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78系列芯片

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MEMORY存储芯片78L05中文规格书

MEMORY存储芯片78L05中文规格书

3 Description
The UA78L00 series of fixed-voltage linear regulators is designed for a wide range of applications. These applications include on-card regulation for elimination of noise and distribution problems associated with single-point regulation as well as for voltage regulation in major appliances. In addition, they can be used with power-pass elements to make highcurrent voltage regulators. One of these regulators can deliver up to 100 mA of output current. The internal limiting and thermal-shutdown features of these regulators help to protect the device from overload.
6.2 ESD Ratings
V(ESD) Electrostatic discharge
Human body model (HBM), per ANSI/ESDA/JEDEC JS-001, all pins(1) Charged device model (CDM), per JEDEC specification JESD22-C101, all pins (2)

MCP78的强势反击?——MCP78U芯片组测试

MCP78的强势反击?——MCP78U芯片组测试


往 的 经 验 来 看 流 处 理 器 频 率 的提 升 对
性 能 与 独 立 的G e F o



roe
84 0 0 G S 比较 接
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目前 该 芯 片 组 主 要 由 四 款 产 品 构

的情 况 以 此 作 为 对 抗 A M D 7 8 0 G 的武 器

七 彩 虹C N 7 8 U X 5

成 分 别是 M C P 7 8 U

MCP78S


MC P 7 8 H
显 得 有 些 牵强

C N7 8 U X 5 是

最 先上市 的几 款

以及 M C P 7 8 D
MC P7 8 S

其 中 针对主 流市场 的
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目前 M C P 7 8 U 主 板 的市 场d S L l到 目前 还 问题 多 多 无 论 怎 么 说 都 无 法令人 满 意

性 能测试
C P U
A t h lo
n
和 M C P 7 8 S 的G e F o
M C P 7 8 U 的e F o


解答

面 相 比显 得 有

种 被 忽视 的感 觉

高清 用 户 的 D V l 和 H D M I接 口 外 该 主 板


另外

驱 动问题 也

直 困扰着

还 提 供 了1 个 光 纤 侗 轴 模 拟 信 号 接 口 以
MCP 7 8 U

78L系列稳压芯片资料

78L系列稳压芯片资料

1/24July 2003s OUTPUT CURRENT UP TO 100mAsOUTPUT VOLTAGES OF 3.3;5;6;8;9;10;12;15;18;20;24Vs THERMAL OVERLOAD PROTECTION s SHORT CIRCUIT PROTECTIONsNO EXTERNAL COMPONENTS ARE REQUIREDsAVAILABLE IN EITHER ±5%(AC)OR ±10%(C)SELECTIONDESCRIPTIONThe L78L00series of three-terminal positive regulators employ internal current limiting and thermal shutdown,making them essentially indestructible.If adequate heat-sink is provided,they can deliver up to 100mA output current.They are intended as fixed voltage regulators in a wide range of applications including local or on-card regulation for elimination of noise and distribution problems associated with single-point regulation.In addition,they can be used with power pass elements to make high-current voltage regulators.The L78L00series used as Zener diode/resistor combination replacement,offers an effective output impedance improvement of typically twoorders of magnitude,along with lower quiescent current and lower noise.L78L00SERIESPOSITIVE VOLTAGEREGULATORSL78L00SERIES2/24ABSOLUTE MAXIMUM RATINGS(*)Our SO-8package used for Voltage Regulators is modified internally to have pins 2,3,6and 7electrically communed to the die attach flag.This particular frame decreases the total thermal resistance of the package and increasesits ability to dissipate power when an appro-priate area of copper on the printed circuit board is available for heat-sinking.The external dimensions are the same as for the standard SO-8.THERMAL DATA(*)Considering 6cm of copper Board heat-sinkTEST CIRCUITSCONNECTION DIAGRAM (top view)SymbolParameter²Value UnitV I DC Input VoltageV O =3.3to 9V 30V V O =12to 15V 35V O =18to 24V40I O Output Current 100mA P tot Power DissipationInternally Limited (*)T stg Storage Temperature Range-40to 150°C T opOperating Junction Temperature Range for L78L00C,L78L00AC 0to 125°C for L78L00AB-40to 125Symbol ParameterSO-8TO-92SOT-89Unit R thj-case Thermal Resistance Junction-case Max 2015°C/W R thj-ambThermal Resistance Junction-ambientMax55(*)200°C/WL78L00SERIES ORDERING CODESTYPE SO-8(TUBE)*TO-92(TUBE)**SOT-89(T&R)OUTPUT VOLTAGE L78L33C L78L33CD L78L33CZ 3.3VL78L33AC L78L33ACD L78L33ACZ L78L33ACUTR 3.3VL78L33AB L78L33ABD L78L33ABZ L78L33ABUTR 3.3VL78L05C L78L05CD L78L05CZ5VL78L05AC L78L05ACD L78L05ACZ L78L05ACUTR5VL78L05AB L78L05ABD L78L05ABZ L78L05ABUTR5VL78L06C L78L06CD L78L06CZ6VL78L06AC L78L06ACD L78L06ACZ L78L06ACUTR6VL78L06AB L78L06ABD L78L06ABZ L78L06ABUTR6VL78L08C L78L08CD L78L08CZ8VL78L08AC L78L08ACD L78L08ACZ L78L08ACUTR8VL78L08AB L78L08ABD L78L08ABZ L78L08ABUTR8VL78L09C L78L09CD L78L09CZ9VL78L09AC L78L09ACD L78L09ACZ L78L09ACUTR9VL78L09AB L78L09ABD L78L09ABZ L78L09ABUTR9VL78L10C L78L10CD L78L10CZ10VL78L10AC L78L10ACD L78L10ACZ L78L10ACUTR10VL78L10AB L78L10ABD L78L10ABZ L78L10ABUTR10VL78L12C L78L12CD L78L12CZ12VL78L12AC L78L12ACD L78L12ACZ L78L12ACUTR12VL78L12AB L78L12ABD L78L12ABZ L78L12ABUTR12VL78L15C L78L15CD L78L15CZ15VL78L15AC L78L15ACD L78L15ACZ L78L15ACUTR15VL78L15AB L78L15ABD L78L15ABZ L78L15ABUTR15VL78L18C L78L18CD L78L18CZ18VL78L18AC L78L18ACD L78L18ACZ L78L18ACUTR18VL78L18AB L78L18ABD L78L18ABZ L78L18ABUTR18VL78L20C L78L20CD L78L20CZ20VL78L20AC L78L20ACD L78L20ACZ L78L20ACUTR20VL78L20AB L78L20ABD L78L20ABZ L78L20ABUTR20VL78L24C L78L24CD L78L24CZ24VL78L24AC L78L24ACD L78L24ACZ L78L24ACUTR24VL78L24AB L78L24ABD L78L24ABZ L78L24ABUTR24V(*)Available in Tape&Reel with the suffix"13TR".(**)Available in Ammopak with the suffix"-AP"or in Tape&Reel with the suffix"TR".3/24L78L00SERIES4/24ELECTRICAL CHARACTERISTICS OF L78L33C (refer to the test circuits,T J =0to 125°C,V I =8.3V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L05C (refer to the test circuits,T J =0to 125°C,V I =10V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 3.036 3.33.564V V O Output Voltage I O =1to 40mA V I =5.3to 20V 2.97 3.63VI O =1to 70mA V I =8.3V2.973.63∆V O Line Regulation V I =5.3to 20V T J =25°C 150mV V I =6.3to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =6.3to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =6.3to 16.3V f =120Hz I O =40mAT J =25°C4149dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 4.655.4V V O Output Voltage I O =1to 40mA V I =7to 20V 4.5 5.5VI O =1to 70mA V I =10V4.55.5∆V O Line Regulation V I =8.5to 20V T J =25°C 200mV V I =9to 20V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =8to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =9to 20V f =120Hz I O =40mAT J =25°C4049dB V dDropout Voltage1.7VL78L00SERIES5/24ELECTRICAL CHARACTERISTICS OF L78L06C (refer to the test circuits,T J =0to 125°C,V I =12V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L08C (refer to the test circuits,T J =0to 125°C,V I =14V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 5.5266.48V V O Output Voltage I O =1to 40mA V I =8.5to 20V 5.4 6.6VI O =1to 70mA V I =12V5.46.6∆V O Line Regulation V I =8.5to 20V T J =25°C 200mV V I =9to 20V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =8to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C50µV SVR Supply Voltage Rejection V I =9to 20V f =120Hz I O =40mAT J =25°C3846dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 7.3688.64V V O Output Voltage I O =1to 40mA V I =10.5to 23V 7.28.8VI O =1to 70mA V I =14V7.28.8∆V O Line Regulation V I =10.5to 23V T J =25°C 200mV V I =11to 23V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =11to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3645dB V dDropout Voltage1.7VL78L00SERIES6/24ELECTRICAL CHARACTERISTICS OF L78L09C (refer to the test circuits,T J =0to 125°C,V I =15V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L10C (refer to the test circuits,T J =0to 125°C,V I =16V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 8.2899.72V V O Output Voltage I O =1to 40mA V I =11.5to 23V 8.19.9VI O =1to 70mA V I =15V8.19.9∆V O Line Regulation V I =11.5to 23V T J =25°C 250mV V I =12to 23V T J =25°C 200∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =12to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C70µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3644dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 9.21010.8V V O Output Voltage I O =1to 40mA V I =12.5to 23V 911VI O =1to 70mA V I =16V911∆V O Line Regulation V I =12.5to 23V T J =25°C 230mV V I =13to 23V T J =25°C 170∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =13to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =14to 23V f =120Hz I O =40mAT J =25°C3745dB V dDropout Voltage1.7VL78L00SERIES7/24ELECTRICAL CHARACTERISTICS OF L78L12C (refer to the test circuits,T J =0to 125°C,V I =19V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L15C (refer to the test circuits,T J =0to 125°C,V I =23V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 11.11212.9V V O Output Voltage I O =1to 40mA V I =14.5to 27V 10.813.2VI O =1to 70mA V I =19V10.813.2∆V O Line Regulation V I =14.5to 27V T J =25°C 250mV V I =16to 27V T J =25°C 200∆V O Load Regulation I O =1to 100mA T J =25°C 100mV I O =1to 40mA T J =25°C50I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =16to 27V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C80µV SVR Supply Voltage Rejection V I =15to 25V f =120Hz I O =40mAT J =25°C3642dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 13.81516.2V V O Output Voltage I O =1to 40mA V I =17.5to 30V 13.516.5VI O =1to 70mA V I =23V13.516.5∆V O Line Regulation V I =17.5to 30V T J =25°C 300mV V I =20to 30V T J =25°C 250∆V O Load Regulation I O =1to 100mA T J =25°C 150mV I O =1to 40mA T J =25°C75I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =20to 30V 1.5eN Output Noise Voltage B =10Hz to 100KHzT J =25°C90µV SVR Supply Voltage Rejection V I =18.5to 28.5V f =120Hz I O =40mA T J =25°C3339dB V dDropout Voltage1.7VL78L00SERIES8/24ELECTRICAL CHARACTERISTICS OF L78L18C (refer to the test circuits,T J =0to 125°C,V I =27V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L20C (refer to the test circuits,T J =0to 125°C,V I =29V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 16.61819.4V V O Output Voltage I O =1to 40mA V I =22to 33V 16.219.8VI O =1to 70mA V I =27V16.219.8∆V O Line Regulation V I =22to 33V T J =25°C 320mV V I =22to 33V T J =25°C 270∆V O Load Regulation I O =1to 100mA T J =25°C 170mV I O =1to 40mA T J =25°C85I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =23to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =23to 33V f =120Hz I O =40mAT J =25°C3238dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 18.42021.6V V O Output Voltage I O =1to 40mA V I =24to 33V 1822VI O =1to 70mA V I =29V1822∆V O Line Regulation V I =22.5to 34V T J =25°C 330mV V I =24to 34V T J =25°C 280∆V O Load Regulation I O =1to 100mA T J =25°C 180mV I O =1to 40mA T J =25°C90I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =25to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =25to 35V f =120Hz I O =40mAT J =25°C3138dB V dDropout Voltage1.7VL78L00SERIES9/24ELECTRICAL CHARACTERISTICS OF L78L24C (refer to the test circuits,T J =0to 125°C,V I =33V,I O =40mA,C I =0.33µF,C O =0.1µF unless otherwise specified).ELECTRICAL CHARACTERISTICS OF L78L33AB AND L78L33AC(refer to the test circuits,V I =8.3V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L33AC,T J =-40to 125°C for L78L33AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 22.12425.9V V O Output Voltage I O =1to 40mA V I =27to 38V 21.626.4VI O =1to 70mA V I =33V21.626.4∆V O Line Regulation V I =27to 38V T J =25°C 350mV V I =28to 38V T J =25°C 300∆V O Load Regulation I O =1to 100mA T J =25°C 200mV I O =1to 40mA T J =25°C100I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.2mA V I =28to 38V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C200µV SVR Supply Voltage Rejection V I =29to 35V f =120Hz I O =40mAT J =25°C3037dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 3.168 3.33.432V V O Output Voltage I O =1to 40mA V I =5.3to 20V 3.135 3.465VI O =1to 70mA V I =8.3V3.1353.465∆V O Line Regulation V I =5.3to 20V T J =25°C 150mV V I =6.3to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =6.3to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =6.3to 16.3V f =120Hz I O =40mAT J =25°C4149dB V dDropout Voltage1.7VL78L00SERIES10/24ELECTRICAL CHARACTERISTICS OF L78L05AB AND L78L05AC (refer to the test circuits,V I =10V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L05AC,T J =-40to 125°C for L78L05AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L06AB AND L78L06AC (refer to the test circuits,V I =12V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L06AC,T J =-40to 125°C for L78L06AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 4.855.2V V O Output Voltage I O =1to 40mA V I =7to 20V 4.75 5.25VI O =1to 70mA V I =10V4.755.25∆V O Line Regulation V I =7to 20V T J =25°C 150mV V I =8to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =8to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C40µV SVR Supply Voltage Rejection V I =8to 18V f =120Hz I O =40mAT J =25°C4149dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 5.7666.24V V O Output Voltage I O =1to 40mA V I =8.5to 20V 5.7 6.3VI O =1to 70mA V I =12V5.76.3∆V O Line Regulation V I =8.5to 20V T J =25°C 150mV V I =9to 20V T J =25°C 100∆V O Load Regulation I O =1to 100mA T J =25°C 60mV I O =1to 40mA T J =25°C30I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =9to 20V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C50µV SVR Supply Voltage Rejection V I =9to 20V f =120Hz I O =40mAT J =25°C3946dB V dDropout Voltage1.7V11/24ELECTRICAL CHARACTERISTICS OF L78L08AB AND L78L08AC (refer to the test circuits,V I =14V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L08AC,T J =-40to 125°C for L78L08AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L09AB AND L78L09AC (refer to the test circuits,V I =15V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L09AC,T J =-40to 125°C for L78L09AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 7.6888.32V V O Output Voltage I O =1to 40mA V I =10.5to 23V 7.68.4VI O =1to 70mA V I =14V7.68.4∆V O Line Regulation V I =10.5to 23V T J =25°C 175mV V I =11to 23V T J =25°C 125∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =11to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3745dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 8.6499.36V V O Output Voltage I O =1to 40mA V I =11.5to 23V 8.559.45VI O =1to 70mA V I =15V8.559.45∆V O Line Regulation V I =11.5to 23V T J =25°C 225mV V I =12to 23V T J =25°C 150∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =12to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C70µV SVR Supply Voltage Rejection V I =12to 23V f =120Hz I O =40mAT J =25°C3744dB V dDropout Voltage1.7V12/24ELECTRICAL CHARACTERISTICS OF L78L10AB AND L78L10AC (refer to the test circuits,V I =16V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L10AC,T J =-40to 125°C for L78L10AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L12AB AND L78L12AC (refer to the test circuits,V I =19V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L12AC,T J =-40to 125°C for L78L12AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 9.61010.4V V O Output Voltage I O =1to 40mA V I =12.5to 23V 9.510.5VI O =1to 70mA V I =16V9.510.5∆V O Line Regulation V I =12.5to 23V T J =25°C 230mV V I =13to 23V T J =25°C 170∆V O Load Regulation I O =1to 100mA T J =25°C 80mV I O =1to 40mA T J =25°C40I d Quiescent Current T J =25°C 6mA T J =125°C 5.5mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =13to 23V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C60µV SVR Supply Voltage Rejection V I =14to 23V f =120Hz I O =40mAT J =25°C3745dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 11.51212.5V V O Output Voltage I O =1to 40mA V I =14.5to 27V 11.412.6VI O =1to 70mA V I =19V11.412.6∆V O Line Regulation V I =14.5to 27V T J =25°C 250mV V I =16to 27V T J =25°C 200∆V O Load Regulation I O =1to 100mA T J =25°C 100mV I O =1to 40mA T J =25°C50I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =16to 27V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C80µV SVR Supply Voltage Rejection V I =15to 25V f =120Hz I O =40mAT J =25°C3742dB V dDropout Voltage1.7V13/24ELECTRICAL CHARACTERISTICS OF L78L15AB AND L78L15AC (refer to the test circuits,V I =19V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L15AC,T J =-40to 125°C for L78L15AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L18AB AND L78L18AC(refer to the test circuits,V I =27V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L18AC,T J =-40to 125°C for L78L18AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 14.41515.6V V O Output Voltage I O =1to 40mA V I =17.5to 30V 14.2515.75VI O =1to 70mA V I =23V14.2515.75∆V O Line Regulation V I =17.5to 30V T J =25°C 300mV V I =20to 30V T J =25°C 250∆V O Load Regulation I O =1to 100mA T J =25°C 150mV I O =1to 40mA T J =25°C75I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =20to 30V 1.5eN Output Noise Voltage B =10Hz to 100KHzT J =25°C90µV SVR Supply Voltage Rejection V I =18.5to 28.5V f =120Hz I O =40mA T J =25°C3439dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 17.31818.7V V O Output Voltage I O =1to 40mA V I =22to 33V 17.118.9VI O =1to 70mA V I =27V17.118.9∆V O Line Regulation V I =22to 33V T J =25°C 320mV V I =22to 33V T J =25°C 270∆V O Load Regulation I O =1to 100mA T J =25°C 170mV I O =1to 40mA T J =25°C85I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =23to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =23to 33V f =120Hz I O =40mAT J =25°C3338dB V dDropout Voltage1.7V14/24ELECTRICAL CHARACTERISTICS OF L78L20AB AND L78L20AC (refer to the test circuits,V I =29V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L20AC,T J =-40to 125°C for L78L20AB,unless otherwise specified)ELECTRICAL CHARACTERISTICS OF L78L24AB AND L78L24AC (refer to the test circuits,V I =27V,I O =40mA,C I =0.33µF,C O =0.1µF,T J =0to 125°C for L78L24AC,T J =-40to 125°C for L78L24AB,unless otherwise specified)Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 19.22020.8V V O Output Voltage I O =1to 40mA V I =24to 33V 1921VI O =1to 70mA V I =29V1921∆V O Line Regulation V I =22.5to 34V T J =25°C 330mV V I =24to 34V T J =25°C 280∆V O Load Regulation I O =1to 100mA T J =25°C 180mV I O =1to 40mA T J =25°C90I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =25to 33V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C120µV SVR Supply Voltage Rejection V I =25to 35V f =120Hz I O =40mAT J =25°C3238dB V dDropout Voltage1.7V Symbol ParameterTest ConditionsMin.Typ.Max.Unit V O Output Voltage T J =25°C 232425V V O Output Voltage I O =1to 40mA V I =27to 38V 22.825.2VI O =1to 70mA V I =33V22.825.2∆V O Line Regulation V I =27to 38V T J =25°C 350mV V I =28to 38V T J =25°C 300∆V O Load Regulation I O =1to 100mA T J =25°C 200mV I O =1to 40mA T J =25°C100I d Quiescent Current T J =25°C 6.5mA T J =125°C 6mA ∆I d Quiescent Current Change I O =1to 40mA 0.1mA V I =28to 38V 1.5eN Output Noise Voltage B =10Hz to 100KHz T J =25°C200µV SVR Supply Voltage Rejection V I =23to 33V f =120Hz I O =40mAT J =25°C3137dB V dDropout Voltage1.7VFigure1:L78L05/12Output Voltage vs Ambient TemperatureFigure2:L78L05/12/24Load Characteristics Figure3:L78L05/12/24Thermal Shutdown Figure4:L78L05/12Quiescent Current vs Output CurrentFigure5:L78L05Quiescent Current vs Input VoltageFigure6:L78L05/12/24OutputCharacteristics15/24Figure7:L78L05/12/24Ripple Rejection Figure8:L78L05Dropout Characteristics Figure9:L78L00Series Short Circuit OutputCurrent16/2417/24TYPICAL APPLICATIONSTable 10:High Output Current Short Circuit ProtectedFigure 11:Edit Boost CircuitFigure 12:CurrentRegulatorFigure13:Adjustable OutputRegulator18/24Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility 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 STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© The ST logo is a registered trademark of STMicroelectronics© 2003 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - Canada - China - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan - Malaysia - Malta - Morocco Singapore - Spain - Sweden - Switzerland - United Kingdom - United States.© 24/24。

a78芯片

a78芯片

a78芯片A78芯片是一款由英飞凌公司(Infineon Technologies)推出的高性能处理器芯片。

该芯片采用了先进的制程工艺和架构设计,在多个领域具有广泛的应用前景。

首先,A78芯片具备强大的计算能力。

该芯片采用了8核心的设计,每个核心都能够独立运算,提供了高效的并行处理能力。

同时,A78芯片还采用了高频率的主频设计,提供了更快的数据处理速度。

这使得A78芯片在需要大量计算的应用场景中表现出色,例如人工智能、数据分析和科学计算等领域。

其次,A78芯片拥有出色的图形处理能力。

该芯片内置了强大的图形处理单元(GPU),支持多种图形渲染和计算技术,如OpenGL、Vulkan和OpenCL等。

这使得A78芯片能够实现高质量的图形显示和图像处理,为游戏、虚拟现实和图形设计等领域提供了更好的性能和用户体验。

此外,A78芯片还具备低功耗和高能效的特点。

该芯片采用了先进的功耗优化技术,能够根据应用需求动态调整功耗和性能平衡,使得芯片在满足高性能需求的同时能够更好地管理功耗,延长电池寿命。

这使得A78芯片在移动设备和物联网等领域具有广泛的应用前景。

此外,A78芯片还具备丰富的接口和通信功能。

该芯片支持多种外设接口,如USB、Ethernet和HDMI等,能够与各种设备和传感器进行高效的数据交互。

同时,A78芯片还支持多种通信协议,如WiFi、蓝牙和NFC等,使得设备之间可以进行快速和安全的数据传输。

总之,A78芯片作为一款高性能处理器芯片,具备强大的计算和图形处理能力、低功耗和高能效特性,同时支持丰富的接口和通信功能。

这使得A78芯片在多个领域具有广泛的应用前景,例如智能手机、平板电脑、物联网设备和工业控制等领域。

随着技术的不断进步和创新,A78芯片也将进一步优化和升级,为用户提供更好的性能和体验。

78RXXX 友顺UTC 电子元器件芯片

78RXXX 友顺UTC 电子元器件芯片
Disable Voltage
Disable Bias Current
High Low High Low
High Low High Low
High Low High Low
High Low High Low
SYMBOL VOUT VD VOUT VOUT IQ RR VDISH VDISL IDISH IDISL
Packing
Tube Tube Tube Tube Tape Reel Tape Reel
Copyright © 2022 Unisonic Technologies Co., Ltd
1 of 9
QW-R102-035.U
78RXXX
LINEAR INTEGRATED CIRCUIT
MARKING INFORMATION
FEATURES
* IOUT=1A ; VOUT=1.5V, 1.8V, 3.3V, 5V, 6V, 9V,10V, 12V, 15V (Typ.) With ADJ version * Built in ON/OFF Control Terminal * Built in Over Current Protection, Over Heat Protection Function
Disable Voltage
Disable Bias Current
High Low High Low
SYMBOL VOUT VD VOUT VOUT IQ RR VDISH VDISL IDISH IDISL
CONDITIONS VIN=4.5V IOUT = 1A 5mA < IOUT < 1A 4.5V < VIN < 8.5V IOUT = 0 A (Note) Output Active Output Disabled VDIS = 2.7V VDIS = 0.4V

义隆单片机EM78P153使用讲解

义隆单片机EM78P153使用讲解

基于EM78P153S的应用设计(V1.0)目录第一章EM78P153S的初识 (1)1.1 EM78P152/3S特性 (1)1.2 EM78P152/3S引脚 (2)1.3 功能寄存器 (2)1.3.1 累加器与端口控制寄存器 (2)1.3.2中断状态寄存器与中断使能寄存器 (3)1.3.3 操作寄存器 (4)1.3.4 特殊功能寄存器 (6)1.4 数据存储器的配置 (7)1.5 休眠与唤醒 (7)1.6 分频器 (9)1.7 定时器/计数器TCC (9)第二章EM78系列单片机应用软件的编辑与仿真 (11)2.1 Simulator的下载与安装 (11)2.2 Simulator的使用方法 (11)2.3 Simulator系统常用命令汇总 (14)2.4 Simulator仿真中的常见问题 (15)第三章EM78系列单片机的汇编指令 (17)3.1 寻址方式 (17)3.2 伪指令 (18)3.3 指令速查表 (18)第四章EM78P153S应用软件设计 (20)4.1 外部中断程序 (20)4.2 花样灯程序 (22)4.2.1 设计需求 (22)4.2.2 软件设计 (23)4.2.3 硬件设计 (37)4.2.4 元器件明细表 (38)第五章EM78系列单片机应用程序的烧录 (39)5.1 程序的转换过程 (39)5.2 烧录器与烧录软件 (40)5.3 烧录步骤 (41)第一章 EM78P153S的初识EM78P152/3S是采用低功耗高速CMOS工艺设计开发的8位微控制器,它的内部有一个1024×13位一次性可编程只读存储器(OTP_ROM) ,可见1k的只读存储器(ROM)决定了应用程序不能够太多,否则应用程序机器码将无法烧录到芯片中。

硬件设计中,EM78P152/3S可以通过设置代码选项寄存器使微处理器工作在内部RC 振荡模式(IRC)下,此模式下采用上电复位模式而不需要外接时钟电路;同时利用上电自动复位而不需要外接复位电路,P63复位引脚可以直接作为输入脚使用,充分提高了微处理器端口的利用率,这样硬件应用电路极为简化,节省了硬件成本。

arm芯片型号

arm芯片型号ARM芯片是一种由ARM公司开发的微处理器架构,广泛应用于移动设备、嵌入式系统和物联网等领域。

ARM芯片有多个型号,下面将介绍其中一些常见的ARM芯片型号。

1. ARM Cortex-A系列:这是用于高性能计算领域的系列芯片,最新的型号包括Cortex-A78、Cortex-A77和Cortex-A76。

这些芯片采用了先进的处理器架构,并支持多核运行,能够提供更快的计算速度和更高的功耗效率。

2. ARM Cortex-R系列:这是用于实时应用的系列芯片,最新的型号包括Cortex-R8和Cortex-R52。

这些芯片具有较高的实时性能和可靠性,适用于需要快速响应和确保数据完整性的应用,如汽车电子、工业控制和医疗设备等。

3. ARM Cortex-M系列:这是用于嵌入式系统的系列芯片,最新的型号包括Cortex-M7、Cortex-M4和Cortex-M0。

这些芯片具有低功耗、小尺寸和高可集成度的特点,适用于传感器、智能家居、智能穿戴设备等物联网应用。

4. ARM Mali系列:这是用于图形处理的系列芯片,最新的型号包括Mali-G78、Mali-G77和Mali-G76。

这些芯片具有强大的图形处理能力,能够提供流畅的游戏和视频播放体验,也适用于虚拟现实和增强现实等应用。

5. ARM CoreLink系列:这是一系列用于互联和内存管理的芯片,最新的型号包括CoreLink CMN-600和CoreLink CCI-550。

这些芯片能够提供高性能、高带宽的互联和内存管理能力,支持复杂的系统设计和多核处理。

6. ARM Neoverse系列:这是一系列针对数据中心和网络设备的芯片,最新的型号包括Neoverse N1和Neoverse E1。

这些芯片具有优化的架构和专用的扩展指令集,能够提供低延迟、高吞吐量的数据处理能力。

除了以上的型号,ARM还根据不同的市场需求和应用领域推出了其他系列的芯片,如安全芯片、无线通信芯片等。

合法解密NEC78K0S系列芯片,NEC解密技术的方法.txt

NEC芯片解密NEC芯片程序破解NEC单片机解密NEC解密免费寄送样片解密的型号表:(UPD78F9XXX等系列)解密(以下型号芯片,解密时间一般是:早上收到待解密芯片一片或两片,下午可以寄出样品,如遇不可抗力情况时间最多推迟一天即可寄出,节日则顺延到收假。

)UPD78F9200(1KB Flash)解密UPD78F9201(2KB Flash)解密UPD78F9202(4KB Flash)解密UPD78F9500(1KB Flash)解密UPD78F9501(2KB Flash)解密UPD78F9502(4KB Flash)解密UPD78F9210(1KB Flash)解密UPD78F9211(2KB Flash)解密UPD78F9212(4KB Flash)解密UPD78F9510(1KB Flash)解密UPD78F9511(2KB Flash)解密UPD78F9512(4KB Flash)解密UPD78F9221(2KB Flash)解密UPD78F9222(4KB Flash)解密UPD78F9224(8KB Flash)解密UPD78F9521(2KB Flash)解密UPD78F9522(4KB Flash)解密UPD78F9232(4KB Flash)解密UPD78F9234(8KB Flash)解密UPD78F9532(4KB Flash)解密UPD78F9534(8KB Flash)解密如果型号如下也可以解:(UPD78F8XXX等系列)(以下型号芯片,解密时间一般是:早上收到待解密芯片一片或两片,下午可以寄出样品,如遇不可抗力情况时间最多推迟一天即可寄出,节日则顺延到收假。

)UPD78F8200(1KB Flash)解密UPD78F8201(2KB Flash)解密UPD78F8202(4KB Flash)解密UPD78F8500(1KB Flash)解密UPD78F8501(2KB Flash)解密UPD78F8502(4KB Flash)解密UPD78F8210(1KB Flash)解密UPD78F8211(2KB Flash)解密UPD78F8212(4KB Flash)解密UPD78F8510(1KB Flash)解密UPD78F8511(2KB Flash)解密UPD78F8512(4KB Flash)解密UPD78F8221(2KB Flash)解密UPD78F8222(4KB Flash)解密UPD78F8224(8KB Flash)解密UPD78F8521(2KB Flash)解密UPD78F8522(4KB Flash)解密免费寄送样片UPD78F8232(4KB Flash)解密UPD78F8234(8KB Flash)解密UPD78F8532(4KB Flash)解密UPD78F8534(8KB Flash)解密新增可解型号:有需要的朋友请联系QQ:1374147951 (以下型号芯片,解密时间相对较长,需要两天时间,待解密芯片一片或两片,如遇不可抗力情况时间最多推迟一天即可寄出,节日则顺延到收假。

基于78F9234单芯片的数字温度控制器的设计与制作

基于78F9234单芯片的数字温度控制器的设计与制作Minli Tang , Hengyu Wu(Corresponding author),Baoru HanDepartment of Electronic Engineering,Hainan Software Profession Institute Qionghai,Hainan ,571400 ,Chinagslstml@ , whytml@,6183191@摘要:该系统是一个以78F9234单片机控制核心的模型,采用DS18B20温度传感器采集温度数据,数码管显示器显示温度数据,温度控制键的上下来调节温度上升和下降,还有加热指示设备,过热保护和蜂鸣器报警功能,以及单片机的烧写口和防死机电路。

该系统使用方便,成本相对较低,在不增加硬件成本的前提下可以通过控制系统软件进一步提高其扩展功能,这也将提高温度控制器的性价比。

关键词:单片机78F9234 ;自动控制技术;数字式温度控制器;介绍温度是在工业自动化,家庭电器,环境保护,安全生产,汽车产业等领域中最基本的检测参数之一。

因此,温度检测是非常重要的。

随着科学技术的发展,企业提出了更高的要求,希望利用新的检测方法,以生产出适应性强,精度更高,更稳定并且智能的新一代温度检测系统。

本文将单芯片数字控制技术整合进数字温度控制技术的设计当中,设计出了一种新型的数字化温度控制系统。

整体设计方案微控制器的数字控制系统的温度控制装置,是基于以78F9234为核心的单片机。

整个系统的硬件组成包括键盘输入电路,单片机控制,加热指示电路,过热保护电路,温度检测电路,数码显示电路,控制和防死机电路,报警电路,和烧写口部分。

微控制器的设计图数字温控装置如图1。

该系统可通过键盘输入,可以根据需要预先设定控制温度,然后系统自动完成预设的任务。

同时,系统显示模块可实时显示当前系统的温度。

78F9234单片机是整个温度控制系统的核心部件。

78系列集成稳压芯片的相关知识和缺点

78系列集成稳压芯片的相关知识和缺点2007年08月06日星期一上午09:56电子产品中常见到的三端稳压集成电路有正电压输出的78 ××系列和负电压输出的79××系列。

故名思义,三端IC是指这种稳压用的集成电路只有三条引脚输出,分别是输入端、接地端和输出端。

它的样子象是普通的三极管,TO- 220 的标准封装,也有9013样子的TO-92 封装。

用78/79系列三端稳压IC 来组成稳压电源所需的外围元件极少,电路内部还有过流、过热及调整管的保护电路,使用起来可靠、方便,而且价格便宜。

该系列集成稳压IC型号中的78或79后面的数字代表该三端集成稳压电路的输出电压,如7806表示输出电压为正6V,7909表示输出电压为负9V。

78/79系列三端稳压IC 有很多电子厂家生产,80年代就有了,通常前缀为生产厂家的代号,如TA7805是东芝的产品,AN7909是松下的产品。

(点击这里,查看有关看前缀识别集成电路的知识)有时在数字78或79后面还有一个M或L,如78M12或79L24,用来区别输出电流和封装形式等,其中78L调系列的最大输出电流为100mA ,78M系列最大输出电流为1A,78系列最大输出电流为1.5A。

它的封装也有多种,详见图。

塑料封装的稳压电路具有安装容易、价格低廉等优点,因此用得比较多。

79系列除了输出电压为负。

引出脚排列不同以外,命名方法、外形等均与78系列的相同。

因为三端固定集成稳压电路的使用方便,电子制作中经常采用,可以用来改装分立元件的稳压电源,也经常用作电子设备的工作电源。

电路图如图所示。

注意三端集成稳压电路的输入、输出和接地端绝不能接错,不然容易烧坏。

一般三端集成稳压电路的最小输入、输出电压差约为2V,否则不能输出稳定的电压,一般应使电压差保持在4-5V,即经变压器变压,二极管整流,电容器滤波后的电压应比稳压值高一些。

在实际应用中,应在三端集成稳压电路上安装足够大的散热器(当然小功率的条件下不用)。

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█ 概述 █ 外形图及引脚排列█ 主要特点█极限值(T a=25℃)█ 功能框图V I ——输入电压(V O =5~18V)…………………………… 35V (V O =24V)……………………………… 40V R θJC ——热阻(结到壳)……………………………… 5℃/W R θJA ——热阻(结到空气)………………………… 65℃/W T OPR ——工作结温范围…………………………… 0~125℃T STG ——贮存温度范围………………………… -65~150℃1―输入,INPUT2―地,GND 3―输出,OUTPUTz 输出电流可达1Az 输出电压有:5V 、6V 、8V 、9V 、10V 、11V 、12V 、15V 、18V 、24Vz 过热保护 z 短路保护z 输出晶体管SOA 保护H 78XXF 为3端正稳压电路,TO-220F 封装,能提供多种固定的输出电压,应用范围广。

内含过流、过热和过载保护电路。

带散热片时,输出电流可达1A 。

虽然是固定稳压电路,但使用外接元件,可获得不同的电压和电流。

TO-220F(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =10V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件4.85.05.2T J =25℃V O输出电压4.755.05.25V5.OmA≤I O ≤1.0A, P D ≤15W,7V≤V I ≤20V4.0 100T J =25℃, 7V≤V I ≤25V ΔV O电压调整率*1.6 50 mVT J =25℃, 8V≤V I ≤12V9100T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*4 50 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.0 8 mAT J =25℃0.030.55mA≤I O ≤1.0AΔI Q静态电流变化率0.3 1.3 mA7V≤V I ≤25VΔV O /ΔT 输出电压温度系数-0.8 mV/℃ I O =5mA V N 输出噪声电压 42 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 62 73 dB f=120Hz, 8V≤V I ≤18V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 15 mΩ f=1kHzI SC 短路电流 230 mA V I =35V, T A =25℃ I PK峰值电流2.2AT J =25℃(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =11V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件5.756.06.25T J =25℃V O输出电压5.76.06.3V5.OmA≤I O ≤1.0A, P D ≤15W,8.0V≤V I ≤21V5.0 120T J =25℃, 8V≤V I ≤25V ΔV O电压调整率*1.5 60 mVT J =25℃, 9V≤V I ≤13V9 120T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*3 60 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.0 8 mAT J =25℃0.55mA≤I O ≤1.0A ΔI Q静态电流变化率1.3 mA8V≤V I ≤25VΔV O /ΔT 输出电压温度系数-0.8 mV/℃ I O =5mA V N 输出噪声电压 45 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 59 75 dB f=120Hz, 9V≤V I ≤19V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 19 mΩ f=1kHzI SC 短路电流 250 mA V I =35V, T A =25℃ I PK 峰值电流2.2AT J =25℃(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =14V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件7.78.08.3T J =25℃V O输出电压7.68.08.4V5.OmA≤I O ≤1.0A, P D ≤15W,10.5V≤V I ≤23V5.0 160T J =25℃, 10.5V≤V I ≤25V ΔV O电压调整率*2.0 80 mVT J =25℃, 11.5V≤V I ≤17V10 160T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*5.0 80 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.0 8 mAT J =25℃0.05 0.55mA≤I O ≤1.0A ΔI Q静态电流变化率0.5 1.0 mA10.5V≤V I ≤25VΔV O /ΔT 输出电压温度系数-0.8 mV/℃ I O =5mA V N 输出噪声电压 52 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 56 73 dB f=120Hz, 11.5V≤V I ≤21.5V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 17 mΩ f=1kHzI SC 短路电流 230 mA V I =35V, T A =25℃ I PK 峰值电流2.2AT J =25℃(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =15V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件8.659.09.35T J =25℃V O输出电压8.69.09.4V5.OmA≤I O ≤1.0A, P D ≤15W,11.5V≤V I ≤24V6.0 180T J =25℃, 11.5V≤V I ≤25V ΔV O电压调整率*2.0 90 mVT J =25℃, 12V≤V I ≤18V12 180T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*4 90 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.0 8.0 mAT J =25℃0.55mA≤I O ≤1.0A ΔI Q静态电流变化率1.3 mA11.5V≤V I ≤26VΔV O /ΔT 输出电压温度系数-1 mV/℃ I O =5mA V N 输出噪声电压 58 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 56 71 dB f=120Hz, 13V≤V I ≤23V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 17 mΩ f=1kHzI SC 短路电流 250 mA V I =35V, T A =25℃ I PK 峰值电流2.2AT J =25℃(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =16V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件9.61010.4T J =25℃V O输出电压9.51010.5V5.OmA≤I O ≤1.0A, P D ≤15W,12.5V≤V I ≤25V10 200T J =25℃, 12.5V≤V I ≤25V ΔV O电压调整率*3 100 mVT J =25℃, 13V≤V I ≤20V12 200T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*4 100 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.1 8 mAT J =25℃0.55mA≤I O ≤1.0A ΔI Q静态电流变化率1.0 mA12.5V≤V I ≤29VΔV O /ΔT 输出电压温度系数-1 mV/℃ I O =5mA V N 输出噪声电压 58 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 56 71 dB f=120Hz, 14V≤V I ≤24V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 17 mΩ f=1kHzI SC 短路电流 250 mA V I =35V, T A =25℃ I PK 峰值电流2.2AT J =25℃(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =18V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件10.61111.4T J =25℃V O输出电压10.51111.5V5.OmA≤I O ≤1.0A, P D ≤15W,13.5V≤V I ≤26V10 220T J =25℃, 13.5V≤V I ≤25V ΔV O电压调整率*3.0 110 mVT J =25℃, 14V≤V I ≤21V12 220T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*4 110 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.1 8 mAT J =25℃0.55mA≤I O ≤1.0A ΔI Q静态电流变化率1.0 mA13.5V≤V I ≤29VΔV O /ΔT 输出电压温度系数-1 mV/℃ I O =5mA V N 输出噪声电压 70 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 55 71 dB f=120Hz, 14V≤V I ≤24V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 18 mΩ f=1kHzI SC 短路电流 250 mA V I =35V, T A =25℃ I PK 峰值电流2.2AT J =25℃(参见测试电路,除非另有说明,0℃≤T J≤125℃,I O=500mA,V I=19V,C I=0.33μF,C O=0.1μF)参数符号 符 号 说 明 最小值 典型值最大值单 位 测 试 条 件11.5 12 12.5 T J=25℃V O输出电压11.4 12 12.6 V 5.OmA≤IO≤1.0A, P D≤15W,14.5V≤V I≤27V10 240 T J=25℃, 14.5V≤V I≤30VΔV O电压调整率*3.0 120 mVT J=25℃, 16V≤V I≤22V11 240 T J=25℃, 5.0mA≤I O≤1.5AΔV O负载调整率*5.0 120 mVT J=25℃, 250mA≤I O≤750mAI Q静态电流 5.1 8 mA T J=25℃0.1 0.5 5mA≤I O≤1.0AΔI Q静态电流变化率0.5 1.0 mA14.5V≤V I≤30VΔV O/ΔT 输出电压温度系数 -1 mV/℃I O=5mA V N输出噪声电压 76 μV T A=25℃, 10Hz≤f≤100kHz RR 纹波抑制比 55 71 dB f=120Hz, 15V≤V I≤25V V D下降电压 2 V I O=1A, T J=25℃R O输出阻抗 18 mΩ f=1kHzI SC短路电流 230 mA V I=35V, T A=25℃I PK峰值电流 2.2 A T J=25℃(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =23V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件14.41515.6T J =25℃V O输出电压14.251515.75V5.OmA≤I O ≤1.0A, P D ≤15W,17.5V≤V I ≤30V11 300T J =25℃, 17.5V≤V I ≤30V ΔV O电压调整率*3 150 mVT J =25℃, 20V≤V I ≤26V12 300T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*4 150 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.2 8 mAT J =25℃0.55mA≤I O ≤1.0A ΔI Q静态电流变化率1.0 mA17.5V≤V I ≤30VΔV O /ΔT 输出电压温度系数-1 mV/℃ I O =5mA V N 输出噪声电压 90 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 54 70 dB f=120Hz, 18.5V≤V I ≤28.5V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 19 mΩ f=1kHzI SC 短路电流 250 mA V I =35V, T A =25℃ I PK 峰值电流2.2AT J =25℃(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =27V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件17.31818.7T J =25℃V O输出电压17.11818.9V5.OmA≤I O ≤1.0A, P D ≤15W,21V≤V I ≤33V15 360T J =25℃, 21V≤V I ≤33V ΔV O电压调整率*5 180 mVT J =25℃, 24V≤V I ≤30V15 360T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*5.0 180 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.2 8 mAT J =25℃0.55mA≤I O ≤1.0A ΔI Q静态电流变化率1.0 mA21V≤V I ≤33VΔV O /ΔT 输出电压温度系数-1 mV/℃ I O =5mA V N 输出噪声电压 110 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 53 69 dB f=120Hz, 22V≤V I ≤32V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 22 mΩ f=1kHzI SC 短路电流 250 mA V I =35V, T A =25℃ I PK 峰值电流2.2AT J =25℃汕头华汕电子器件有限公司(参见测试电路,除非另有说明,0℃≤T J ≤125℃,I O =500mA,V I =33V,C I =0.33μF,C O =0.1μF) 参数符号符 号 说 明最小值 典型值最大值单 位测 试 条 件232425T J =25℃V O输出电压22.82425.2V5.OmA≤I O ≤1.0A, P D ≤15W,27V≤V I ≤38V17 480T J =25℃, 27V≤V I ≤38V ΔV O电压调整率*6 240 mVT J =25℃, 30V≤V I ≤36V15480T J =25℃, 5.0mA≤I O ≤1.5A ΔV O负载调整率*5.0 240 mVT J =25℃, 250mA≤I O ≤750mA I Q静态电流5.2 8 mAT J =25℃0.10.55mA≤I O ≤1.0AΔI Q静态电流变化率0.5 1.0 mA27V≤V I ≤38VΔV O /ΔT 输出电压温度系数-1.5 mV/℃ I O =5mA V N 输出噪声电压 160 μV T A =25℃, 10Hz≤f≤100kHz RR 纹波抑制比 50 67 dB f=120Hz, 28V≤V I ≤38V V D 下降电压 2 V I O =1A, T J =25℃ R O 输出阻抗 28 mΩ f=1kHzI SC 短路电流 230 mA V I =35V, T A =25℃ I PK峰值电流2.2AT J =25℃* 负载及线路调整率要求结温恒定。