SG6848中文资料

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TEA6848H中文资料

1 FEATURES
TEA6848H
• FM mixer 1 for conversion of FM RF (65 to 108 MHz and US weather band) to IF of 10.7 MHz; the mixer provides inherent image rejection; for European and US FM band/WB (weather band) the mixer is driven with a ‘high’ injection Local Oscillator (LO); in Japan FM band and East Europe FM band the mixer is driven with a ‘low’ injection LO • AM mixer 1 for conversion of AM RF to AM IF1 of 10.7 MHz • LC tuner oscillator providing mixer frequencies for FM mixer and AM mixer 1 • AM mixer 2 for conversion of AM IF1 to AM IF2 of 450 kHz • Crystal oscillator providing mixer frequencies for AM mixer 2 and FM mixer 2 and reference for synthesizer PLL, IF count, timing for Radio Data System (RDS) update and reference frequency for car audio signal processor ICs • Fast synthesizer PLL tuning system with local control for inaudible RDS updating • Timing function for RDS update algorithm and control signal output for car audio signal processor ICs (TEA688x, SAA77xx, TEF689x) • Digital alignment circuit for bus controlled matching of oscillator tuning voltage to FM antenna tank circuit tuning voltage • AGC PIN diode drive circuit for FM RF AGC; AGC detection at FM mixer input; the AGC PIN diode drive can be activated by the I2C-bus as a local function for search tuning; AGC threshold is a programmable and keyed function switchable via the I2C-bus • FM IF linear amplifier with high dynamic input range • FM mixer 2 for conversion of FM IF1 to FM IF2 of 450 kHz with inherent image rejection • Fully integrated dynamic selectivity and FM demodulator at IF2; improved sensitivity with dynamic threshold extension; centre frequency of IF2 selectivity alignment via the I2C-bus • Level detector for AM and FM with temperature compensated output voltage; starting point and slope of level output is programmable via the I2C-bus 3 ORDERING INFORMATION TYPE NUMBER TEA6848H 2004 Nov 12

中文资料(6848).

綠色PWM control IC---SG6848特色支持”Blue Angle”之Green-Mode5μA低啟動电流3mA低操作电流脈衝上升沿遮沒定功率輸出保護内置同步斜率補償最少外部组件低成本解決方案超小型SOT-26 封装应用功率低于20W的通用开关式电源Adapter:打印机, 游戏机, 随身听电池充电器:可攜電子產品电视机、DVD、家电产品中的开关电源概述绿色工作模式PWM控制器SG6848具有许多特殊的功能和完善的保护特性。

因为它是用Bi-CMOS工艺制造的，可大幅度降低了启动和运作时功耗，启动仅30μA，工作时仅吸收电流3mA。

SG6848在正常工作时的频率是固定的，但是当输出功率下降到额定值的四分之一时，频率便随着输出功率的减小而下降，从而减少了在负载电流很小或者待机状态时的功耗。

该器件中还采用了同步斜率补偿技术，它可以确保连续模式工作时电流回路的稳定性。

该器件内含电源电压补偿电路，因此输入电压在很宽范围内变化时，开关电源可维持恒定输出功率，该器件还具有过热保护功能。

SG6848内部还具有限功率控制器，因此具有超功率保护功能，从而可实现限制电源功率的安全要求.SG6848用于功率低于20W的通用开关式电源和回扫式转换器，打印机、游戏机、随身听的电源转接器，电池充电器，电视机、DVD、家电产品中的开关电源2. 引脚排列及引脚功能SG6848引脚排列如图1所示。

各引脚的功能如下：SG6848T* DIP括號內為SOT261脚(6) GATE：驱动器输出。

内部推挽输出驱动器的输出脚。

该脚输出信号可驱动外接的功率MOSFET。

2腳VDD：电源输入.起动电流输入脚。

在电源输入和该脚之间应接入一只起动电阻。

在离线式开关变换器中，起动电阻的阻值应为1.5MΩ。

调整起动电阻的阻值，可以改变恒定输出功率限制的电源电压补偿。

3脚ncc.4脚SENSE：电流取样。

外接电流取样电阻两端的压降加到该脚。

DN6848资料

s OverviewThe DN6848/SE/TE/S is a combination of a Hall element,amplifier, Schmitt circuit, and stabilized power supply/temper-ature compensator integrated on an identical chip by using the IC technology. It amplifies Hall element output at the amplifi-er, converts into a digital signal through the Schmitt circuit,and drives the TTL or MOS IC directly.s Features•High sensitivity and low drift•Stable temperature characteristics due to the additional tem-perature compensator•Wide operating supply voltage range (V CC =4.5 to 16V)•Operating in one way magnetic field•TTL and MOS ICs directly drivable by output •Output open collectors Applications•Speed sensors •Position sensors •Rotation sensors •Keyboard switches •MicroswitchesNote) This IC is not suitable for car electrical equipments.DN6848/SE/TE/SHall IC (Operating Temperature Range Topr = – 40 to +100˚C, Operating in OneWay Magnetic Field)s Block DiagramV CC I CC I O P D T opr T stgSupply voltage Supply current Circuit current Power dissipationOperating ambient temperature Storage temperatureV mA mA mW ˚C ˚C18820150–40 to +100–55 to +125ParameterSymbol Rating Unit s Absolute Maximum Ratings (Ta=25˚C)Operating flux density 0.5B 1 (L to H)mT 9V CC =12V B 2 (H to L)22mT 11V CC =12VHysteresis width 1BW mT 2V CC =12VLow output voltageV OL0.4V V CC =4.5 to 16V V O =16V, B=0mT High output current I OH 10µA Supply currentmA V CC =16V I CC5.5mAV CC =4.5V6210.41.5V V CC =4.5V, I O =12mA, B=22mTV CC =16V, I O =12mA, B=22mTParameterSymbol Conditionmin typ max Unit s Electrical Characteristics (Ta=25˚C)Distance from package surface to sensor (mm)DN68480.7DN6848SE 0.42DN6848TE0.4DN6848S 0.65Unit : mmThe center of the Hall element is in the hatched area in the right figure.s Hall Element Positions Flux-Voltage Conversion Characteristicss Precaution on Use1. Change of the operation magnetic flux density does not depend on the supply voltage, because the stabilization power supply is built-in. (only for the range ; V CC = 4.5 to 16V)2. Change from “H” to “L” level increases the supply current by approx. 1mA.S u p p l y c u r r e n t (m A )Supply voltage – Ambient temperature876543210Operating flux density – Ambient temperatureAmbient temperature (˚C)O u t p u t “L ” l e v e l v o l t a g e (m V )1009080706050403020100–50–25255075100125Operating flux density – Supply voltages Characteristics Curve。

sg6848芯片工作原理

sg6848芯片工作原理SG6848芯片是一种常见的集成电路芯片，它具有广泛的应用领域。

本文将以人类视角，以真实的叙述方式，描述SG6848芯片的工作原理。

SG6848芯片的工作原理可以简单概括为输入信号经过处理后转化为输出信号。

具体来说，SG6848芯片内部包含了多个功能模块，每个模块都有特定的功能和工作原理。

SG6848芯片的输入端接收来自外部的信号。

这些信号可以是电流、电压、温度等各种类型的信号。

芯片通过内部的放大电路将输入信号进行放大，以便后续的处理。

接下来，SG6848芯片的处理模块开始工作。

这个模块主要负责对输入信号进行分析和处理。

它可以根据预设的算法和规则对输入信号进行滤波、放大、变换等操作。

处理模块通过内部的运算单元对输入信号进行计算和处理，以得到期望的输出结果。

在处理模块的工作完成后，SG6848芯片的输出端会产生相应的输出信号。

这些输出信号可以是数字信号、模拟信号或其他形式的信号，具体取决于芯片的设计和用途。

输出信号可以用于驱动外部设备、控制系统的运行或提供给其他电路进行进一步的处理和分析。

总的来说，SG6848芯片通过输入端接收信号，经过内部的处理模块进行处理，最终产生相应的输出信号。

它可以在各种电子设备中发挥重要的作用，如通信设备、家电、工控设备等。

虽然SG6848芯片的工作原理可能较为复杂，但它的应用却十分广泛。

在现代科技的推动下，SG6848芯片不断演进和发展，为人们的生活带来了便利和创新。

无论是在通信领域、家庭生活还是工业制造，SG6848芯片都发挥着重要的作用，推动着社会的进步和发展。

希望通过本文的描述，读者对SG6848芯片的工作原理有了更清晰的了解。

无论是从技术角度还是从应用角度，SG6848芯片都是一种非常重要的电子元器件，它不仅为各种电子设备的正常运行提供了支持，也为人们的生活带来了更多的便利和创新。

ADC0808芯片中文资料

典型的集成ADC芯片为了满足多种需要，目前国内外各半导体器件生产厂家设计并生产出了多种多样的ADC 芯片。

仅美国AD公司的ADC产品就有几十个系列、近百种型号之多。

从性能上讲，它们有的精度高、速度快，有的则价格低廉。

从功能上讲，有的不仅具有A/D转换的基本功能，还包括内部放大器和三态输出锁存器；有的甚至还包括多路开关、采样保持器等，已发展为一个单片的小型数据采集系统。

尽管ADC芯片的品种、型号很多，其内部功能强弱、转换速度快慢、转换精度高低有很大差别，但从用户最关心的外特性看，无论哪种芯片，都必不可少地要包括以下四种基本信号引脚端：模拟信号输入端(单极性或双极性)；数字量输出端(并行或串行)；转换启动信号输入端；转换结束信号输出端。

除此之外，各种不同型号的芯片可能还会有一些其他各不相同的控制信号端。

选用ADC芯片时，除了必须考虑各种技术要求外，通常还需了解芯片以下两方面的特性。

（1）数字输出的方式是否有可控三态输出。

有可控三态输出的ADC芯片允许输出线与微机系统的数据总线直接相连，并在转换结束后利用读数信号RD选通三态门，将转换结果送上总线。

没有可控三态输出(包括内部根本没有输出三态门和虽有三态门、但外部不可控两种情况)的ADC芯片则不允许数据输出线与系统的数据总线直接相连，而必须通过I/O接口与MPU交换信息。

（2）启动转换的控制方式是脉冲控制式还是电平控制式。

对脉冲启动转换的ADC芯片，只要在其启动转换引脚上施加一个宽度符合芯片要求的脉冲信号，就能启动转换并自动完成。

一般能和MPU配套使用的芯片，MPU的I/O写脉冲都能满足ADC芯片对启动脉冲的要求。

对电平启动转换的ADC芯片，在转换过程中启动信号必须保持规定的电平不变，否则，如中途撤消规定的电平，就会停止转换而可能得到错误的结果。

为此，必须用D触发器或可编程并行I/O接口芯片的某一位来锁存这个电平，或用单稳等电路来对启动信号进行定时变换。

CR6850中文版技术设计指导书

6
≅ 93mW ………………………………（1.4.2）
3
CR6850C 应用指导书
5、正常工作频率
CR6850C 允许设计者根据系统的使用环境需要自行调整系统的工作频率,其 PWM 频率为：50K－100K； CR6850C 的典型工作频率为 67KHz，其应用电路如图 1.6，RI 的取值决定了系统的工作频率，工作频率的设定可分别由以下公式计算出来。
4、启动电阻RIN上最大损耗：
PRIN , MAX
(V =
DC , MAX
− VDD )
2
RIN
≅
2 VDC , MAX
RIN
……………………（1.4.1）
其中， VDC，MAX是最大输入整流后电压对于一个通用输入（90Vac~264Vac），VDC，MAX=374V
PRIN , MAX =
3742 1.5 × 10
·AC/DC 电源适配器 ·电池充电器 ·开放式电源 ·备用开关电源 ·机顶盒开关电源 ·384X 代替 ·兼容：SG6848J&LD7535&OB2262&OB2263
芯片特征芯片特征：特征：
·低成本、极少的外围元件 ·PWM&PFM&CRM (周期复位模式)控制 ·低启动电流 (约 8µA)、低工作电流 (约 2mA) ·电流模式控制 ·欠压锁定(UVLO) ·内置同步斜坡补偿 ·PWM 频率外部可调 ·轻载工作无音频噪音 ·内置前沿消隐 ·在输入 90V~264V 的宽电压下可实现恒 ·定最大输出功率 ·周期电流限制 ·GATE 引脚驱动输出高电平钳位 16.8V
CR6850C 应用指导应用指导书指导书
摘要：摘要：
本文主要介绍了 CR6850C 的特征和详细的工作原理，描述了一种采用 CR6850C 的反激式隔离 AC-DC 开关电源的简单而高效的设计方法。 VDD 引脚过压保护 25.5V SOT-23-6L，SOP8 ，DIP-8 无铅封装

SG6848 5VSB 0.2A; 5V 1A; 3.3V 1A ; 12V 0.3A; -12V

Demo Board Manual2004 System General Corporation VerA.0 PM02006-001.Schematic...............................................P2yout Picture .......................................P33.BOM….......................................................P54.Transformer............................................P75.Typical Function Test Report...............P10PM02006-00SG68485VSB/0.2A; 5V/1A; 3.3V/1A ; 12V/0.3A; -12V/0.2A; -21V/0.2A6.EMC Test Reprot....................................P16ContentsR T D g,¤o p v LW PM02006-00½u SE s REV: A0 2/21±R¶T¬ì§ÞªÑ¥÷¦³--¤½¥q¤å¥ó«D¸g¤¹³\,¤£±o¨p¦Û¼v¦L ¤å¥ó¦WºÙPM02006-00§G½u¹ÏSE s REV: A0 ¤3/21±R¶T¬ì§ÞªÑ¥÷¦³--¤½¥q¤å¥ó«D¸g¤¹³\,¤£±o¨p¦Û¼v¦L ¤å¥ó¦WºÙPM02006-00§G½u¹ÏSE s REV: A0 ¤4/21±R¶T¬ì§ÞªÑ¥÷¦³--¤½¥q¤å¥ó«D¸g¤¹³\,¤£±o¨p¦Û¼v¦L¤å¥ó¦WºÙPM02006-00 BOMªSEREV: A0 ¤5/21N W W m02-1310505-00 1/4W 1MΩ +/-5% TAPING 4 R1,R2,R3,R4 02-1310205-00 1/4W 1K£ +/-5% TAPING 2 R5R37 02-1310405-00 1/4W 100K£ +/-5% TAPING 2 R6,R31 02-1315405-03 1/4W 150K£ +/-5% F 1 R702-3510405-00 1W 100K£ +/-5% TAPING 1 R802-1347005-00 1/4W 47£ +/-5% TAPING 1 R902-1310105-00 1/4W 100£ +/-5% TAPING 2 R10,R11 02-3500101-00 1W 1£ +/-1% TAPING 1 R1202-1333305-00 1/4W 33K£ +/-5% TAPING 1 R1302-0000000-00 JUMPERWIRE0.6*52mm 7 R14,R30,JP1,JP2, JP3,JP4,JP502-1333005-00 1/4W 33£ +/-5% TAPING 6 R15,R16,R17, R18,R19,R2002-1356205-00 1/4W 5K6£ +/-5% TAPING 2 R21,R28 02-1368205-00 1/4W 6K8£ +/-5% TAPING 2 R22,R36 02-1347105-00 1/4W 470£ +/-5% TAPING 2 R23,R24 02-1356105-03 1/4W 560£ +/-5% F 1 R2502-1322205-00 1/4W 2K2£ +/-5% TAPING 1 R2702-1322105-00 1/4W 220£ +/-5% TAPING 1 R2902-1347205-00 1/4W 4K7£ +/-5% TAPING 1 R3202-2320301-00 1/4W 20K£ +/-1% TAPING 2 R33R35 02-2322301-00 1/4W 22K£ +/-1% TAPING 1 R3403-B033211-00 X2e 0.33u 275V +/-20% ´ 1 17.7*8.1*16 C103-101043B-00 e 104P 50V +80/-20% TAPING 11 C2,C3,C4,C22,C34 C35,C36,C37,C38,C39,C4003-51470C1-01 e 47u 400V 105¢J RADIAL ´KMG 1 C503-001033B-01 e 103 P 50V+80/-20% ´ 2 C6,C2603-001023B-01 e102 P 50V +80/-20% 1 C703-004726B-01 e472 P 500V +80/-20% 1 C803-5222091-01 e 22u 200V 105¢J RADIAL ´KMG 1 10*16 C9 03-5010051-01 e10u 50V 105¢J RADIAL ´ 1 C1003-D022201-00 Y2e222P 250V +/-20% 1 C1103-001027B-01 e102 P 1KV +80/-20% 6 C12,C13,C14, C15,C16,C1703-5110151-01 e100u 50V 105¢J RADIAL ´ 4 8*11.5C18,C23,C25,C2803-5247111-01 e470u 10V 105¢J RADIAL ´ 6 C19,C20,C21, C31,C32,C3303-5222141-01 e220u 35V 85¢J RADIAL ´ 3 8*11.5 C24,C27,C29 03-5068131-01 e680u 25V 105¢J RADIAL ´ 1 C3003-0008239-01 e82P 50V +/-10% 1 C4107-0400700-01 G 1N4007 TAPING 4 D1,D2,D3,D407-0010700-00 G FR107 TAPING 4 D5,D6,D7,D8,07-0010300-00 G FR103 TAPING 3 D9,D10,D1207-0015700-00 G FR157 TAPING 1 D11±R¶T¬ì§ÞªÑ¥÷¦³--¤½¥q¤å¥ó«D¸g¤¹³\,¤£±o¨p¦Û¼v¦L¤å¥ó¦WºÙPM02006-00 BOMªSEREV: A0 ¤6/2107-0414800-00 G 1N4148 TAPING 1 D13 07-0036000-00 G SR360 TAPING 2 D14,D15 07-0015000-00 G SR150 TAPING 1 D1604-1000006-00 TRN0006 P 6 L1,L2,L3, L4,L5,L604-1100040-10 MCH0040 2 BEADC8B3.5*3.2*1.0 D5,R1207-2015000-00 ZENER G 1/2W 15V TAPING 1 ZD107-2012000-00 ZENER G 1/2W 12V TAPING 1 ZD207-2056A00-00 ZENER G 1/2W 5V6 TAPING 1 ZD309-1029070-00 PN2907 1 Q109-1007600-00 7NB60 1 Q209-1255510-00 2N5551 1 Q309-1001700-00 BS170 1 Q409-1022220-00 PN2222A 1 Q509-1070060-00 70N06 1 Q611-7008170-00 IC PC817A DIP 1 U209-0004310-00 REQULATORTL431+/-1% 3 U3,U4,U552-0000142-00 HSMCH0142 1 HS P1-¤p-AZ35 Q258-2130801-00 Y3£r8mm 1 Q2 54-1310198-00 MCH0198 1 TR-220 Q254-0110165-00 MCH0165 1 TR-220 Q228-0001601-00 FUSE GLASS 250V 4A QUICK (¤) 1 3.6*10 F230-0147100-00 7£r470V 1 M104-1000018-00 TRN0018 1 PNB60-T1 TX104-2000185-00 TRN0185 1 TX2SG6848D_E_FG SG6848 DIP Ver:E 1 U142-8101231-00 WAFER(2510HHS)12p2.54mm180° 1 CN142-6100241-10 WAFER(8639HS) 3-1P 3.96mm 180° 1 CN270-0000011-02 PCB PC-SE011 REV.2 1SPECIFCATION APPROV ALSPECIFCATION APPROV ALSPECIFCATION APPROV ALCustomer SYSTEM GENERAL CORP. P/N: TRN-0185 DATE 04/29/2004 A -9/213.ELECTRICAL SPECIFICATION¡G3.1 lnductance test¡G at 1KHz ,1.0VP(6-1)¡G960 uH± 5%3.2 DC Resisstance test at 25¡C CP(6-1)¡G550 mOhmo max P(11-18)¡G14.0 mOhmo maxP(18-12)¡G13.4 mOhmo max P(18-14)¡G71.5 mOhmo maxP(14-15)¡G57 mOhmo max P(13-18)¡G89 mOhmo maxP(10-11)¡G168 mOhmo max P(16-17)¡G25.0 mOhmo max3.3 Hi-pot test¡GAC 3.0K V /60Hz/5mA hi-pot for one minute between pri to sec.AC 1.5K V /60Hz/5mA hi-pot for one minute between pri to core.AC 1.5K V /60Hz/5mA hi-pot for one minute between sec to core.3.4 lnsuiation test¡GThe insulation resistance is between pri to sec and windings tocore measured by DC 500V,must Be over 100 MOhm.3.5 Terminal strength¡G1.5 Kg on terminals for 10 seconds, test the breakdown.UNIT m/m DRAWN CHECK TITLE TRANSTEL (02)2215-8302°IDENTN O. TRN-0185 SH XXXFAX(02)2215-8293x_s w d23419SEN HUEI INDUSTRIAL CO.,LTD.D W GN O.I2816SPECIFCATION APPROV AL¥\¯àÀË¬dªí®Ö-ã¡GSY ¼f®Ö¡GREX ¶ñªí¡G Addis ªí³æ½s¸¹¡G RDF05.A0Test Model PM02006-00 S/N:6848XXXXTest Date: 2004-03-24 Test TemperatureAmbientTest EquipmentAC Source: EXTECH 6220 Electronic Load: Chroma 63030 Multimeter: YOKOGAWA WT210 Oscilloscope: Tektronix TDS3032 1 Input Current: Pass Fail 2 Short Current:Pass Fail 3__Input Wattage at DC output Min. load condition: Pass Fail 4__Line Regulation & Load Regulation: Pass Fail 5 Efficiency: Pass Fail 6 Ripple & Noise:Pass Fail 7 Dynamic load: Pass Fail 8 DC output rise time: Pass Fail 9 Trun on time: Pass Fail 10 Hold up time:Pass Fail 11_Overshoot & Undershoot Test: Pass Fail 12_Over Power protection: Pass Fail 13_Brown out test: PassFailV1= 5VIo(Max. load)=1A Io(Mid. load)=0.5A Io(Min. load)= 0A V4= 12VIo(Max. load)= 0.3A Io(Mid. load)= 0.15A Io(Min. load)= 0A V2= 3.3VIo(Max. load)= 1A Io(Mid. load)= 0.5A Io(Min. load)= 0A V5= -12VIo(Max. load)= 0.2A Io(Mid. load)= 0.1A Io(Min.load)= 0A NoteV3= 5VSBIo(Max. load)= 0.2A Io(Mid. load)= 0.1A Io(Min. load)= 0AV6= -21VIo(Max. load)= 0.2A Io(Mid. load)= 0.1A Io(Min. load)= 0AShown in this document is the typical test result performed on one demo unit. There could be some deviation between different demo units.1 Input Current:1.1 Test Condition:Load: Max. LoadInput current: 1A Max.1.2 Test Result:Input Voltage Input Current (A)Test Specifications115V/60Hz 0.428A 230V/50Hz0.295A< 1.0A2 Short circuit protection:2.1 Test Condition:Short-circuit the all output the power supply will be protected and AC power input will be less than 2W(auto recovery)2.2 Test Result:Input Voltage Max. LoadMid. LoadMin. LoadTest Condition90V/47Hz Pass Fail Pass Fail Pass Fail 264V/63HzPassFailPassFailPassFail<2W3 Input Wattage at DC output Min. load condition:3.1 Test Condition:Load: Min. LoadSwitch off in standby mode less than 1 Watt at nominal line condition.3.2 Test Result:Stability (V) Test SpecInput Voltage Input Power V1 V2 V3 V4 V5 V6120V/60Hz 0.43W 2.09 1.22 4.90 4.22 4.29 7.79 240V/50Hz 0.77W 1.97 1.19 4.90 4.26 4.33 7.87 264V/50Hz 0.85W1.97 1.19 4.90 4.26 4.34 7.88<1W4 Line Regulation & Load Regulation:4.1 Test Condition:Line regulation: 1% Max.Load regulation: 5% Max.4.2 Test Result:Max. Load(V)Min. Load(V) Input VoltageV1 V2 V3V4V5V6V1V2V3 V4 V5V6 90V/60Hz 5.25V 3.28V 4.88V12.3V12.5V23.0V 5.20V 3.34V 4.90V 11.9V 12.5V22.3V115V/60Hz 5.26V 3.28V 4.89V12.3V12.4V22.9V 5.20V 3.34V 4.90V 11.9V 12.5V22.3V132V/60Hz 5.26V 3.28V 4.89V12.3V12.4V22.9V 5.22V 3.34V 4.90V 12.0V 12.4V22.3V180V/50Hz 5.23V 3.28V 4.89V12.2V12.4V22.8V 5.20V 3.34V 4.90V 11.9V 12.3V22.1V230V/50Hz 5.26V 3.28V 4.89V12.3V12.4V22.8V 5.20V 3.34V 4.90V 11.9V 12.4V22.2V264V/50Hz 5.26V 3.28V 4.89V12.3V12.4V22.9V 5.22V 3.34V 4.90V 12.0V 12.5V22.4VV1 V2 V3 V4 V5 V6 Line Regulation 0.6% 0% 0.2% 0% 0.8% 0.95% Load Regulation 1.2% 1.8% 0.4% 3.3% 1.6% 4.3%5 Efficiency:5.1 Test Condition:Load: Max. loadEfficiency: 70% minimum at nominal line input5.2 Test Result:Input Voltage Max. Load (%)Test Spec.90V/60Hz 78.1%115V/60Hz 78.6%132V/60Hz 78.2%>70% 180V/50Hz 77.8%230V/50Hz 75.7%264V/50Hz 74.3%6 Ripple & Noise:6.1 Test Condition:Tested by DC loading side parallel with a 10uF/EC and 0.1uF/CC capacitor and MeasuredBand-width with DC-20MHz6.2 Test Result:Max. Load (mV)Mid. Load (mV)Test Spec.Input VoltageV1V2 V3 V4V5V6V1V2V3V4 V5 V6 115V/60Hz 35 56 18 60 45.672 15.6 6 11.6 5.6 8.8 9.6230V/50Hz 14.434 8 30 13.219.2 6.8 6 5.6 5.6 8.8 9.67 Dynamic load:7.1 Test Condition:Dynamic loading (20% ~ 80% of the full load, 50mesc duty cycle)7.2 Test Result:Overshoot (mV)Undershoot (mV)Input VoltageTest Spec.V1 V1 115V/60Hz 84 100230V/50Hz 82 707.3 Test Condition:Dynamic loading (0% ~100% of the full load, 50mesc duty cycle)7.4 Test Result:Overshoot (mV)Undershoot (mV)Input VoltageTest Spec.V1 V1 115V/60Hz 113 157230V/50Hz 97 1258 DC output rise time:8.1 Test Condition:Load: Max. Load & Min. LoadDC Output rise time: 20mS max.8.2 Test Result:Max. Load (mS)Min. Load (mS)Test Spec.Input VoltageV1 V2 V3 V4V5V6V1V2V3V4 V5 V6< 20mS 90V/47Hz 15.2 11.6 15.4 15.315.7167.6 3.87.47.6 7.4 7.2264V/63Hz 7.2 4.2 7.2 7.17.27.5 3.8 2.2 4.0 3.8 4.4 4.89 Turn on time:9.1 Test Condition:Load: Max. load & Min. loadAC switch on time: 3Sec max.9.2 Test Result:Max. Load (Sec)Min. Load (Sec)Test Spec.Input VoltageV1 V190V/47Hz 2.08 2.04<3Sec 110V/60Hz 1.18 1.10 220V/50Hz 0.74 0.8410 Hold up time:10.1 Test Condition:Load: Max. loadDC Hold up time10.2 Test Result:Max. Load (mS)Test Spec.Input VoltageV190V/47Hz 17110V/60Hz 24220V/50Hz 9611 Overshoot & Undershoot Test:11.1 Test Condition:Less than 5% of nominal voltage valueLoad: Max. Load & Min. Load11.2 Test Result:Overshoot (mV)Undershoot (mV)Test Spec.Input VoltageV1 V2 V3V4V5V6V1V2V3V4 V5 V6 90V/47Hz; Max. Load 120 0 0 2001205000 0 0 240 80 090V/47Hz; Min. Load 100 0 80200200600600 0 0 0 0<5% 264V/63Hz; Max. Load 0 0 0 0 0 0 0 0 0 0 0 0264V/63Hz; Min. Load 0 0 0 0 0 3000 0 0 0 0 012 Over Power protection:12.1 Test Condition:An over current from the output to return line will not damage the power supply. The protection will be enabled if the output current exceeds 2A ~ 5A.(When Vout < 4.75V)12.2 Test Result:Output Current (A)Input VoltageTest Spec.V190V/60Hz 2.1A115V/60Hz 2.7A2A~5A 230V/50Hz 4.5A264V/50Hz 5.0A13 Brown out test:13.1 Test Condition:The power supply shall meet its output specification while the line voltage is reduced in 5 voltagedecrements from 264Vac to 90Vac, with a minimum dwell at each increment of 15 minutes. Thevoltage transition time shall be equal to or less than 5 seconds.The power supply shall recover and continue to meet its output specification after the line voltage is reduced in 5 volt decrements from 264Vac to 0Vac and subsequently increased to 85Vac (minimum dwell at each increment of 15 minutes). The voltage transition time shall be equal to or less than 5seconds.13.2 Test Result:Input Voltage Input Power (W)90V/60Hz 25.7585V/60Hz 25.7480V/60Hz 25.8275V/60Hz 25.9470V/60Hz 26.0065V/60Hz 26.0060V/60Hz 055V/60Hz 050V/60Hz 045V/60Hz 040V/60Hz 035V/60Hz 030V/60Hz 025V/60Hz 020V/60Hz 015V/60Hz 010V/60Hz 05V/60Hz 0Demo Board Manual2004 System General Corporation EMC Test Report1¡BConduction T est…….….P192¡B Surge Test ………..…P213¡BESD T est ……...…..….….P22EMC Test ReprotShown in this document is the typical test result perfomed on one demo unit.There could be some deviation between different demo units.ContentsConduction-NeutralConduction-LineSurge TestMode Polarity Phase V oltage Judgment+/-0°PASS+/- 90° PASS+/- 180° PASS L-N+/- 270° 2KVPASS +/-0°PASS+/- 90° PASS+/- 180° PASS L-PE+/-270°4KVPASS+/- 0° PASS +/- 90° PASS+/- 180° PASS N-PE+/-270°4KVPASSESD TestMode Air Discharge (15KV) Contact Discharge (8KV)Location P N P NPASSPASS1 PASSPASSPASSPASSPASS2 PASSPASSPASSPASS3 PASSPASSPASSPASS4 PASSPASSPASSPASS5 PASSPASSPASS6 PASSPASSPASSPASS7 PASSPASSPASSPASS8 PASSPASSPASSPASSPASS9 PASSPASS PASS PASS10 PASS。

GL6840A资料

Test Circuit For GL6840A
f1 =
3.26 x R1(§
104 Ú)
x
(2
-
e
14
- R1(§ 95
Ú)
)
f2 = 0.717 x f1 1§ Þ 2.2§ Ú
fsweep =
1000 C1(§ Ý)
• Little external circuitry
Buzzer
• Tone and switching frequencies adjustable byVAB Line
PARAMETER
SYMBOL CONDITIONS MIN. TYP. MAX. UNIT
Supply Voltage
VS(pin7)
26
V
Current Consumption without load(pin 1-8)
IB
VS=16.5 to 29.5V
1.2
1.8
§Ì
Activation Voltage
7
Bridge
8
Diode
Threshold Detector
Overvoltage
2
Protection
1
5
Sweep Frequency
Tone Generation
Output
Oscillator
Oscillator
Stage
6
3
4
Pin Description
PIN
NAME
DESCRIPTION
4
GL6840
GL6840B
Electronic Two Tone Ringer
Description

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OPERATION DESCRIPTIONSG6848 devices integrate many useful designs into one controller for low-power switch-mode power supplies. The following descriptions highlight some of the features of the SG6848 series.Start-up CurrentThe start-up current is only 5uA. Low start-up current allows a start-up resistor with a high resistance and a low-wattage to supply the start-up power for the controller. A 1.5 MΩ, 0.25W, start-up resistor and a 10uF/25V V DD hold-up capacitor would be sufficient for an AC-to-DC power adapter with a wide input range (100V AC to 240V AC).Operating CurrentThe operating current has been reduced to 2mA. The low operating current results in higher efficiency and reduces the V cc hold-up capacitance requirement. Green-Mode OperationThe proprietary green-mode function provides off-time modulation to linearly decrease the switching frequency under light-load conditions. On-time is limited to provide stronger protection against brownouts and other abnormal conditions. The feedback current, which is sampled from the voltage feedback loop, is taken as the reference. Once the feedback current exceeds the threshold current, the switching frequency starts to decrease. This green-mode function dramatically reduces power consumption under light-load and zero-load conditions. Power supplies using the SG6848 can easily meet even the strictest regulations regarding standby power consumption.Oscillator OperationA resistor connected from the RI pin to ground will generate a constant current source for the SG6848. This current is used to charge an internal capacitor. The charge-time determines the internal clock speed and the switching frequency. Increasing the resistance will reduce the amplitude of the input current and reduce the switching frequency. A 95kΩ resistor R i results in a 50uA constant current I i and a 70kHz switching frequency. The relationship between R i and the switching frequency is:)(kHz)(kR6650IPWMfΩ=The range of the oscillation frequency is designed to be within 50kHz ~ 100kHz.Leading-Edge BlankingEach time the power MOSFET is switched on, a turn-on spike will inevitably occur at the sense-resistor. To avoid premature termination of the switching pulse, a 250 nsec leading-edge blanking time is built in. Conventional RC filtering can therefore be omitted. During this blanking period, the current-limit comparator is disabled and it cannot switch off the gate driver.Constant Output Power LimitWhen the SENSE voltage across the sense resistor R s reaches the threshold voltage (around 1.0V), the output GATE drive will be turned off following a short propagation delay t D. This propagation delay will introduce an additional current proportional to t D*V in/L p. The propagation delay is nearly constant regardless of the input line voltage V IN. Higher input line voltages will result in larger additional currents. At high input line voltages, the output power limit will be higher than at low input line voltages.To compensate for this output power limit variation across a wide AC input range, the threshold voltage is adjusted by adding a positive ramp. This ramp signal rises from 0.85V to 1.0V, and then flattens out at 1.0V. A smaller threshold voltage forces the output GATE drive to terminate earlier. This reduces the total PWM turn-on time and makes the output power equal to that of low line input. This proprietary internal compensation ensures a constant output power limit for a wide AC input voltage range (90VAC to 264VAC).Under Voltage Lockout (UVLO)The turn-on and turn-off thresholds of the SG6848 are fixed internally at 16.3V/11.7V. During start-up, the hold-up capacitor must be charged to 16.3V through the start-up resistor, so that the SG6848 will be enabled. The hold-up capacitor will continue to supply V DD until power can be delivered from the auxiliary winding of the main transformer. V DD must not drop below 11.7V during this start-up process. This UVLO hysteresis window ensures that hold-up capacitor will be adequate to supply V DD during start-up.Gate OutputThe SG6848 BiCMOS output stage is a fast totem pole gate driver. Cross conduction has been avoided to minimize heat dissipation, increase efficiency, and enhance reliability. The output driver is clamped by an internal 15V Zener diode in order to protect power MOSFET transistors against undesired over-voltage gate signals. Built-in Slope CompensationThe sensed voltage across the current sense resistor is used for current mode control and pulse-by-pulse current limiting. Built-in slope compensation will improve stability and prevent sub-harmonic oscillations due to peak-current mode control. The SG6848 has a synchronized, positively-sloped ramp built-in at each switching cycle. The slope of the ramp is:(max)33.0DutyDuty×Noise ImmunityNoise from the current sense or the control signal can cause significant pulse width jitter, particularly in continuous-conduction mode. While slope compensation helps alleviate these problems, further precautions should still be taken. Good placement and layout practices should be followed. Avoiding long PCB traces and component leads, locating compensation and filter components near the SG6848, and increasing the power MOS gate resistance is advised.DISCLAIMERSLIFE SUPPORTSystem General’s products are not designed to be used as components in devices intended to support or sustain human life. Use of System General’s products in components intended for surgical implant into the body, or other applications in which failure of System General’s products could create a situation where personal death or injury may occur, is not authorized without the express written approval of System General’s Chief Executive Officer. System General will not be held liable for any damages or claims resulting from the use of its products in medical applications. MILITARYSystem General's products are not designed for use in military applications. Use of System General’s products in military applications is not authorized without the express written approval of System General’s Chief Executive Officer. System General will not be held liable for any damages or claims resulting from the use of its products in military applications.RIGHT TO MAKE CHANGESSystem General reserves the right to change this document and/or this product without notice. Customers are advised to consult their System General sales representative before ordering.。