPF2N60CFQPF3N60HUF75639P3 IRCC130IRF1405LPBFIRF151IRF3706SIRF5NJ3315IRF5NJ540I RF5NJZ48IRF7452IRF7456IRF7811IRF7812IRF7828IRF840IRFB4310IRFBG20BVIRFBG30IRFC014 BIRFC024NBIRFC048NBIRFC110IRFC110BVIRFC11N50ABIRFC120BVIRFC120NBIRFC130IRFC 130BIRFC130BVIRFC130NBIRFC1310NBIRFC13N15D IRFC140BVIRFC140NBIRFC150IRFC150BIRFC18N15DIRFC21 0IRFC210BIRFC220BVIRFC22N50AIRFC230IRFC230BIRFC230BVIRFC240IRFC250BIRFC250NBIRFC260NBIRFC2807VIRFC3315BIRFC360IRFC3710IRFC3710BVIRFC3810BIRFC3815BVIRFC420IRFC430IRFC430 BIRFC430BVIRFC43N50KIRFC440IRFC440BVIRFC450IRFC450BVIRFC460IRFC52N15DBIRFC530BIRFC540I RFC540BIRFC90N20DIRFCF30IRFCF30BIRFCF50IRFCF50BVIRFD010BVIRFM250IRFP2907ZPBFIRFPS3 8N60LIRFS9N60AIRHF7230IRL5NJ7413IRLC2203IRLC2203NBIRLC240BIRLC2803IRLC3215IRLMS2002IXFB70N 60IXFH58N20IXFH74N20IXFH80N20IXFK64N60PIXFN80N50PIXKK85N60CJANTX2N7225LND150MMFT2406 T1MMFT6661TMPF6661MRF281MRF282MRF284MTB3N120EMTD6N10MTP10N10MTP3055MTP75N05HDP D57006SPD57060SPTF10045PTF10135PTF210451RFG70N06SD203SD211SD215SD303SD306SD5000SI7922SP P07N60C3SPW20N60C3SST215STD1NC60C-1STD2HNK60ZSTD2NC60C-1STP9NC65SUP60N06VMP4VN2001VN2010VN2222 VN3515VN4012VN66VNDQ3CHPWFP640XSD211P沟道2N68492N7426BS250BSS84FDC5614FDW2520CFQP17P10F QPF6P25IRF7325IRF7329IRF9510IRFC4905BVIRFC5210BIRFC5210BVIRFC7416BIRFC7 604IRFC9014IRFC9014BVIRFC9024NBIRFC9110BVIRFC9120BVIRFC9130IRFC9130BVIRFC9130NIRFC9130NBIR FC9140BIRFC9140BVIRFC9220IRFC9220BIRFC9220BV IRFC9240IRFC9634IRFD9010BVIRFP9150IRHM9160IRHM9250IRHM9260IRHNA9260IXTH11P50SFH9154SI2301DSVP0300异质结晶体管NE321000NE32400NE32500金属半导体晶体管MWT-16PHMWT-7H绝缘栅双极晶体管(IGBT)IRG4CC50FBIRG4CC50UIRGB15B60KBIRGC25B120KIXBH9N 160G可控硅(SCR)2N2324BT151晶体管阵列：达林顿MC1413ULN2002ULN2003AULN2004AULN2023ULN2803MOSFETTPIC2701VQ3001BJTCA3045CA3081CA3096LM3045MC3346逻辑电路：加法器5428354LS28354LS83CD4008BSN74283算术逻辑部件54HC181双向开关CD4016BCD4066B缓冲器5433543854405438544054C24454F24454HC12654HC24454 HCT36554LS0654LS0754LS12654LS24454LS2874HC24474LS0674LS 12674LS24474LS2874LS36774LS3774LS3874S14074S244CD4049UBCD4050BC D4502BCD4503NC7NZ34K8XSN74HC244计数器549054925492549374935416054161541975439054LS925416054161A54925493A54AC39054F16154F161A54FCT161 54HC16354HC19254HC19354HC404054HCT16154HCT16254HCT1954HCT393 54LS16054LS16154LS16254LS16354LS19054LS19254LS19354LS19654LS19754LS29054LS2935 4LS39354LS59054LS59054LS9054LS9254LS9354S16354S1967493A74HC19174HC40 1774HC404074LS16074LS16174LS16274LS19074LS19174LS19274LS19374LS1967 4LS19774LS29374LS39074LS39374LS9074LS9274LS9374S196CD40102BCD40110BC D40163BCD4017CD40193BHCD4022BCD4024BCD4029BCD4040BHCD4045CD4059ACD4 060BCD4510BCD4516BCD4520BCD4522BCD4526DM74LS393DM74LS90MC14522BMC1456 9SP8743译码器54ACT13854HC13854HC13954HC23854HCT15454LS1354LS 13854LS14554LS15454LS24754LS24854LS4254LS4854LS4974HCT15474LS13874LS14574 LS15474LS24774LS24874LS4274LS4774LS48编码器54C92254C92354HC14754HCT14754LS14754LS14874C92274LS14774LS148ADV7176MM54C922触发器547254735476541095472FSC5473547654AHCT7454ALS574 54F11254F27354F7454FCT57454H7454HC10754HC11254HC17554 HC27354HC7454HCT11254HCT7454L7354LS10754LS11254LS11354LS17554LS57454 LS7354LS7654S11254S7474FCT57474HC11274HC27374HC7474LS10974LS112 74LS11374LS27374LS37474LS7374LS7474S74CD4013BCD40174BCD4027BMCC74HC 107SN74157SN74175门电路540054015403540454055406540754085408540954105410542054215425542754305450546054AC0054ACT0054ACT8654AS0854F0254F8654H0054H0154H0154 H2054H2154H2254H4054H5254H5554HC0054HC0154HC1154HC132 54HC2054HC3254HCT0354HCT2054HCT8654L2054LS0054LS0154LS0354LS 0854LS0954LS1054LS1154LS13354LS2054LS2154LS2654LS26054LS26054LS2 6054LS2754LS3054LS3254LS3754LS38654LS4054LS8654S0054S0854S0954S 1054S14054S2054S327400740474057409741074AC0074AC1108674H C0074HCT0074HCT0374LCX084LS0074LS0474LS0874LS1074LS 1374LS13274LS2174LS2674LS26074LS3074LS3274LS38674LS86A74S004S087 4S10CD4000BCD4001BCD4002BCD4011BCD4012BCD4019CD4019BCD40 23BCD4025BCD4030BCD4068BCD4070BCD4071BCD4073BCD4077BCD4081BCD4082BDM7 4AS00DM74AS08DM74LS00DM74LS04DM74LS08DM74LS86MC10107MC10505MC5440FMCC10H 107MCC74LS86MIC320MPY54LS27NC7SZ08SN7440SN74LVC2G38反相器541454AHCT1G0454F0454HC1454HCT1454LS0454LS0554L S1454LV04741474F0474HCT0474LS0574LS14CD4007UBCD4069UBCD4502 BDM74ALS04BDS7812MM74HC04NL27WZ14SN74LVC2G14锁存器54755411654116547554ALS573C54F37354F57354HC53354 HC57354HCT37354HCT57354LS37354LS57354LS7554LS7774ALS57374HC57 374HCT573A74LS37374LS57374LS7574S196CD4508BCD74HC75寄存器5416414557B45575416454194541995429854HC16454HC59 554HCT16454HCT29954LS16454LS19554LS29554LS39554LS9554LS965 4S19474HC59574LS16474LS16574LS29574LS29974LS395CD4015BCD40194BCD402 1BCD4034BCD4035BCD4094BCD4517BCD4557BCD4562BHEF4557BMC14557MC14562M CC14557BMPY54LS164SN74194施密特触发器74HC14ACS14DMSRCD40106BCD4093BMC14584MCC1458 4B数值比较器54LS8574LS68874LS85CD4063BCD4585B多谐振荡器541215412354C22154HC12354HC22154HCT22154LS12254 LS12354LS22154S12374HC22174LS12274LS12374LS221CD14538CD4047BCD409 8BCD4528BCD4538BMC14528奇偶校验5418074LS280可编程逻辑器件(PLD)GAL16V8DGAL20V10GAL20V8BGAL22V10ISPLSI1032ISPLSI 1048PEEL22CV10AXC95144XC9536XC9572-15PC模拟开关和多路转换器：模拟开关AD7510AD7511AD7512ADG201ADG202ADG212AADG222B ADG411ADG412ADG413ADG419ADG433ADG436ADG442DG190DG201ADG300ADG 301ADG303DG303ADG307DG307ADG307BDG308ADG403DG405DG411ADG41 2DG413DG442HI-201HI-5043HI-5051ISL43141MAX313C/DMAX314MAX319MAX333MAX333AM AX352MAX4066C/DMAX4516C/DMAX4610MAX4622MAX4657MA X4658MAX4660MAX4662NLAS2066多路转换器54298AD7501JAD7503AD7506AD9300ADG506ADG507ADG 526AADG706ADG732CD4051BCD4052BCD4053BCD4067DG408DG458DG506AD G508AHCF4053MAX308MAX336MAX396MAX4519MC10174MC10574MC54HC75J MCC10174HI-548HI0-0509HI0-506HI-509HI-50854ACT25154HC15754HC406754LS29874ACT15374LS35774V HC4051多路分配器54HC13854HC13954HC406754HCT15454LS1354LS13854LS 15474HCT15474LS13874LS154CD4051BCD4052BCD4053BCD4067HCF4053光电器件：光耦合器4N244N486N1366N137FND400HCPL-5231ILQ55JANTX4N48MOC3063光敏二极管SP101-400微控制器：AT89C51AT89C52AT89S51AT89S52AT89S8253AT91FR40162P87C528GBLKAAT80C31X2P87C591P89V51TS80C32X2TSC87C52W77E58W78E54B接口电路：总线收发器82C87DS36C278ISO422MAX3318MAX3486MAX485MAX48 8MAX490SN75160SN75162SP485接收器82C5082C5182C52DS26LS33CDS7820DS9637DS96F173ICL2 32MAX232MAX233MAX238MAX243总线控制器MD82188驱动器DS96F174MAX232MAX233MAX238MAX243驱动器：全桥驱动器HIP4080HIP4081HIP4086IRS2453DL6203MOSFET驱动器ICL7667IR2104IR2110CIR2113CIR2130CIR2135IR2213IR221 4LM5112MIC4420MIC4423MIC4424MIC4426MIC4428MIC4429MIC4469TC442 3功率驱动器UC1708UC3707UC3708其余部分：有源滤波器MAX253MAX274MAX293MAX297S3528BS3529UAF42数字信号处理（DSP）SMJ320C40TMS320F240乘法器AD534KAD632ICL8013MC1594锁相环CD4046BHPE3236传感器ADXRS150ADXRS300ADXRS401LM20LM335ALM335A信号调节器AD598AD698NE5521SE5521定时器54LS29482C54CD4541BICM7555ICM7556LM555LM556MC1 4541NE555NE556振荡器74S124ICL8038LTC6906调制解调器LM1596MC14544MC34115MC3517TCM3105。

三极管代码查询t02 SOT23 PDTC143ET N npn 4k7+4k7 bias res t04 SOT23 PMBS3904 N 2N3904t06 SOT23 PMBS3906 N 2N3906 inT1 IMT1A DA 2 x 2SA1037AK pnpT1 SOT23 BCX17 PNPT1 SOT23 BCX17 N BC327T1 SOT23 BSS63 N pnp 100V 0.1At11 SOT23 PDTA114TT N pnp + rest12 SOT23 PDTC114TT N npn + rest16 SOT323 PDTC114EU N npn + rest17 SOT323 PDTC124EU N npn + rest18 SOT23 PDTC143ZT N npn 4k7+47k bias res t19 SOT23 PDTA143ZT N pnp 4k7+47k bias res t1A SOT23 PMMT3904 N 2N3904t1A SOT323 PMST3904 N 2N3904t1B SOT23 PMBT2222 N 2N2222t1B SOT233 PMST2222 N 2N2222t1D SOT23 PMBTA42 N MPSA42 300V npnt1D SOT323 PMSTA42 N MPSA42 300V npnt1E SOT23 PMBTA43 N MPSA43 200V npnt1E SOT323 PMSTA43 N MPSA43 200V npnt1F SOT23 PMBT5550 N 2N5550 140V npnt1F SOT323 PMST5550 N 2N5550 140V npnt1G SOT23 PMMTA06 N MPSA06t1G SOT323 PMMTA06 N MPSA06t1H SOT323 MMBTA05 N MPSA05t1J SOT23 PMBT2369 N 2N2369t1J SOT323 PMBT2369 N 2N2369t1K SOT23 PMBT6428 N MPSA18 50Vt1K SOT323 PMBT6428 N MPSA18 50Vt1L SOT23 PMBT6429 N MPSA18 45Vt1L SOT323 PMBT6429 N MPSA18 45Vt1M SOT23 PMBTA13 N MPSA13 darlingtont1N SOT23 PMBTA14 N MPSA14 darlingtonT1N10 SOT223 MMFT1N10T1 MOSFETT1p SOT23 BCX17 N BC327t1P SOT23 PMBT2222A N 2N2222At1P SOT323 PMST2222A N 2N2222At1Q SOT23 PMBT5088 N MPSA18 Vce 30Vt1Q SOT323 PMST5088 N MPSA18 Vce 30Vt1R SOT323 PMST5089 N MPSA18 Vce 25VT1t SOT23 BCX17 N BC327T2 IMT2A DB 2 x 2SA1037AK pnpT2 SOT23 BCX18 PNPT2 SOT23 BCX18 N BC328T2 SOT23 HSMS-2862 D dual series HSMS-286BT2 SOT23 TN2460T MOSFETT2 SOT323 HSMS-286C D dual series HSMS-286B t23 SOT323 PDTA114TU N pnp +10k Wypr. rest24 SOT323 PDTC114TU N npn +10k resT2406 SOT223 MMFT2406T1 MOSFETt2A SOT23 PMBT3906 N 2N3906t2A SOT323 PMST3906 N 2N3906t2B SOT23 PMBT2907 N 2N2907t2D SOT23 PMBTA92 N MPSA92 pnp Vce 300Vt2D SOT323 PMSTA92 N MPSA92 pnp Vce 300Vt2E SOT23 PMBTA93 N MPSA93 pnp Vce 200Vt2E SOT323 PMSTA93 N MPSA93 pnp Vce 200Vt2F SOT23 PMBT2907A N 2N2907At2F SOT323 PMBT2907A N 2N2907At2G SOT23 PMBTA56 N MPSA56t2G SOT323 PMSTA56 N MPSA56t2H SOT23 PMBTA55 N MPSA55t2H SOT323 PMSTA55 N MPSA55t2L SOT23 PMBT5401 N 2N5401 pnp 150Vt2L SOT323 PMST5401 N 2N5401 pnp 150VT2p SOT23 BCX18 N BC328T2t SOT23 BCX18 N BC328t2T SOT23 PMBT4403 N 2N4403t2T SOT323 PMST4403 N 2N4403t2U SOT23 PMBTA63 N MPSA63 darlingtont2V SOT23 PMBTA64 H MPSA64 darlingtont2X SOT23 PMBT4401 N 2N4401t2X SOT323 PMST4401 N 2N4401T3 SOT23 BSS63 PNPT3 SOT23 BSS63 N BSS68T3 SOT23 HSMS-2863 A ca dual HSMS-286BT3 SOT323 HSMS-286E A ca dual HSMS-286BT3166 SOT223 MMFT3166T1 MOSFETT32 2SC4182 N npn RF fT 1.1GHz @3V hfe60-105 T33 2SC4182 N npn RF fT 1.1GHz @3V hfe85-150 T34 2SC4182 N npn RF fT 1.1GHz @3V hfe120-220 T35 SOT23 BSR20 PNP T36 SOT23 BSR20A PNPT4 SOT23 BCX17R PNPT4 SOT23 HSMS-2864 B cc dual HSMS-286BT4 SOT23R BCX17R R BC327T4 SOT323 HSMS-286F B cc dual HSMS-286BT4 SOT363 MBD330DW DL dual UHF schottky diode T422SC3545P N npn RF fT 2GHz Hfe 50-100T42 2SC4184 N npn RF fT1.8GHz hFE 40-80T43 2SC3545Q N UHF osc/mix fT 2GHz Hfe70-140 T43 2SC4184 N npn fT1.8GHz hFE 60-120T44 2SC3545R N npn RF fT 2GHz Hfe 120-250T44 2SC4184 N npn RF fT1.8GHz hFE 100-200T5 SOT143 HSMS-2865 S separate dual HSMS-286B T5 SOT23 BCX18R PNPT5 SOT23R BCX18R R BC328T52 SOT23 MMBTS102 TEMP.SENSORT53 SOT23 MMBTS103 TEMP.SENSORT55 SOT23 MMBTS105 TEMP.SENSORT6 SOT23 BSS63R PNPT6 SOT23R BSS63R R BSS68T6661 SOT223 MMFT6661T1 MOSFETT7 SOT23 BSR15 PNPT7 SOT23 BSR15 N 2N2907T7 SOT23 SST4117 JFETT71 SOT23 BSR15R PNPT71 SOT23R BSR15R R 2N2907T72 2SC4568 N npn RF ft 5.5GHz hFE 40-80T72 2SC4570 N npn RF ft 5.5GHz hFE 40-80T73 2SC4568 N npn RF ft 5.5GHz hFE 60-120T73 2SC4570 N npn RF ft 5.5GHz hFE 60-120T74 2SC4568 N npn RF ft 5.5GHz hFE 100-200T74 2SC4570 N npn RF ft 5.5GHz hFE 100-200T75 2SC4569 N npn RF fT 5GHz hFE 40-80T75 2SC4571 N npn RF fT 5GHz hFE 40-80T76 2SC4569 N npn RF fT 5GHz hFE 60-120T76 2SC4571 N npn RF fT 5GHz hFE 100-200T76 2SC4571 N npn RF fT 5GHz hFE 60-120T77 2SC4569 N npn RF fT 5GHz hFE 100-200T7p SOT23 BSR15 N 2N2907T7t SOT23 BSR15 N 2N2907T8 SOT23 BSR16 PNPT8 SOT23 BSR16 N 2N2907AT8 SOT23 SST4118 JFETT81 SOT23 BSR16R PNPT81 SOT23R BSR16R R 2N2907AT82 2SC4954 N npn RF fT12GHz @3V 5mAT82 2SC4956 WQ npn RF fT 12GHz @3V 5mAT83 2SC4955 WQ npn RF fT 12GHz @3V 10mAT84 2SC5177 N npn RF fT 13GHz @2V 7mAT84 2SC5178 WQ npn RF fT 13GHz @2V 7mAT84 2SC5179 npn RF fT 13GHz @2V 7mAT86 2SC5182 N npn RF fT 12GHz @2V 20mAT86 2SC5182 NN npn RF fT 12GHz @2V 20mA T86 2SC5183 WQ npn RF fT 12GHz @2V 20mA T88 2SC5191 N npn RF fT 8.5GHz @3V 20mAT88 2SC5192 WQ npn RF fT 8.5GHz @3V 20mA T88 2SC5193 N npn RF fT 8.5GHz @3V 20mAT89 2SC5288 WQ npn RFT8p SOT23 BSR16 N 2N2907AT8t SOT23 BSR16 N 2N2907AT9 SOT23 BSR18 PNPT9 SOT23 SST4119 JFETT90 2SC5289 WQ npn RFT92 2SC1977 WQ pnp RF fT 8.5GHzT92 SOT23 BSR18A PNPT92 SOT23 BSR18A N 2N3904T92P SOT23 BSR18A N 2N3904T93 2SC1978 WQ pnp RF fT 8.5GHzTA SOT23 KTY13A TEMP.SENSETB SOT23 KTY13B TEMP.SENSETC SOT23 KTY13C TEMP.SENSETD SOT23 KTY13D TEMP.SENSETFX SOT23 BAL99 V switching diodetG1 SOT23 PMBT5551 N 2N5551 npn Vce 140V tG1 SOT323 PMST5551 N 2N5551 npn Vce 140V TV SOT23 MMBF112 FET TV SOT23 MMBF112L F RF jfetU SOD323 BB545 I 20-2pF varicapU SOT143 BCV61A NPNU SOT23 BC848A NPNU SOT23 FMMT2369 NPNU SOT23 MMBT2369 NPNU SOT23 PMBT2369 NPNU SOT323 BC848AW NPNU1 SOT143 BGX50A diodax4U1 SOT143 BGX50A BQ quad ring Si sw diodes U1 SOT23 BCX19 NPNU1 SOT23 BCX19 N BC337U16 2SC4183 N npn RF 5V fT1GHz hFE 60-120 U17 2SC4183 N npn RF 5V fT1GHz hFE 90-180 U18 2SC4183 N npn RF 5V fT1GHz hFE 120-240 U1A SOT143 3SK230A UQ dg RF mosfet U1B SOT143 3SK230B UQ dg RF mosfetU1C SOT143 3SK231C UQ dg RF mosfetU1D SOT143 3SK231D UQ dg RF mosfetU1E SOT143 3SK252E UQ dg RF mosfetU1E SOT343 3SK254E UQ dg RF mosfetU1G SOT143 3SK253G UQ dg RF mosfetU1G SOT343 3SK255G UQ dg RF mosfetU1p SOT23 BCX19 N BC337U1t SOT23 BCX19 N BC337U2 SOT23 BCX20 NPNU2 SOT23 BCX20 N BC338U21 2SC4185 N npn RF 10V fT2.4GHz hFE40-80 U22 2SC4185 N npn RF 10V fT2.4GHz hFE60-120 U23 2SC4185 N npn RF 10V fT2.4GHz hFE90-180 U2t SOT23 BCX20 N BC338U3 SOT23 BSS64 NPNU3 SOT23 BSS64 N 120V 0.25A 0.2WU35 SOT23 BSR19 NPNU36 SOT23 BSR19A NPNU4 SOT23 BCX19R NPNU4 SOT23R BCX19R R BC337U5 SOT23 BCX20R NPNU5 SOT23R BCX20R R BC338U55 SOT143 3SK134B UQ dg mosfetU55 SOT343 3SK245 UQ dg mosfetU56 SOT143 3SK134B UQ dg mosfetU56 SOT343 3SK245 UQ dg mosfetU6 SOT23 BSS64R NPNU6 SOT23R BSS64R R 120V 0.25A 0.2WU65 SOT143 3SK135A UQ dg mosfetU66 SOT143 3SK135A UQ dg mosfetU7 SOT23 BSR13 NPNU7 SOT23 BSR13 N 2N2222U71 SOT143 3SK177 UQ dg GaAsfet Idss 5-15mA U71 SOT23 BSR13R NPNU71 SOT23R BSR13R R 2N2222U71 SOT343 3SK299 UQ dg GaAsfet Idss 5-15mA U72SOT143 3SK177 UQ dg GaAsfet Idss10-25mA U72 SOT343 3SK299 UQ dg GaAsfet Idss 10-25mA U73 SOT143 3SK177 UQ dg GaAsfet Idss 20-35mA U73 SOT343 3SK299 UQ dg GaAsfet Idss 20-35mA U74 SOT143 3SK177 UQ dg GaAsfet Idss 30-40mA U74 SOT343 3SK299 UQ dg GaAsfet Idss 30-40mA U76 SOT143 3SK206 UQ dg GaAsfet Idss 10-25mA U77 SOT143 3SK206 UQ dg GaAsfet Idss 20-35mAU78 SOT143 3SK206 UQ dg GaAsfet Idss 30-50mA U79 SOT143 3SK206 UQ dg GaAsfet Idss 45-80mA U7p SOT23 BSR13 N 2N2222U7t SOT23 BSR13 N 2N2222U8 SOT23 BSR14 NPNU8 SOT23 BSR14 N 2N2222AU81 SOT23 BSR14R NPNU81 SOT23R BSR14R R 2N2222AU87 SOT143 3SK176A UQ dg mosfetU88 SOT143 3SK176A UQ dg mosfetU8p SOT23 BSR14 N 2N2222A。