电源芯片KA7800系列应用
Arista 7800R3 系列数据中心交换机产品说明书
7800R3 系列数据中⼼交换路由器数据表产品亮点性能•每秒 460 万亿位 (Terabit) 交换矩阵容量 •每秒⾼达 960 亿个数据包•每秒每个插槽⾼达 28.8 万亿位 (Terabit) •多达 576 个线速 400G 端⼝ •⽀持 100G 、200G 和 400G 模式 •低于 4 微秒延迟(64 字节) •已为 800G 做好准备⾼硬件可⽤性•N+2 ⽹格冗余电⼒系统 •1+1 管理引擎冗余 •交换矩阵模块冗余 •N+1 ⻛扇模块冗余虚拟化和服务开通•CloudVision•⽤于下⼀代数据中⼼的 VXLAN •LANZ ,⽤于微爆检测 •VM Tracer•零接触服务开通 (ZTP) •⾼级事件监视 •sFlow (RFC3176) •IEEE 1588 PTP可伸缩架构•密集型 400G 和 100G•深度数据包缓冲区(每线卡 24GB ) •每个端⼝的虚拟输出队列可消除线头阻塞弹性控制平⾯•多核超线程 x86 CPU •64GB DRAM / 4GB 闪存 •双管理引擎模块•⽤户应⽤程序可以在 VM 中运⾏数据中⼼级设计•交流和直流电源选项•前端到后端⽓流便于优化冷却 •每个 400G 端⼝典型功耗为 50W •每 42U 机架最多 720 个 400G 端⼝Arista 可扩展操作系统•单⼀⼆进制映像•细粒度真正模块化⽹络操作系统 •状态化故障隔离 (SFC) •状态化故障修复 (SFR)概述Arista 7800R3 系列专⽤模块化交换机可提供业界最⾼的性能,并具有 460 Tbps 的系统处理量以满⾜最⼤规模数据中⼼的需求。
这些交换机将可扩展的 L2 和 L3 资源及⾼密度与⽤于⽹络监视、精确计时、⽹络虚拟化的⾼级特性相结合,以便在简化设计和降低运营成本的同时,提供可扩展及决定性的⽹络性能。
7800R3 可部署在各种开放⽹络解决⽅案中,其中包括⼤规模 2 层和 3 层云设计、重叠⽹络、虚拟化或传统企业数据中⼼⽹络。
电源管理芯片工作原理和应用
电源管理芯片工作原理和应用本文主要是关于电源管理芯片的相关介绍,并着重对电源管理芯片进行了详尽的阐述。
电源管理芯片电源管理芯片(Power Management Integrated Circuits),是在电子设备系统中担负起对电能的变换、分配、检测及其他电能管理的职责的芯片。
主要负责识别CPU供电幅值,产生相应的短矩波,推动后级电路进行功率输出。
常用电源管理芯片有HIP6301、IS6537、RT9237、ADP3168、KA7500、TL494等。
基本类型主要电源管理芯片有的是双列直插芯片,而有的是表面贴装式封装,其中HIP630x系列芯片是比较经典的电源管理芯片,由著名芯片设计公司Intersil设计。
它支持两/三/四相供电,支持VRM9.0规范,电压输出范围是1.1V-1.85V,能为0.025V的间隔调整输出,开关频率高达80KHz,具有电源大、纹波小、内阻小等特点,能精密调整CPU供电电压。
应用范围电源管理芯片的应用范围十分广泛,发展电源管理芯片对于提高整机性能具有重要意义,对电源管理芯片的选择与系统的需求直接相关,而数字电源管理芯片的发展还需跨越成本难关。
当今世界,人们的生活已是片刻也离不开电子设备。
电源管理芯片在电子设备系统中担负起对电能的变换、分配、检测及其它电能管理的职责。
电源管理芯片对电子系统而言是不可或缺的,其性能的优劣对整机的性能有着直接的影响。
提高性能所有电子设备都有电源,但是不同的系统对电源的要求不同。
为了发挥电子系统的最佳性能,需要选择最适合的电源管理方式。
首先,电子设备的核心是半导体芯片。
而为了提高电路的密度,芯片的特征尺寸始终朝着减小的趋势发展,电场强度随距离的减小而线性增加,如果电源电压还是原来的5V,产生的电场强度足以把芯片击穿。
所以,这样,电子系统对电源电压的要求就发生了变化,。
半导体产业链解析:电源管理芯片介绍及其应用领域
半导体产业链解析:电源管理芯片介绍及其应用领域导语:电源管理芯片是所有电子产品和设备的电能供应中枢和纽带,负责所需电能的变换、分配、检测等管控功能,是电子产品和设备不可或缺的关键器件。
几乎所有的电子产品和设备中都有电源管理芯片,因此电源芯片也被称为是电子设备的“心脏”。
它是模拟芯片最大的细分市场。
按照输入的电压属性,电源芯片可分为AC-DC(交流转直流)转换芯片和DC-DC(直流转直流)转换芯片两类。
AC-DC 转换通常是把交流市电(220V 或110V)转换为电子设备或产品内部电路供电需要的直流电压;DC-DC 转换通常是指对直流电源的属性或参数指标加以转换,如降压、升压、升降压转换等,以匹配设备或电路模块的供电需求。
电源芯片的常见分类如下:(资料源自上海芯龙半导体招股书)近年来,电源芯片的下游行业蓬勃发展,为电源芯片提供了广阔的市场空间,例如汽车电子、通讯设备、工业控制等领域对电源芯片的需求增长较快,对芯片性能要求更高。
发行人研发、设计和销售的电源芯片属于行业的中高端产品,目前该市场主要被国外巨头如德州仪器、亚德诺、英飞凌等占据,市场集中度较高。
国内外电源芯片发展有何区别?国际市场方面,前瞻产业研究院数据显示,2018 年全球电源芯片的产值为250 亿美元。
近年来,得益于新能源汽车、5G通信等市场的持续成长,全球电源芯片市场发展较快,预计2026 年市场规模将达到565 亿美元,年均复合增长率10.69%。
国内市场方面,中商情报网数据显示,2015 年~2019 年,中国电源芯片市场规模从520 亿元增加至720 亿元,预计在2020 年突破780 亿元,年均复合增长率为8.5%左右。
在消费升级、新技术发展等因素的刺激下,中国各类电子产品的功能呈多样化趋势,更新换代不断加快,对电源芯片的需求持续增加。
此外,半导体进口替代趋势也给国内的诸多芯片公司带来了更多的发展机遇。
(电源新品示意图,仅做参考)作为电子设备不可或缺的器件之一,电源管理芯片的市场需求随着5G通信、智能家居、新能源汽车等下游应用领域持续成长呈现大幅增长之势。
78,79系列三端稳压器器件资料
7805 790578XX系列集成稳压器的典型应用电路如下图所示,这是一个输出正5V直流电压的稳压电源电路。
IC采用集成稳压器7805,C1、C2分别为输入端和输出端滤波电容,RL为负载电阻。
当输出电较大时,7805应配上散热板。
下图为提高输出电压的应用电路。
稳压二极管VD1串接在78XX稳压器2脚与地之间,可使输出电压Uo得到一定的提高,输出电压Uo为78XX稳压器输出电压与稳压二极管VC1稳压值之和。
VD2是输出保护二极管,一旦输出电压低于VD1稳压值时,VD2导通,将输出电流旁路,保护7800稳压器输出级不被损坏。
下图为输出电压可在一定范围内调节的应用电路。
由于R1、RP电阻网络的作用,使得输出电压被提高,提高的幅度取决于R P与R1的比值。
调节电位器RP,即可一定范围内调节输出电压。
当RP=0时,输出电压Uo等于78XX稳压器输出电压;当RP逐步增大时,Uo也随之逐步提高。
下图为扩大输出电流的应用电路。
VT2为外接扩流率管,VT1为推动管,二者为达林顿连接。
R1为偏置电阻。
该电路最大输出电流取决于VT2的参数。
下图为提高输入电压的应用电路。
78XX稳压器的最大输入电压为35V(7824为40V),当输入电压高于此值时,可采用下图所示的电路。
VT、R1和VD组成一个预稳压电路,使得加在7800稳压器输入端的电压恒定在VD的稳压值上(忽略VT的b-e结压降)。
Ui端的最大输入电压仅取决于VT的耐压。
集成稳压器还可以用作恒流源。
下图为78XX稳压器构成的恒流源电路,其恒定电流Io等于78XX稳压器输出电压与R1的比值。
79XX系列集成压器是常用的固定负输出电压的三端集成稳压器,除输入电压和输出电压均为负值外,其他参数和特点与78XX系列集成稳压器相同。
79XX系列集成稳压的三个引脚为:1脚为接地端,2脚为输入端,3脚为输出端。
79XX系列集成稳压器的应用电路也很简单。
下图所示为输出-5V直流电压的稳压电源电路,IC采用集成稳压器7905,输出电流较大时应配上散热板。
CN7800系列温度控制器说明书
P-49Reguladores de rampa/meseta de 1⁄16 DINMonitorice y controle las aplicaciones de proceso o temperatura con precisión utilizando los reguladores serie CN7800. La serie CN7800 proporciona pantallas de LED dobles para una indicación local del valor del proceso y el valor del punto de referencia. Los métodos de control incluyen encendido y apagado, PID, ajuste automático y ajuste manual. El control de PID se admite con 64 acciones de control de rampa/meseta. Existen dos salidas de alarma adicionales estándar en la serie CN7800. Las salidas de la alarma pueden configurarse rápidamente utilizando las 13 funciones de alarma incorporadas. El regulador se comunica fácilmente con la interfaz RS485 incorporada.U P antalla doble U A juste automático U E ntrada universalU8 programas de rampa/meseta, 8 segmentos cada uno U F unciones de enlace y repetición programables U C omunicaciones RS485U S oftware gratuito U E stándar de 2 alarmasEspecificacionesEntradas: Termopar, RTD, voltaje de CC o corriente CC Pantalla: D os LED de 4 dígitos, 7 segmentos, 6,35 mm dealto (0,25") (PV: rojo, SV: verde)Resolución: 1,0, 0,1 para termopares (excepto los tipos R,S y B)Precisión: I ntervalo de ±0,25%, ±1 dígito menos significativo Voltaje de suministro: 100 a 240 Vca, 50/60 Hz Consumo de energía: 5 VA máx.Temperatura de funcionamiento: 0 a 50 °C (32 a 122 °F)Copia de seguridad de memoria: Memoria no volátil Especificaciones de salida de control: Relé: SPST , 5 A @ 250 Vca resistivaImpulso de voltaje: 14V , 10 @ -20% (máx. 40 mA) Corriente: 4 a 20 mAAlarmas: SPST, 3 A a 250 Vca resistiva Comunicación: P rotocolo de comunicación RS485MODBUS ® A-5-11/RTUPeso: 114 g (4 onzas)Marco frontal: 48 mm 2 (1,89 pulg 2)Corte del panel: 45 mm 2 (1,77 pulg 2)Máximo grosor de panel: 9,50 mm (0,375")Profundidad del panel: 80 mm (3,15")* Descarga gratuita de software CN7-A disponible en /cn7800OMX-R250 (se vende por separado). Disponible en /cn7800Serie CN7800Completo de serie con manual del operador.Ejemplos de pedidos: CN7823, regulador de salida doble, impulso de CC, salida de relé mecánico y comunicaciones RS485. CN7853, salida doble, 4 a 20 mA, relé, dos alarmas.。
7805稳压芯片,7805芯片介绍
7805 稳压芯片,7805 芯片介绍
7805 是我们最常用到的稳压芯片了,他的使用方便,用很简单的电
路即可以输入一个直流稳压电源,他的输出电压恰好为5v,刚好是51 系列
单片机运行所需的电压,他有很多的系列如ka7805,ads7805,cw7805 等,
性能有微小的差别,用的最多的还是lm7805。
7805 结构组成是用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,7805 三端稳压集成电路电路内部还有过流、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。
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。
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)。
当稳压管温度过高时,稳压性能将变差,甚至损坏。
当制作中需要一个能输出1.5A 以上电流的稳压电源,通常采用几块三端稳压电路并联起来,使其最大输出电流为N 个1.5A,但应用时需注意:并联使用的集成稳压电路应采用同一厂家、同一批号的产品,以保证参数的一致。
常用电源管理芯片工作原理及应用介绍
也可用于降压。当 Q1 导通时,能量流向输出电感,电感电
流线性增加,其斜率为:
I Lr
=
ΔI Δt
= Vi L
(9)
此时由于 CR 处于反偏,输出级电路对输入级无影响,
但是却需要输出电容 C 为负载供电。
Q1 关断时,输入电路与输出级不发生连接关系。由于电
感的突然切换且其电流不能突变,电流就会通过地和负载 R
I Lpp = I Lr ×DT = ILf ×(1
D)T = Vo (1 Lf
D) = Vi D (1 Lf
D) (4 )ຫໍສະໝຸດ B u c k 型转换器实际上是一种降压型 结构,其输出电压 永远低于输入电源电压。仅当功率管 Q1 持续导通时,输出
图 1 Buc k 型转换器拓扑结构
(1 )B u ck 型转换器(B u c k c on ve r te r )
B u c k 型转换器拓扑结构如图 1 所示,其中 Q1 是功率
管,C R 为续流二极管。当 Q1 导通时,能量向输出端传送,
续流二极管 C R 处于反偏态。若忽略 Q 1 导通压降,则电感
压,也称 为直流斩波。它有两种工作方 式:其一是脉宽调制 方 式(P WM ), 其二是频率 调制方式( PF M)。按结 构来分 DC / DC 转换器可分为隔离式和非隔离式,隔离式转换器采 用变压器隔离,既完成电压的变换,又实现输入/ 输出之间的 电隔离。 而非隔离式转换器只完成电压 的变换,本文仅介绍 非隔离式转换器,常见的非隔离式转换器可分为三种:B u c k 型、B oos t 型和 Bu c k -Boos t 型。
第 11 卷 第 10 期 2011 年 10 月
中国水运 Chi na Wat er Tr a ns por t
78系列和79系列 引脚图及稳压电路图资料
78系列和79系列引脚图及稳压电路图资料7805最大输出电流[1.5]A7805是我们最常用到的稳压芯片了,他的使用方便,用很简单的电路即可以输入一个直流稳压电源,他的输出电压恰好为5v,刚好是51系列单片机运行所需的电压,他有很多的系列如ka7805,ads7805,cw7805等,性能有微小的差别,用的最多的还是lm7805,下面我简单的介绍一下他的3个引脚以及用它来构成的稳压电路的资料。
左手665收藏时间:2017年4月23日17287805三端稳压集成电路,电子产品中,常见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。
顾名思义,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。
输出电压:4.8V~5.2V最大输出电流: 1.5A7805引脚图其中1接整流器输出的+电压,2为公共地(也就是负极),3就是我们需要的正5V输出电压了,下面介绍一个简单的7805电路lm7805稳压电路上图中R1用220Ω,R2用680Ω的这个是用来调节输出电压的。
输出电压公式Uo≈Uxx(1+R2/R1),此稳压电路可在5~12V稳压范围内实现输出电压连续可调节。
此三端集成稳压集成电路lm7805最大输入电压为35V,输入输出差需保持2V以上,这样该电路中因为稳压器的直流输入电压是正14V,故该稳压电路的最大输出电压为正12V。
此电路的精度一般可达到0.04以上,用lm7805就能满足一般需求了。
左手665欢迎你怎么判断l7805cv管脚是否已经烧坏左手665收藏时间:2017年4月24日09:107800系列的三端稳压IC,因厂家不同和产品的差异,用万用表测出的数值会有较大的出入,在一般情况下,输入-地之间电阻为15-45千欧,输出-地4-12千欧,地-输入4-6千欧,地-输出4-7千欧,输入-输出30-50千欧,输出-输入4.5-5.0千欧,电阻值是交换表笔测量,如果出入较大或出现0与“无穷大”均已损坏。
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Rev. 1.0.0Features•Output Current up to 1A •Output V oltages of 5, 6, 8, 9, 10, 12, 15, 18, 24V•Thermal Overload Protection •Short Circuit Protection•Output Transistor Safe Operating Area ProtectionDescriptionThe KA78XX/KA78XXA series of three-terminal positive regulator are available in the TO-220/D-PAK package and with several fixed output voltages, making them useful in a wide range of applications. Each type employs internalcurrent limiting, thermal shut down and safe operating area protection, making it essentially indestructible. If adequate heat sinking is provided, they can deliver over 1A output current. Although designed primarily as fixed voltage regulators, these devices can be used with external components to obtain adjustable voltages and currents.TO-220D-PAK1. Input2. GND3. Output11Internal Block DigramKA78XX/KA78XXA3-Terminal 1A Positive Voltage RegulatorKA78XX/KA78XXAAbsolute Maximum RatingsElectrical Characteristics (KA7805/KA7805R)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =10V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V o due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol Value Unit Input Voltage (for V O = 5V to 18V)(for V O = 24V)V I V I 3540V V Thermal Resistance Junction-Cases (TO-220)R θJC 5°C/WThermal Resistance Junction-Air (TO-220)R θJA 65°C/WOperating Temperature Range (KA78XX/A/R)T OPR 0 ~ +125°C Storage Temperature RangeT STG-65 ~ +150°CParameterSymbolConditionsKA7805UnitMin.Typ.Max.Output VoltageV OT J =+25 o C4.85.0 5.25.0mA ≤Io ≤1.0A, P O ≤15W V I = 7V to 20V 4.75 5.0 5.25 V Line Regulation (Note1)Regline T J =+25 o C V O = 7V to 25V - 4.0100mV V I = 8V to 12V - 1.650Load Regulation (Note1)Regload T J =+25 o C I O = 5.0mA to1.5A -9100mV I O =250mA to 750mA -450Quiescent Current I Q T J =+25 o C - 5.08.0mA Quiescent Current Change ∆I Q I O = 5mA to 1.0A -0.030.5mA V I = 7V to 25V -0.3 1.3Output Voltage Drift ∆V O /∆T I O = 5mA--0.8-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -42-µV/V O Ripple Rejection RR f = 120HzV O = 8V to 18V 6273-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-15-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -230-mA Peak CurrentI PKT J =+25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7806/KA7806R)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =11V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7806UnitMin.Typ.Max.Output VoltageV OT J =+25 o C5.756.0 6.255.0mA ≤I O ≤1.0A, P O ≤15W V I = 8.0V to 21V 5.7 6.0 6.3 V Line Regulation (Note1)Regline T J =+25 o C V I = 8V to 25V -5120mV V I = 9V to 13V - 1.560Load Regulation (Note1)Regload T J =+25 o C I O =5mA to 1.5A -9120mV I O =250mA to750mA -360Quiescent Current I Q T J =+25 o C - 5.08.0mA Quiescent Current Change ∆I Q I O = 5mA to 1A --0.5mA V I = 8V to 25V -- 1.3Output Voltage Drift ∆V O /∆T I O = 5mA--0.8-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -45-µV/Vo Ripple Rejection RR f = 120HzV I = 9V to 19V 5975-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-19-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J =+25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7808/KA7808R)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =14V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7808UnitMin.Typ.Max.Output VoltageV OT J =+25 o C7.78.08.35.0mA ≤ I O ≤1.0A, P O ≤15W V I = 10.5V to 23V 7.68.08.4 V Line Regulation (Note1)ReglineT J =+25 o C V I = 10.5V to 25V - 5.0160mV V I = 11.5V to 17V - 2.080Load Regulation (Note1)Regload T J =+25 o C I O = 5.0mA to 1.5A-10160mV I O = 250mA to 750mA - 5.080Quiescent Current I Q T J =+25 o C - 5.08.0mA Quiescent Current Change ∆I Q I O = 5mA to 1.0A -0.050.5mA V I = 10.5A to 25V -0.5 1.0Output Voltage Drift ∆V O /∆T I O = 5mA--0.8-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -52-µV/Vo Ripple Rejection RR f = 120Hz, V I = 11.5V to 21.5V 5673-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-17-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -230-mA Peak CurrentI PKT J =+25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7809/KA7809R)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =15V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7809UnitMin.Typ.Max.Output VoltageV OT J =+25 o C8.6599.355.0mA ≤ I O ≤1.0A, P O ≤15W V I = 11.5V to 24V 8.699.4 V Line Regulation (Note1)Regline T J =+25 o C V I = 11.5V to 25V -6180mV V I = 12V to 17V -290Load Regulation (Note1)Regload T J =+25 o C I O = 5mA to 1.5A -12180mV I O = 250mA to 750mA -490Quiescent Current I Q T J =+25 o C - 5.08.0mA Quiescent Current Change ∆I Q I O = 5mA to 1.0A --0.5mA V I = 11.5V to 26V -- 1.3Output Voltage Drift ∆V O /∆T I O = 5mA--1-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -58-µV/Vo Ripple Rejection RR f = 120HzV I = 13V to 23V 5671-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-17-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J = +25 o C- 2.2-AElectrical Characteristics (KA7810)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =16V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7810UnitMin.Typ.Max.Output VoltageV OT J =+25 o C9.61010.45.0mA ≤ I O ≤ 1.0A, P O ≤ 15W V I = 12.5V to 25V 9.51010.5 V Line Regulation (Note1)Regline T J =+25 o C V I = 12.5V to 25V -10200mV V I = 13V to 25V -3100Load Regulation (Note1)Regload T J =+25 o C I O = 5mA to 1.5A -12200mV I O = 250mA to 750mA -4400Quiescent Current I Q T J =+25 o C - 5.18.0mA Quiescent Current Change ∆I Q I O = 5mA to 1.0A --0.5mA V I = 12.5V to 29V -- 1.0Output Voltage Drift ∆V O /∆T I O = 5mA--1-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -58-µV/Vo Ripple Rejection RR f = 120HzV I = 13V to 23V 5671-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-17-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J =+25 o C- 2.2-AElectrical Characteristics (KA7812/KA7812R)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =19V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7812/KA7812R UnitMin.Typ.Max.Output VoltageV OT J =+25 o C11.51212.55.0mA ≤ I O ≤1.0A, P O ≤15W V I = 14.5V to 27V 11.41212.6 V Line Regulation (Note1)ReglineT J =+25 o CV I = 14.5V to 30V -10240mV V I = 16V to 22V - 3.0120Load Regulation (Note1)Regload T J =+25 o C I O = 5mA to 1.5A -11240mV I O = 250mA to 750mA - 5.0120Quiescent Current I Q T J =+25 o C - 5.18.0mA Quiescent Current Change ∆I Q I O = 5mA to 1.0A -0.10.5mA V I = 14.5V to 30V -0.5 1.0Output Voltage Drift ∆V O /∆T I O = 5mA--1-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -76-µV/Vo Ripple Rejection RR f = 120HzV I = 15V to 25V 5571-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-18-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -230-mA Peak CurrentI PKT J = +25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7815)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =23V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7815UnitMin.Typ.Max.Output VoltageV OT J =+25 o C14.41515.65.0mA ≤ I O ≤1.0A, P O ≤15W V I = 17.5V to 30V 14.251515.75 V Line Regulation (Note1)Regline T J =+25 o C V I = 17.5V to 30V -11300mV V I = 20V to 26V -3150Load Regulation (Note1)Regload T J =+25 o C I O = 5mA to 1.5A -12300mV I O = 250mA to 750mA -4150Quiescent Current I Q T J =+25 o C - 5.28.0mA Quiescent Current Change ∆I Q I O = 5mA to 1.0A --0.5mA V I = 17.5V to 30V -- 1.0Output Voltage Drift ∆V O /∆T I O = 5mA--1-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -90-µV/Vo Ripple Rejection RR f = 120HzV I = 18.5V to 28.5V 5470-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-19-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J =+25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7818)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =27V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7818UnitMin.Typ.Max.Output VoltageV OT J =+25 o C17.31818.75.0mA ≤ I O ≤1.0A, P O ≤15W V I = 21V to 33V 17.11818.9 V Line Regulation (Note1)Regline T J =+25 o C V I = 21V to 33V -15360mV V I = 24V to 30V -5180Load Regulation (Note1)Regload T J =+25 o C I O = 5mA to 1.5A -15360mV I O = 250mA to 750mA - 5.0180Quiescent Current I Q T J =+25 o C - 5.28.0mA Quiescent Current Change ∆I Q I O = 5mA to 1.0A --0.5mA V I = 21V to 33V --1Output Voltage Drift ∆V O /∆T I O = 5mA--1-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -110-µV/Vo Ripple Rejection RR f = 120HzV I = 22V to 32V 5369-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-22-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J =+25 o C-2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7824)(Refer to test circuit ,0°C < T J < 125°C, I O = 500mA, V I =33V, C I = 0.33µF, C O =0.1µF, unless otherwise specified)Note:1. Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsKA7824UnitMin.Typ.Max.Output VoltageV OT J =+25 o C2324255.0mA ≤ I O ≤ 1.0A, P O ≤ 15W V I = 27V to 38V 22.82425.25 V Line Regulation (Note1)ReglineT J =+25 o CV I = 27V to 38V -17480mV V I = 30V to 36V -6240Load Regulation (Note1)Regload T J =+25 o C I O = 5mA to 1.5A -15480mV I O = 250mA to 750mA - 5.0240Quiescent Current I Q T J =+25 o C - 5.28.0mA Quiescent Current Change ∆I QI O = 5mA to 1.0A -0.10.5mA V I = 27V to 38V-0.51Output Voltage Drift ∆V O /∆T I O = 5mA --1.5-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz, T A =+25 o C -60-µV/Vo Ripple Rejection RR f = 120HzV I = 28V to 38V 5067-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-28-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -230-mA Peak CurrentI PKT J =+25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7805A)(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 10V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol ConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25 o C4.955.1V I O = 5mA to 1A, P O ≤ 15W V I = 7.5V to 20V 4.85 5.2Line Regulation (Note1)ReglineV I = 7.5V to 25V I O = 500mA-550mV V I = 8V to 12V -350T J =+25 o CV I = 7.3V to 20V -550V I = 8V to 12V- 1.525Load Regulation (Note1)RegloadT J =+25 o CI O = 5mA to 1.5A -9100mV I O = 5mA to 1A -9100I O = 250mA to 750mA -450Quiescent Current I Q T J =+25 o C - 5.0 6.0mA Quiescent Current Change∆I Q I O = 5mA to 1A--0.5mA V I = 8 V to 25V, I O = 500mA --0.8V I = 7.5V to 20V, T J =+25 o C --0.8Output Voltage Drift ∆V/∆T Io = 5mA--0.8-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25 o C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 8V to 18V -68-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-17-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J = +25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7806A)(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 11V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol ConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25 o C5.5866.12V I O = 5mA to 1A, P O ≤ 15W V I = 8.6V to 21V 5.766 6.24Line Regulation (Note1)ReglineV I = 8.6V to 25V I O = 500mA-560mV V I = 9V to 13V -360T J =+25 o CV I = 8.3V to 21V -560V I = 9V to 13V- 1.530Load Regulation (Note1)RegloadT J =+25 o CI O = 5mA to 1.5A -9100mV I O = 5mA to 1A -4100I O = 250mA to 750mA - 5.050Quiescent Current I Q T J =+25 o C - 4.3 6.0mA Quiescent Current Change ∆I Q I O = 5mA to 1A--0.5mA V I = 9V to 25V, I O = 500mA --0.8V I = 8.5V to 21V, T J =+25 o C --0.8Output Voltage Drift ∆V/∆T I O = 5mA--0.8-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25 o C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 9V to 19V -65-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-17-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J =+25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7808A)(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 14V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol ConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25 o C7.8488.16V I O = 5mA to 1A, P O ≤15W V I = 10.6V to 23V 7.788.3Line Regulation (Note1)ReglineV I = 10.6V to 25V I O = 500mA-680mV V I = 11V to 17V -380T J =+25 o CV I = 10.4V to 23V -680V I = 11V to 17V-240Load Regulation (Note1)RegloadT J =+25 o CI O = 5mA to 1.5A -12100mV I O = 5mA to 1A -12100I O = 250mA to 750mA -550Quiescent Current I Q T J =+25 o C - 5.0 6.0mA Quiescent Current Change ∆I Q I O = 5mA to 1A--0.5mA V I = 11V to 25V, I O = 500mA --0.8V I = 10.6V to 23V, T J =+25 o C --0.8Output Voltage Drift ∆V/∆T I O = 5mA--0.8-mV/ o C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25 o C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 11.5V to 21.5V -62-dB Dropout Voltage V Drop I O = 1A, T J =+25 o C -2-V Output Resistance r O f = 1KHz-18-m ΩShort Circuit Current I SC V I = 35V, T A =+25 o C -250-mA Peak CurrentI PKT J =+25 o C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7809A)(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 15V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25°C8.829.09.18V I O = 5mA to 1A, P O ≤15W V I = 11.2V to 24V 8.659.09.35Line Regulation (Note1)ReglineV I = 11.7V to 25V I O = 500mA-690mV V I = 12.5V to 19V -445T J =+25°CV I = 11.5V to 24V -690 V I = 12.5V to 19V -245Load Regulation (Note1)RegloadT J =+25°CI O = 5mA to 1.0A -12100mV I O = 5mA to 1.0A -12100I O = 250mA to 750mA -550Quiescent Current I Q T J =+25 °C- 5.0 6.0mA Quiescent Current Change ∆I Q V I = 11.7V to 25V, T J =+25 °C --0.8mA V I = 12V to 25V, I O = 500mA --0.8I O = 5mA to 1.0A --0.5Output Voltage Drift ∆V/∆T I O = 5mA--1.0-mV/ °C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25 °C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 12V to 22V -62-dB Dropout Voltage V Drop I O = 1A, T J =+25 °C - 2.0-V Output Resistance r O f = 1KHz-17-m ΩShort Circuit Current I SC V I = 35V, T A =+25 °C -250-mA Peak CurrentI PKT J =+25°C- 2.2-A(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 16V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbolConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25°C9.81010.2V I O = 5mA to 1A, P O ≤ 15W V I =12.8V to 25V 9.61010.4Line Regulation (Note1)ReglineV I = 12.8V to 26V I O = 500mA-8100mV V I = 13V to 20V -450 T J =+25 °CV I = 12.5V to 25V -8100 V I = 13V to 20V -350Load Regulation (Note1)Regload T J =+25 °CI O = 5mA to 1.5A-12100mV I O = 5mA to 1.0A-12100 I O = 250mA to 750mA-550Quiescent Current I Q T J =+25 °C- 5.0 6.0mA Quiescent Current Change ∆I Q V I = 13V to 26V, T J =+25 °C --0.5mA V I = 12.8V to 25V, I O = 500mA --0.8 I O = 5mA to 1.0A --0.5Output Voltage Drift ∆V/∆TI O = 5mA--1.0-mV/ °C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25 °C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 14V to 24V -62-dB Dropout Voltage V Drop I O = 1A, T J =+25°C - 2.0-V Output Resistance r O f = 1KHz-17-m ΩShort Circuit Current I SC V I = 35V, T A =+25 °C -250-mA Peak CurrentI PKT J =+25 °C- 2.2-A(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 19V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol ConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25 °C11.751212.25V I O = 5mA to 1A, P O ≤15W V I = 14.8V to 27V 11.51212.5Line Regulation (Note1)ReglineV I = 14.8V to 30V I O = 500mA-10120mV V I = 16V to 22V -4120 T J =+25 °CV I = 14.5V to 27V -10120 V I = 16V to 22V-360Load Regulation (Note1)Regload T J =+25 °CI O = 5mA to 1.5A-12100mV I O = 5mA to 1.0A-12100 I O = 250mA to 750mA-550Quiescent Current I Q T J =+25°C- 5.16.0mA Quiescent Current Change ∆I Q V I = 15V to 30V, T J =+25 °C -0.8mA V I = 14V to 27V, I O = 500mA -0.8 I O = 5mA to 1.0A -0.5Output Voltage Drift ∆V/∆TI O = 5mA--1.0-mV/°C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25°C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 14V to 24V -60-dB Dropout Voltage V Drop I O = 1A, T J =+25°C - 2.0-V Output Resistance r O f = 1KHz-18-m ΩShort Circuit Current I SC V I = 35V, T A =+25 °C -250-mA Peak CurrentI PKT J =+25 °C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7815A)(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I =23V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol ConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25 °C14.71515.3V I O = 5mA to 1A, P O ≤15W V I = 17.7V to 30V 14.41515.6Line Regulation (Note1)ReglineV I = 17.9V to 30V I O = 500mA-10150mV V I = 20V to 26V -5150 T J =+25°CV I = 17.5V to 30V -11150 V I = 20V to 26V-375Load Regulation (Note1)Regload T J =+25 °CI O = 5mA to 1.5A-12100mV I O = 5mA to 1.0A-12100 I O = 250mA to 750mA-550Quiescent Current I Q T J =+25 °C- 5.2 6.0mA Quiescent Current Change ∆I Q V I = 17.5V to 30V, T J =+25 °C --0.8mA V I = 17.5V to 30V, I O = 500mA --0.8 I O = 5mA to 1.0A --0.5Output Voltage Drift ∆V/∆TI O = 5mA--1.0-mV/°C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25 °C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 18.5V to 28.5V -58-dB Dropout Voltage V Drop I O = 1A, T J =+25 °C - 2.0-V Output Resistance r O f = 1KHz-19-m ΩShort Circuit Current I SC V I = 35V, T A =+25 °C -250-mA Peak CurrentI PKT J =+25°C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7818A)(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 27V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol ConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25 °C17.641818.36V I O = 5mA to 1A, P O ≤15W V I = 21V to 33V 17.31818.7Line Regulation (Note1)ReglineV I = 21V to 33V I O = 500mA-15180mV V I = 21V to 33V -5180 T J =+25 °CV I = 20.6V to 33V -15180 V I = 24V to 30V-590Load Regulation (Note1)Regload T J =+25°CI O = 5mA to 1.5A-15100mV I O = 5mA to 1.0A-15100 I O = 250mA to 750mA-750Quiescent Current I Q T J =+25 °C- 5.2 6.0mA Quiescent Current Change ∆I Q V I = 21V to 33V, T J =+25 °C --0.8mA V I = 21V to 33V, I O = 500mA --0.8 I O = 5mA to 1.0A --0.5Output Voltage Drift ∆V/∆TI O = 5mA--1.0-mV/ °C Output Noise Voltage V N f = 10Hz to 100KHz T A =+25°C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 22V to 32V -57-dB Dropout Voltage V Drop I O = 1A, T J =+25°C - 2.0-V Output Resistance r O f = 1KHz-19-m ΩShort Circuit Current I SC V I = 35V, T A =+25°C -250-mA Peak CurrentI PKT J =+25 °C- 2.2-AKA78XX/KA78XXAElectrical Characteristics (KA7824A)(Refer to the test circuits. 0o C < T J < +125 o C, I o =1A, V I = 33V, C I =0.33µF, C O =0.1µF, unless otherwise speci-fied)Note:1. Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be takeninto account separately. Pulse testing with low duty is used.ParameterSymbol ConditionsMin.Typ.Max.UnitOutput VoltageV OT J =+25 °C23.52424.5V I O = 5mA to 1A, P O ≤15W V I = 27.3V to 38V 232425Line Regulation (Note1)ReglineV I = 27V to 38V I O = 500mA-18240mV V I = 21V to 33V -6240 T J =+25 °CV I = 26.7V to 38V -18240 V I = 30V to 36V-6120Load Regulation (Note1)Regload T J =+25 °CI O = 5mA to 1.5A-15100mV I O = 5mA to 1.0A-15100 I O = 250mA to 750mA-750Quiescent Current I Q T J =+25 °C- 5.2 6.0mA Quiescent Current Change ∆I Q V I = 27.3V to 38V, T J =+25 °C --0.8mA V I = 27.3V to 38V, I O = 500mA --0.8 I O = 5mA to 1.0A --0.5Output Voltage Drift ∆V/∆TI O = 5mA--1.5-mV/ °C Output Noise Voltage V N f = 10Hz to 100KHz T A = 25 °C-10-µV/Vo Ripple Rejection RR f = 120Hz, I O = 500mA V I = 28V to 38V -54-dB Dropout Voltage V Drop I O = 1A, T J =+25 °C - 2.0-V Output Resistance r O f = 1KHz-20-m ΩShort Circuit Current I SC V I = 35V, T A =+25 °C -250-mA Peak CurrentI PKT J =+25 °C- 2.2-AKA78XX/KA78XXATypical Perfomance CharacteristicsFigure 1.Quiescent Current Figure 3.Output Voltage Figure 2.Peak Output Current Figure 4.Quiescent CurrentIKA78XX/KA78XXA Typical ApplicationsInput OutputFigure 5.DC ParametersInput OutputFigure 6.Load RegulationInput OutputFigure 7.Ripple RejectionInput OutputFigure 8.Fixed Output Regulator21KA78XX/KA78XXA22Figure 9.Constant Current RegulatorNotes :(1)To specify an output voltage. substitute voltage value for "XX." A common ground is required between the input and the Outputvoltage. The input voltage must remain typically 2.0V above the output voltage even during the low point on the input ripple voltage.(2)C I is required if regulator is located an appreciable distance from power Supply filter.(3)C O improves stability and transient response.V O = V XX (1+R 2/R 1)+I Q R 2Figure 10.Circuit for Increasing Output VoltageI RI ≥5 I QV O = V XX (1+R 2/R 1)+I Q R 2Figure 11.Adjustable Output Regulator (7 to 30V)InputOutputC ICOInput OutputC IC OI RI 5IQ≥Input OutputC IC OKA78XX/KA78XXA23Figure 12.High Current Voltage RegulatorFigure 13.High Output Current with Short Circuit ProtectionFigure 14.Tracking Voltage RegulatorInputOutputInputOutputKA78XX/KA78XXA24Figure 15.Split Power Supply ( ±15V-1A)Figure 16.Negative Output Voltage CircuitFigure 17.Switching RegulatorInputOutput Input OutputKA78XX/KA78XXA Mechanical DimensionsPackageTO-22025KA78XX/KA78XXAMechancal Dimensions (Continued)PackageD-PAK26KA78XX/KA78XXA27Ordering InformationProduct Number Output Voltage TolerancePackageOperating TemperatureKA7805 / KA7806 ±4%TO-2200 ~ + 125°CKA7808 / KA7809KA7810 KA7812 / KA7815KA7818 / KA7824KA7805A / KA7806A ±2%KA7808A / KA7809A KA7810A / KA7812A KA7815A / KA7818AKA7824A KA7805R / KA7806R ±4%D-PAKKA7808R / KA7809RKA7812R。