C1608C0G1H331J中文资料

V40100C, VF40100C, VB40100C & VI40100CVishay General SemiconductorDocument Number: 89042For technical questions within your region, please contact one of the following:Dual High-Voltage Trench MOS Barrier Schottky RectifierUltra Low V F = 0.38 V at I F = 5 AFEATURES•Trench MOS Schottky technology •Low forward voltage drop, low power losses •High efficiency operation •Low thermal resistance•Meets MSL level 1, per J-STD-020, LF maximum peak of 245 °C (for TO-263AB package) •Solder dip 260 °C, 40 s (for TO-220AB, ITO-220AB and TO-262AA package) •Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/EC TYPICAL APPLICATIONSFor use in high frequency inverters, switching power supplies, freewheeling diodes, OR-ing diode, dc-to-dc converters and reverse battery protection.MECHANICAL DATACase: TO-220AB, ITO-220AB, TO-263AB and TO-262AAEpoxy meets UL 94V-0 flammability ratingTerminals: Matte tin plated leads, solderable per J-STD-002 and JESD22-B102E3 suffix for consumer grade, meets JESD 201 class 1A whisker testPolarity: As markedMounting Torque:10 in-lbs maximumPRIMARY CHARACTERISTICSI F(AV) 2 x 20 A V RRM 100 V I FSM 250 A V F at I F = 20 A 0.61 V T J max.150 °C12312KMAXIMUM RATINGS (T A = 25°C unless otherwise noted)PA AMETE SYMBOL V40100C VF40100C VB40100C VI40100C UNITMaximum repetitive peak reverse voltage V RRM 100V Maximum average forward rectified current (Fig. 1)per device per diodeI F(AV)4020APeak forward surge current 8.3 ms single half sine-wave superimposed on rated load per diode I FSM 250 A Isolation voltage (ITO-220AB only)From terminal to heatsink t = 1 minV AC 1500V Operating junction and storage temperature rangeT J , T STG- 40 to + 150°CV40100C, VF40100C, VB40100C & VI40100CVishay General Semiconductor For technical questions within your region, please contact one of the following:Document Number: 89042Notes:(1) Pulse test: 300 µs pulse width, 1 % duty cycle (2) Pulse test: Pulse width ≤ 40 msRATINGS AND CHARACTERISTICS CURVES (T A = 25 °C unless otherwise noted)ELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted)PA AMETE TEST CONDITIONS SYMBOL TYP.MAX.UNITBreakdown voltage(2)I R = 1.0 mAT A = 25 °CV BR100 (minimum)-VI R = 10 mA 105 (minimum)-Instantaneous forward voltage per diode (1)I F = 5 AI F = 10 A I F = 20 A T A = 25 °CV F0.470.540.67--0.73VI F = 5 A I F = 10 A I F = 20 A T A = 125 °C 0.380.450.61--0.67Reverse current at rated V R per diode (2)V R = 70 V T A = 25 °C T A = 125 °C I R910--µA mA V R = 100 VT A = 25 °C T A = 125 °C-21100045µA mATHERMAL CHARACTERISTICS (T A = 25°C unless otherwise noted)PA AMETE SYMBOL V40100C VF40100C VB40100CVI40100CUNITTypical thermal resistance per diodeR θJC2.04.02.02.0°C/WORDERING INFORMATION (Example)PACKAGE PREFERRED P/N UNIT WEIGHT (g)PACKAGE CODEBASE QUANTITYDELIVERY MODETO-220AB V40100C-E3/4W 1.854W 50/tube T ube ITO-220AB VF40100C-E3/4W 1.754W 50/tube T ube TO-263AB VB40100C-E3/4W 1.394W 50/tube T ube TO-263AB VB40100C-E3/8W 1.398W 800/reel T ape and reelTO-262AAVI40100C-E3/4W1.464W50/tubeTubeFigure 1. Forward Current Derating Curve Figure 2. Forward Power Loss Characteristics Per DiodeV40100C, VF40100C, VB40100C & VI40100CVishay General SemiconductorDocument Number: 89042For technical questions within your region, please contact one of the following:Figure 3. Typical Instantaneous Forward Characteristics Per Diode Figure 4. Typical Reverse Characteristics Per Diode Figure 5. Typical Junction Capacitance Per DiodeFigure 6. Typical Transient Thermal Impedance Per DiodeFigure7. Typical Transient Thermal Impedance Per DiodeV40100C, VF40100C, VB40100C & VI40100CVishay General Semiconductor For technical questions within your region, please contact one of the following:Document Number: 89042PACKAGE OUTLINE DIMENSIONS in inches (millimeters)Disclaimer Legal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网Document Number: 。

NCP5030MTTXGEVB NCP5030 High PowerLighting Evaluation Board User's ManualOverviewThe NCP5030 is a fixed frequency PWM buck −boost converter optimized for constant current applications such as driving high −powered white LED. The buck −boost is implemented in an H −bridge topology and has an adaptive architecture where it operates in one of three modes: boost,buck −boost, or buck depending on the input and load condition. This device has been designed with high −efficiency for use in portable applications and is capable of driving up to 1.2 A pulse current and 900mA continuous current into a high power LED for camera flash,flashlight, torch and similar applications. To protect the device cycle by cycle current limiting and a thermal shutdown circuit have been incorporated as well as outputOVP (Over −V oltage Protection). The high switching frequency allows the use of a low value 4.7 m H inductor and ceramic capacitors. The NCP5030 is in a low profile and efficient thermally enhanced 3 x 4 mm DFN package.NCP5030 High Power Lighting Evaluation BoardThis evaluation board demonstrates the overall NCP5030capabilities and offers very easy current programming. The output current is fully configurable via the usage of 4external resistors and corresponding jumper headers. The NCP5030 lighting evaluation board schematic is depicted in Figure2.Figure 1. NCP5030MTTXGEVB Board PictureEVAL BOARD USER’S MANUALSCHEMATICFigure 2. NCP5030 High Power Lighting Evaluation Board SchematicOperationL101 selection depends on the output current, VLF5014A4R7M1R1 is recommended at output current under 500mA, and RLF7030T4R7M3R4 is recommended when output current is larger than 700mA.The power supply of NCP5030 should be from 2.7V to 5.5V. Maximum input voltage is 7.0V and maximum continuous output current is 900mA.CAUTION:1.Exceeding the maximum input voltage maydamage NCP5030 permanently!2.Too long time duration at over output currentmay decrease LED life time or even damageLED!Table 1. Input Power ConnectorSymbol Descriptions J101−1Positive terminal of external power supplyJ101−2GND of external power supplyJ107−1Positive terminal of 3*AA batteries in serialJ107−2GND of 3*AA batteries in serialTable 2. Output Power ConnectorJ108−1/2VOUT of NCP5030J108−5/6FB of NCP5030Table 3. Jumper SetupSymbol DescriptionsJ102−1/2Peak current set to about 3 A, peak current and setting resistor selection can reference the datasheet of NCP5030J102−2/3Peak current set to about 1.5 A, peak current and setting resistor selection can reference the datasheet of NCP5030J103Short will connect CTRL to PVIN and enable NCP5030J110GND test jumperJ104Must be connected to ensure NCP5030 work properly, can measure inductor current here, such as peak current of inductorJ105Select D101 as load of NCP5030, be careful if J111 or J108 is connectedJ111Select D102 as load of NCP5030, be careful if J105 or J108 is connectedJ109Output current setting, reference to table 5(Output current setting table)Table 4. Test PointsTP101CTRL and enable of NCP5030.TP102FB, feedback, reference voltage is 200 mV.TP103Switch LX1TP104Switch LX2Current Setting SelectionThe output is determined by the resistor or resistors connected between FB pin and GND. R102 to R106 and J109 are used for output current setting according to eq. 1:I out(A)+0.2R(W)(eq. 1)Where R is the total resistance between FB and GND, J109 allows parallel connections of several resistors to select output current.Following is the output current setting table of J109 (1=short connected; 0=left open)Table 5. Output Current Setting TablePIN9−10PIN7−8PIN5−6PIN3−4PIN1−2Output Current (mA) 000011000001020000011300001004000010150000110600001117000110080001101900Efficiency TestFigure 3 and Figure 4 describe efficiency results in different conditions.0.010.020.030.040.050.060.070.080.090.0100.05.505.405.305.205.105.004.904.804.704.604.504.404.304.204.104.003.903.803.703.603.503.403.303.203.103.002.902.802.702.60350 mA 500 mA700 mA900 mAFigure 3. Efficiency vs. Input Voltage, R pca = 82 K W , load = LXHL − PW09,Inductor = VLF5014A4R7M1R1 for I out = 350 mA, 500 mA and 700 mA, RLF7030T4R7M3R4 for I out = 900 mAEfficiency vs. V IN0.010.020.030.040.050.060.070.080.090.0100.05.505.405.305.205.105.004.904.804.704.604.504.404.304.204.104.003.903.803.703.603.503.403.303.203.103.002.902.802.702.60VLF5014A4R7M1R1RLF7030T4R7M3R4Figure 4. Efficiency vs. Input Voltage @ Inductor, I out = 900 mA,R pca = 82 K W , load = LXHL − PW09, V f = 3.9 VEfficiency vs. V INOutput Current RegulationFigure 5 shows the relationship between output current regulation R pca and input voltage. There may be a tradeoff between output current and input current limit.0.0100.0200.0300.0400.0500.0600.0700.0800.0900.01000.05.505.405.305.205.105.004.904.804.704.604.504.404.304.204.104.003.903.803.703.603.503.403.303.203.103.002.902.802.702.60Figure 5. Output Current Regulation vs. Input Voltage @ R pca , I out = 900 mAInductor = RLF7030T4R7M3R4; Load = LXHL − PW09, V f = 3.9 VEfficiency vs. V INR pca = 82 K WR pca = 39 K WPCB LAYOUTFigure 6. Assembly LayerFigure 7. Top Layer RoutingBILL OF MATERIALSTable 6. BILL OF MATERIALS FOR THE NCP5030MTTXGEVB HIGH POWER LIGHTING EVALUATION BOARDD e s i g n a t o rQty Description Value T o l e r a n c eFootprint MFG MFG Part Number S u b s t i t u t i o n A l l o w e d R O H S C o m p l i a n t C1011Ceramic chip capacitor 330 pF 5%0603TDK C1608C0G1H331J Yes Yes C1021Ceramic chip capacitor 22 pF 5%0603TDK C1608C0G1H220J Yes Yes C1031Ceramic chip capacitor 22 m F 20%0805TDK C2012X5R0J226M Yes Yes C1041Ceramic chip capacitor 1 m F 20%0603TDK C1608X5R0J105M Yes Yes C1051Ceramic chip capacitor 10 m F 20%0805TDK C2012X5R0J106M Yes Yes L1011Chip winding magnetic shielded inductor 4.7 m H20%4.5*4.7 mm TDKVLF5014AT-4R7M1R1Yes Yes 6.8*7.3 mmRLF7030T-4R7M3R4R1011Chip resistor 100 K W 5%0603Std.Std.Yes Yes R1021Chip resistor TBD (not mounted)NA 0805/1206Std.NA NA NA R103,R1042Chip resistor 0.51 W 1%,1/4 W 0805/1206Std.Std.Yes Yes R1051Chip resistor 1 W 1%,1/8 W 0805/1206Std.Std.Yes Yes R1061Chip resistor 2.2 W 1%,1/8 W 0805/1206Std.Std.Yes Yes R1071Chip resistor 39 K W 5%0603Std.Std.Yes Yes R1081Chip resistor 82 K W 5%0603Std.Std.Yes Yes TP101-TP1044PCB terminal 1 mm NA NA Standard 1mm Std.Std.Yes Yes U1011Buck −Boost driver for high power flash LED NANAWDFN12,3*4mm NCP5030MTTXGNo Yes ON Semiconductor J1011Header X 2NA NA SL5.08/2/90SL5.08/2/90B Weidmüller Yes Yes J102,J1062Header 3 pin, 0.1 inch spacingNA NA 0.100*3Std.Std.Yes Yes J103,J104,J105,J1114Header 2 pin, 0.1 inch spacingNANA0.100*2Std.Std.Yes YesJ10713*AA Battery holder NA NA 1.84*2.25 mm MPD BH3AA −PC No Yes J1081Header 6NA NA 0.100*6AMP 535676No Yes J1091Header 2*5,0.1 inch spacing NA NA 0.100*2*5Std.Std.Yes Yes J1101GND jumper 400 mil spacing NA NA 0.400spacing D3082−B01Harwin Yes Yes D1011LXCL −PWT1NA NA 2.0*1.6 mm Lumileds LXCL −PWT1No Yes D1021Lambertian LED modulesLUXEON I LUXEON IIINALambertianLumiledsLXHL −PW01LXHL −PW09YesYesTEST PROCEDURE1.Visual inspection the board after solder, thereshould be no short, redundant solder ball.2.Measure the resistance of each pin of NCP5030 toGND, there should be no short to GND (except pin GND) or each other. Measure the forward andbackward resistance of D101/D102. Ensure solder is good.3.Short J104;4.Short J103;5.Short J106 2−3(power supply from J101);6.Configure J102 in 2−3 position;7.Short J105, open J111, J108;8.Configure J109 in 100 mA position (pin1−2shorted);9.Configure power supply output voltage to 3.7 V.10.Power off and connect power supply to J101;11.Power on, check D101 is lighting;12.Power off and Configure J109 in 200 mA position(pin3−4 shorted);13.Power on, check D101 is lighting;14.Power off and Configure J109 in 400 mA position(pin5−6 shorted);15.Power on, check D101 is lighting;16.Power off and Configure J109 in 400 mA position(pin7−8 shorted);17.Power on, check D101 is lighting;18.Power off and configure J102 at 1−2 position;19.Configure J109 in 100 mA position (pin1−2shorted);20.Power on, check D101 is lighting;21.Power off, open J105, short J111 (if D102mounted);22.Power on, check D102 is lighting (if D102mounted);23.Power off, open J105, J111, connect J108 toexternal LED or LED module (if there is);24.Power on, check external LED or LED module islighting (if there is);25.Power off;26.Configure board default and connect jumpersaccordingly•Place board in 300 mA output currentconfiguration:•Place jumpers on J109 1−2(100 mA), 3−4(200 mA), 9−10(0 mA);•Place a jumper on J102 2−3;•Place jumpers on J103/J104;•Place a jumper on J105 and make sure J111 is open;•Place a jumper on J106 2−3;ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。

NCP1608临界工作模式PFCPFC控制器使用手册NCP1608 是一个主动的功率因素控制器，专门设计用来在AC-DC转换适配器，电子镇流器和其他的中等功率的离线转换器（通常功率350W以下）。

它使用临界工作模式（CrM）保证高的功率因素和一个宽的输入电压和输出功率。

NCP1608通过内部集成安全特性来最小化外围回路，使他成为一个PFC设计的优秀的选择。

它通常是SOIC-8 封装。

通用特性：●高的功率因素（接近1）●不需要输入电压感应●封闭的PWM逐周期控制开通时间（电压模式）●宽的控制范围为高功率应用噪音免疫（>150W）●跨导放大器●高精度电压参考源（1.6%任何温度下）●非常低的开启电压（<35uA）●低的工作电流(2.1mA)●上升500mA/下降800mA图腾柱结构门驱动●带有滞后功能的低电压保护●Pin to pin和工业通用的标准兼容●PB free ，Halide free安全特性●过电压保护●低电压保护●反馈悬空保护●过电流保护●精准的可编程的最大开通时间经典应用●固体照明设备（半导体照明）●电子镇流器●AC适配器，TV，监控器●所有的离线的需要PFC的应用Tape上有卷的说明信息包括部分方向和Tape大小，请参考我们的tape上的包装说明手册，BRD8011/D图1经典应用图2 内部结构框图表格1：pin针功能说明超过最大额定值可能损坏芯片。

最大额定值仅仅是加的电压，在正常工作中以上情况不能适用。

长期的暴漏于以上情况会影响芯片的信赖性。

1.这个芯片包括静电放电（ESD）保护达到以下测试：Pin1-8：人体模型超过2000V 每个JEDEC 标准JESD22-A114E机器模型办法200V 每个JEDEC 标准JESD22-A115A 。

表格3 电气特性V FB=2.4V，V Control = 4 V, Ct = 1 nF, V CS = 0 V, V ZCD = 0 V, C DRV = 1 nF, V CC = 12 V,除非另有说明。

REMINDERSPlease read this before using the product.SAFETY REMINDERSREMINDERS1. If you intend to use a product listed in this catalog for a purpose that may cause loss of life or other damage, you must contact our company’s sales window.2. We may modify products or discontinue production of a product listed in this catalog without prior notification.3. We provide “Delivery Specification” that explain precautions for the specifications and safety of each product listed in this cata-log. We strongly recommend that you exchange these delivery specifications with customers that use one of these products.4. If you plan to export a product listed in this catalog, keep in mind that it may be a restricted item according to the “Foreign Exchange and Foreign Trade Control Law”. In such cases, it is necessary to acquire export permission in harmony with this law.5. Any reproduction or transferring of the contents of this catalog is prohibited without prior permission from our company.6. We are not responsible for problems that occur related to the intellectual property rights or other rights of our company or a third party when you use a product listed in this catalog. We do not grant license of these rights.7. This catalog only applies to products purchased through our company or one of our company’s official agencies. This catalog does not apply to products that are purchased through other third parties.8. The descriptions in this catalog apply as of April 2007.General Multilayer Ceramic Chip Capacitors C Series C1608 (EIA CC0603) TypeFEATURES•High capacitance has been achieved through precision technologies that enable the use of multiple thinner ceramic dielectric layers.• A monolithic structure ensures superior mechanical strength and reliability.•High-accuracy automatic mounting is facilitated through the maintenance of very precise dimensional tolerances.•Composed of only ceramics and metals, these capacitors provide extremely dependable performance, exhibiting virtually no degradation even when subjected to temperature extremes.•Low stray capacitance ensures high conformity with nominal values, thereby simplifying the circuit design process.•Low residual inductance assures superior frequency characteristics.•Because electrostatic capacity has been obtained up to the electrolytic capacitor range, these capacitors offer long service life and are optimally suited for power supply designs that require high levels of reliability.•Owing to their low ESR and excellent frequency characteristics, these products are optimally suited for high frequency and high-density type power supplies.SHAPES AND DIMENSIONS PRODUCT IDENTIFICATION(1) Series name(2) Dimensions L×W(3) Capacitance temperature characteristicsClass 1 (T emperature compensation)Class 2 (T emperature stable and general purpose)(4) Rated voltage Edc(5) Nominal capacitanceThe capacitance is expressed in three digit codes and in units of pico farads (pF).The first and second digits identify the first and second significant figures of the capacitance.The third digit identifies the multiplier.R designates a decimal point.(6) Capacitance tolerance(7) Packaging styleConformity to RoHS DirectiveC1608CH1H100D(1)(2)(3)(4)(5)(6)(7)1608 1.6×0.8mmT emperaturecharacteristicsCapacitance change Temperature rangeCH0±60ppm/°C–25 to +85°CSL+350 to –1000ppm/°C+20 to +85°CT emperaturecharacteristicsCapacitance change Temperature rangeJB±10%–25 to +85°CJF+30, –80%–25 to +85°CX7R±15%–55 to +125°CX5R±15%–55 to +85°CY5V+22, –82%–30 to +85°C1A10V1C16V1H50V0101pF10010pF1021,000pF0R50.5pFSymbol T oleranceApplicable capacitancerangeC±0.25pF10pF or lessJ±5%Over 10pFK±10%Z+80, –20%T T aping (reel)B Bulk•Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications.CAPACITANCE RANGES: CLASS 1 (TEMPERATURE COMPENSATION)TEMPERATURE CHARACTERISTICS: CH(0±60ppm/°C), C0G(0±30ppm/°C)RATED VOLTAGE Edc: 50V TEMPERATURE CHARACTERISTICS: SL(+350 to –1000ppm/ )RATED VOLTAGE Edc: 10VCAPACITANCE RANGES: CLASS 2TEMPERATURE CHARACTERISTICS: JB(±10%), X5R/X7R(±15%)RATED VOLTAGE Edc: 50VCapacitance(pF)ToleranceThickness T (mm)Part No.T emperature characteristics: CH T emperature characteristics: C0G 0.5 ±0.25pF 0.8±0.10C1608CH1H0R5C C1608C0G1H0R5C 0.75 ±0.25pF 0.8±0.10C1608CH1HR75C C1608C0G1HR75C 1 ±0.25pF 0.8±0.10C1608CH1H010C C1608C0G1H010C 1.5 ±0.25pF 0.8±0.10C1608CH1H1R5C C1608C0G1H1R5C 2 ±0.25pF 0.8±0.10C1608CH1H020C C1608C0G1H020C 3 ±0.25pF 0.8±0.10C1608CH1H030C C1608C0G1H030C 4 ±0.25pF 0.8±0.10C1608CH1H040C C1608C0G1H040C 5 ±0.25pF 0.8±0.10C1608CH1H050C C1608C0G1H050C 6 ±0.5pF 0.8±0.10C1608CH1H060D C1608C0G1H060D 7 ±0.5pF 0.8±0.10C1608CH1H070D C1608C0G1H070D 8 ±0.5pF 0.8±0.10C1608CH1H080D C1608C0G1H080D 9 ±0.5pF 0.8±0.10C1608CH1H090D C1608C0G1H090D 10 ±0.5pF 0.8±0.10C1608CH1H100D C1608C0G1H100D 12 ±5%0.8±0.10C1608CH1H120J C1608C0G1H120J 15 ±5%0.8±0.10C1608CH1H150J C1608C0G1H150J 18 ±5%0.8±0.10C1608CH1H180J C1608C0G1H180J 22 ±5%0.8±0.10C1608CH1H220J C1608C0G1H220J 27 ±5%0.8±0.10C1608CH1H270J C1608C0G1H270J 33 ±5%0.8±0.10C1608CH1H330J C1608C0G1H330J 39 ±5%0.8±0.10C1608CH1H390J C1608C0G1H390J 47 ±5%0.8±0.10C1608CH1H470J C1608C0G1H470J 56 ±5%0.8±0.10C1608CH1H560J C1608C0G1H560J 68 ±5%0.8±0.10C1608CH1H680J C1608C0G1H680J 82 ±5%0.8±0.10C1608CH1H820J C1608C0G1H820J 100 ±5%0.8±0.10C1608CH1H101J C1608C0G1H101J 120±5%0.8±0.10C1608CH1H121J C1608C0G1H121J 150 ±5%0.8±0.10C1608CH1H151J C1608C0G1H151J 180±5%0.8±0.10C1608CH1H181J C1608C0G1H181J 220 ±5%0.8±0.10C1608CH1H221J C1608C0G1H221J 270±5%0.8±0.10C1608CH1H271J C1608C0G1H271J 330 ±5%0.8±0.10C1608CH1H331J C1608C0G1H331J 390±5%0.8±0.10C1608CH1H391J C1608C0G1H391J 470 ±5%0.8±0.10C1608CH1H471J C1608C0G1H471J 560±5%0.8±0.10C1608CH1H561J C1608C0G1H561J 680 ±5%0.8±0.10C1608CH1H681J C1608C0G1H681J 820±5%0.8±0.10C1608CH1H821J C1608C0G1H821J 1,000 ±5%0.8±0.10C1608CH1H102J C1608C0G1H102J 1,500 ±5%0.8±0.10C1608CH1H152J C1608C0G1H152J 2,200 ±5%0.8±0.10C1608CH1H222J C1608C0G1H222J 3,300 ±5%0.8±0.10C1608CH1H332JC1608C0G1H332JCapacitance (pF)Tolerance Thickness T (mm)Part No.T emperature characteristics: SL 15,000±5%0.80±0.10C1608SL1A153J 22,000±5%0.80±0.10C1608SL1A223JCapacitance(pF)ToleranceThickness T (mm)Part No.T emperature characteristics: JB T emperature characteristics: X5R Temperature characteristics: X7R 10,000 ±10%0.8±0.10C1608JB1H103KC1608X5R1H103K C1608X7R1H103K15,000 ±10%0.8±0.10C1608JB1H153KC1608X5R1H153K C1608X7R1H153K 22,000 ±10%0.8±0.10C1608JB1H223K C1608X5R1H223K C1608X7R1H223K 33,000 ±10%0.8±0.10C1608JB1H333KC1608X5R1H333K C1608X7R1H333K 47,000 ±10%0.8±0.10C1608JB1H473KC1608X5R1H473K C1608X7R1H473K 68,000 ±10%0.8±0.10C1608JB1H683KC1608X5R1H683K C1608X7R1H683K 100,000±10%0.8±0.10C1608JB1H104K C1608X5R1H104K C1608X7R1H104K ±20%0.8±0.10C1608JB1H104MC1608X5R1H104MC1608X7R1H104MRATED VOLTAGE Edc: 16VTEMPERATURE CHARACTERISTICS: JB(±10%), X5R(±15%)RATED VOLTAGE Edc: 25VRATED VOLTAGE Edc: 16VRATED VOLTAGE Edc: 10VRATED VOLTAGE Edc: 6.3VTEMPERATURE CHARACTERISTICS: JF(+30, –80%), Y5V(+22, –82%)RATED VOLTAGE Edc: 50VT emperature characteristics: JB T emperature characteristics: X5R Temperature characteristics: X7R 150,000 ±10%0.8±0.10C1608JB1E154K C1608X5R1E154K C1608X7R1E154K ±20%0.8±0.10C1608JB1E154M C1608X5R1E154M C1608X7R1E154M 220,000 ±10%0.8±0.10C1608JB1E224K C1608X5R1E224K C1608X7R1E224K ±20%0.8±0.10C1608JB1E224M C1608X5R1E224M C1608X7R1E224M 330,000±10%0.8±0.10C1608JB1E334K C1608X5R1E334K C1608X7R1E334K ±20%0.8±0.10C1608JB1E334MC1608X5R1E334MC1608X7R1E334MCapacitance (pF)Tolerance Thickness T (mm)Part No.T emperature characteristics: JB T emperature characteristics: X5R Temperature characteristics: X7R 470,000 ±10%0.8+0.15, –0.1C1608JB1C474K C1608X5R1C474K C1608X7R1C474K ±20%0.8+0.15, –0.1C1608JB1C474M C1608X5R1C474M C1608X7R1C474M 680,000 ±10%0.8+0.15, –0.1C1608JB1C684K C1608X5R1C684K C1608X7R1C684K ±20%0.8+0.15, –0.1C1608JB1C684M C1608X5R1C684M C1608X7R1C684M 1,000,000±10%0.8+0.2, –0.1C1608JB1C105K C1608X5R1C105K C1608X7R1C105K ±20%0.8+0.2, –0.1C1608JB1C105MC1608X5R1C105MC1608X7R1C105MCapacitance (pF)Tolerance Thickness T (mm)Part No.T emperature characteristics: JB T emperature characteristics: X5R 470,000±10%0.80±0.10C1608JB1E474K C1608X5R1E474K ±20%0.80±0.10C1608JB1E474M C1608X5R1E474M 680,000±10%0.80±0.10C1608JB1E684K C1608X5R1E684K ±20%0.80±0.10C1608JB1E684M C1608X5R1E684M 1,000,000±10%0.80±0.10C1608JB1E105K C1608X5R1E105K ±20%0.80±0.10C1608JB1E105MC1608X5R1E105MCapacitance (pF)Tolerance Thickness T (mm)Part No.T emperature characteristics: JB T emperature characteristics: X5R 1,500,000 ±10%0.8±0.10C1608JB1C155K C1608X5R1C155K ±20%0.8±0.10C1608JB1C155M C1608X5R1C155M 2,200,000±10%0.8±0.10C1608JB1C225K C1608X5R1C225K ±20%0.8±0.10C1608JB1C225MC1608X5R1C225MCapacitance (pF)Tolerance Thickness T (mm)Part No.T emperature characteristics: JB T emperature characteristics: X5R 3,300,000 ±10%0.8±0.10C1608JB1A335K C1608X5R1A335K ±20%0.8±0.10C1608JB1A335M C1608X5R1A335M 4,700,000±10%0.8±0.10C1608JB1A475K C1608X5R1A475K ±20%0.8±0.10C1608JB1A475MC1608X5R1A475MCapacitance (pF)Tolerance Thickness T (mm)Part No.T emperature characteristics: JB T emperature characteristics: X5R 6,800,000 ±10%0.80+0.15,–0.10C1608JB0J685K C1608X5R0J685K ±20%0.80+0.15,–0.10C1608JB0J685M C1608X5R0J685M 10,000,000±10%0.80+0.15,–0.10C1608JB0J106K C1608X5R0J106K ±20%0.80+0.20,–0.10C1608JB0J106MC1608X5R0J106MCapacitance(pF)ToleranceThickness T (mm)Part No.T emperature characteristics: JF T emperature characteristics: Y5V 100,000 +80,–20%0.8±0.10C1608JF1H104Z C1608Y5V1H104Z 220,000 +80,–20%0.8±0.10C1608JF1H224Z C1608Y5V1H224Z 470,000 +80,–20%0.8±0.10C1608JF1H474ZC1608Y5V1H474ZRATED VOLTAGE Edc: 16V RATED VOLTAGE Edc: 6.3V T emperature characteristics: JF T emperature characteristics: Y5V1,000,000 +80,–20%0.8±0.10C1608JF1E105Z C1608Y5V1E105ZCapacitance (pF)ToleranceThickness T(mm)Part No.T emperature characteristics: JF T emperature characteristics: Y5V2,200,000 +80,–20%0.8±0.10C1608JF1C225Z C1608Y5V1C225ZCapacitance (pF)ToleranceThickness T(mm)Part No.T emperature characteristics: JF T emperature characteristics: Y5V4,700,000 +80,–20%0.8±0.10C1608JF0J475Z C1608Y5V0J475Z 10,000,000 +80,–20%0.8+0.15,–0.10C1608JF0J106Z C1608Y5V0J106Z • For more information about the products of other capacitance or data, please contact us.。

For Mid Voltage SMDFEATURES•The unique design structure for mid voltage enables a compact size with high voltage resistance.•Rated voltage Edc: 100, 250 and 630V.•C3225, C4532 and C5750 types are specific to reflow soldering. APPLICATIONSSnapper circuits for switching power supply, ringer circuits for tele-phone and modem, or other general high voltage circuits.Dimensions in mm PRODUCT IDENTIFICATION(1) Series name(2) Dimensions(3) Capacitance temperature characteristicsClass 1 (Temperature compensation)Class 2 (Temperature stable and general purpose)(4) Rated voltage Edc(5) Nominal capacitanceThe capacitance is expressed in three digit codes and in units of pico farads (pF).The first and second digits identify the first and second significant figures of the capacitance.The third digit identifies the multiplier.R designates a decimal point.(6) Capacitance tolerance(7) Packaging styleType L W TC1608 1.6±0.10.8±0.10.8±0.1 C2012 2.0±0.2 1.25±0.20.6±0.10.85±0.151.25±0.2 C3216 3.2±0.2 1.6±0.20.6±0.10.85±0.151.15±0.151.3±0.21.6±0.2 C3225 3.2±0.42.5±0.3 1.25±0.21.6±0.22.0±0.2 C4532 4.5±0.43.2±0.4 1.6±0.22.0±0.22.3±0.22.5±0.33.2±0.4 C5750 5.7±0.4 5.0±0.4 1.6±0.22.3±0.21608 1.6×0.8mm2012 2.0×1.25mm3216 3.2×1.6mm3225 3.2×2.5mm4532 4.5×3.2mm5750 5.7×5.0mmcharacteristicsCapacitance change Temperature range C0G0±30ppm/°C–55 to +125°CTemperaturecharacteristicsCapacitance change Temperature range X7R±15%–55 to +125°C2A100V2E250V2J630V1021000pF33333000pF474470000pFJ±5%K±10%M±20%T Taping (reel)B BulkC2012JB2E102K(1)(2)(3)(4)(5)(6)(7)For Mid Voltage SMDC1608 (EIA:CC0603) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:100VCapacitance (pF)ToleranceThickness(mm)Part No.100±10%0.8±0.1C1608C0G2E101K 120±5%0.8±0.1C1608C0G2E121J 150±10%0.8±0.1C1608C0G2E151K 180220±5%0.8±0.1C1608C0G2E221J ±10%0.8±0.1C1608C0G2E221K270±10%0.8±0.1C1608C0G2E271K 330±5%0.8±0.1C1608C0G2E331J 390±10%0.8±0.1C1608C0G2E391K 470560±5%0.8±0.1C1608C0G2E561J ±10%0.8±0.1C1608C0G2E561K680±10%0.8±0.1C1608C0G2E681KCapacitance (pF)ToleranceThickness(mm)Part No.100±5%0.8±0.1C1608C0G2A101J120±10%0.8±0.1C1608C0G2A121K150180±5%0.8±0.1C1608C0G2A181J ±10%0.8±0.1C1608C0G2A181K220±10%0.8±0.1C1608C0G2A221K 270±5%0.8±0.1C1608C0G2A271J330±10%0.8±0.1C1608C0G2A331K390470±5%0.8±0.1C1608C0G2A471J ±10%0.8±0.1C1608C0G2A471K560±10%0.8±0.1C1608C0G2A561K 680±5%0.8±0.1C1608C0G2A681J1000±10%0.8±0.1C1608C0G2A102K1200Capacitance(pF)ToleranceThickness(mm)Part No.1000±10%0.8±0.1C1608X7R2A102K±20%0.8±0.1C1608X7R2A102M1500±10%0.8±0.1C1608X7R2A152K±20%0.8±0.1C1608X7R2A152M2200±10%0.8±0.1C1608X7R2A222K±20%0.8±0.1C1608X7R2A222M3300±10%0.8±0.1C1608X7R2A332K±20%0.8±0.1C1608X7R2A332M4700±10%0.8±0.1C1608X7R2A472K±20%0.8±0.1C1608X7R2A472M6800±10%0.8±0.1C1608X7R2A682K±20%0.8±0.1C1608X7R2A682M10000±10%0.8±0.1C1608X7R2A103K±20%0.8±0.1C1608X7R2A103M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC2012 (EIA:CC0805) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:250VRATED VOLTAGE Edc: 100VCapacitance (pF)ToleranceThickness(mm)Part No.820±5%0.6±0.1C2012C0G2E821J ±10%0.6±0.1C2012C0G2E821K1000±10%0.8±0.1C2012C0G2E102K 1200±5%0.8±0.1C2012C0G2E122J1500±5%0.8±0.1C2012C0G2E152J ±10%0.8±0.1C2012C0G2E152K18002200±5% 1.25±0.2C2012C0G2E222J ±10% 1.25±0.2C2012C0G2E222K2700±10% 1.25±0.2C2012C0G2E272KCapacitance (pF)ToleranceThickness(mm)Part No.1000±5%0.6±0.1C2012C0G2A102J ±10%0.6±0.1C2012C0G2A102K1200±5%0.6±0.1C2012C0G2A122J ±10%0.6±0.1C2012C0G2A122K1500±5%0.6±0.1C2012C0G2A152J ±10%0.6±0.1C2012C0G2A152K1800±5%0.8±0.1C2012C0G2A182J ±10%0.8±0.1C2012C0G2A182K2200±5%0.8±0.1C2012C0G2A222J ±10%0.8±0.1C2012C0G2A222K2700±5% 1.25±0.2C2012C0G2A272J ±10% 1.25±0.2C2012C0G2A272K3300±5% 1.25±0.2C2012C0G2A332K ±10% 1.25±0.2C2012C0G2A332M3900±5% 1.25±0.2C2012C0G2A392K ±10% 1.25±0.2C2012C0G2A392M4700±5% 1.25±0.2C2012C0G2A472K±10% 1.25±0.2C2012C0G2A472MCapacitance(pF)ToleranceThickness(mm)Part No.1000±10%0.85±0.15C2012X7R2E102K±20%0.85±0.15C2012X7R2E102M1500±10%0.85±0.15C2012X7R2E152K±20%0.85±0.15C2012X7R2E152M2200±10%0.85±0.15C2012X7R2E222K±20%0.85±0.15C2012X7R2E222M3300±10%0.85±0.15C2012X7R2E332K±20%0.85±0.15C2012X7R2E332M4700±10%0.85±0.15C2012X7R2E472K±20%0.85±0.15C2012X7R2E472M6800±10% 1.25±0.2C2012X7R2E682K±20% 1.25±0.2C2012X7R2E682M10000±10% 1.25±0.2C2012X7R2E103K±20% 1.25±0.2C2012X7R2E103M15000±10% 1.25±0.2C2012X7R2E153K±20% 1.25±0.2C2012X7R2E153M22000±10% 1.25±0.2C2012X7R2E223K±20% 1.25±0.2C2012X7R2E223MCapacitance(pF)ToleranceThickness(mm)Part No.1000±10%0.85±0.15C2012X7R2A102K±20%0.85±0.15C2012X7R2A102M1500±10%0.85±0.15C2012X7R2A152K±20%0.85±0.15C2012X7R2A152M2200±10%0.85±0.15C2012X7R2A222K±20%0.85±0.15C2012X7R2A222M3300±10%0.85±0.15C2012X7R2A332K±20%0.85±0.15C2012X7R2A332M4700±10%0.85±0.15C2012X7R2A472K±20%0.85±0.15C2012X7R2A472M6800±10%0.85±0.15C2012X7R2A682K±20%0.85±0.15C2012X7R2A682M10000±10%0.85±0.15C2012X7R2A103K±20%0.85±0.15C2012X7R2A103M15000±10% 1.25±0.2C2012X7R2A153K±20% 1.25±0.2C2012X7R2A153M22000±10% 1.25±0.2C2012X7R2A223K±20% 1.25±0.2C2012X7R2A223M33000±10% 1.25±0.2C2012X7R2A333K±20% 1.25±0.2C2012X7R2A333M47000±10% 1.25±0.2C2012X7R2A473K±20%1.25±0.2C2012X7R2A473M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC3216 (EIA:CC1206) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250V RATED VOLTAGE Edc: 100VCAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250VCapacitance (pF)ToleranceThickness(mm)Part No.100±5%0.6±0.1C3216C0G2J101J ±10%0.6±0.1C3216C0G2J101K120±5%0.6±0.1C3216C0G2J121J ±10%0.6±0.1C3216C0G2J121K150±5%0.6±0.1C3216C0G2J151J ±10%0.6±0.1C3216C0G2J151K180±5%0.6±0.1C3216C0G2J181J ±10%0.6±0.1C3216C0G2J181K220±5%0.6±0.1C3216C0G2J221J ±10%0.6±0.1C3216C0G2J221K270±5%0.6±0.1C3216C0G2J271J ±10%0.6±0.1C3216C0G2J271K330±5%0.6±0.1C3216C0G2J331J ±10%0.6±0.1C3216C0G2J331K390±5%0.6±0.1C3216C0G2J391J ±10%0.6±0.1C3216C0G2J391K470±5%0.85±0.15C3216C0G2J471J ±10%0.85±0.15C3216C0G2J471K560±5%0.85±0.15C3216C0G2J561J ±10%0.85±0.15C3216C0G2J561K680±5%0.85±0.15C3216C0G2J681J ±10%0.85±0.15C3216C0G2J681K820±5%0.85±0.15C3216C0G2J821J ±10%0.85±0.15C3216C0G2J821K1000±5%0.85±0.15C3216C0G2J102J ±10%0.85±0.15C3216C0G2J102K1200±5%0.85±0.15C3216C0G2J122J ±10%0.85±0.15C3216C0G2J122K1500±5% 1.15±0.15C3216C0G2J152J ±10% 1.15±0.15C3216C0G2J152K1800±5% 1.15±0.15C3216C0G2J182J ±10% 1.15±0.15C3216C0G2J182K2200±5% 1.15±0.15C3216C0G2J222J ±10% 1.15±0.15C3216C0G2J222K2700±5% 1.6±0.2C3216C0G2J272J ±10% 1.6±0.2C3216C0G2J272K3300±5% 1.6±0.2C3216C0G2J332J ±10% 1.6±0.2C3216C0G2J332KCapacitance (pF)ToleranceThickness(mm)Part No.3300±5%0.85±0.15C3216C0G2E332J ±10%0.85±0.15C3216C0G2E332K3900±5% 1.15±0.15C3216C0G2E392J ±10% 1.15±0.15C3216C0G2E392K4700±5% 1.15±0.15C3216C0G2E472J ±10% 1.15±0.15C3216C0G2E472K5600±5% 1.15±0.15C3216C0G2E562J ±10% 1.15±0.15C3216C0G2E562K6800±5% 1.6±0.2C3216C0G2E682J ±10% 1.6±0.2C3216C0G2E682K8200±5% 1.6±0.2C3216C0G2E822J±10% 1.6±0.2C3216C0G2E822KCapacitance(pF)ToleranceThickness(mm)Part No.3900±5%0.6±0.1C3216C0G2A392J±10%0.6±0.1C3216C0G2A392K4700±5%0.85±0.15C3216C0G2A472J±10%0.85±0.15C3216C0G2A472K5600±5%0.85±0.15C3216C0G2A562J±10%0.85±0.15C3216C0G2A562K6800±5% 1.15±0.15C3216C0G2A682J±10% 1.15±0.15C3216C0G2A682K8200±5% 1.15±0.15C3216C0G2A822J±10% 1.15±0.15C3216C0G2A822K10000±5% 1.15±0.15C3216C0G2A103J±10% 1.15±0.15C3216C0G2A103KCapacitance(pF)ToleranceThickness(mm)Part No.1000±10% 1.15±0.15C3216X7R2J102K±20% 1.15±0.15C3216X7R2J102M1500±10% 1.15±0.15C3216X7R2J152K±20% 1.15±0.15C3216X7R2J152M2200±10% 1.15±0.15C3216X7R2J222K±20% 1.15±0.15C3216X7R2J222M3300±10% 1.15±0.15C3216X7R2J332K±20% 1.15±0.15C3216X7R2J332M4700±10% 1.15±0.15C3216X7R2J472K±20% 1.15±0.15C3216X7R2J472M6800±10% 1.15±0.15C3216X7R2J682K±20% 1.15±0.15C3216X7R2J682M10000±10% 1.15±0.15C3216X7R2J103K±20% 1.15±0.15C3216X7R2J103M15000±10% 1.3±0.2C3216X7R2J153K±20% 1.3±0.2C3216X7R2J153M22000±10% 1.3±0.2C3216X7R2J223K±20% 1.3±0.2C3216X7R2J223M33000±10% 1.6±0.2C3216X7R2J333K±20% 1.6±0.2C3216X7R2J333MCapacitance(pF)ToleranceThickness(mm)Part No.15000±10% 1.15±0.15C3216X7R2E153K1.15±0.1522000±10% 1.15±0.15C3216X7R2E223K±20% 1.15±0.15C3216X7R2E223M33000 1.6±0.2±20% 1.6±0.2C3216X7R2E333M47000±10% 1.6±0.2C3216X7R2E473K±20% 1.6±0.2C3216X7R2E473M68000 1.6±0.2±20% 1.6±0.2C3216X7R2E683M100000±10% 1.6±0.2C3216X7R2E104K1.6±0.2∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid VoltageSMDTEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc: 100VCapacitance (pF)ToleranceThickness(mm)Part No.33000±10% 1.15±0.15C3216X7R2A333K1.15±0.1547000±10% 1.15±0.15C3216X7R2A473K ±20% 1.15±0.15C3216X7R2A473M68000 1.6±0.2±20% 1.6±0.2C3216X7R2A683M100000±10% 1.6±0.2C3216X7R2A104K1.6±0.2150000 1.6±0.2±20% 1.6±0.2C3216X7R2A154M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC3225 (EIA:CC1210) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:630VRATED VOLTAGE Edc:250VRATED VOLTAGE Edc:100VCapacitance (pF)ToleranceThickness(mm)Part No.3900±5% 1.25±0.2C3225C0G2J392J ±10% 1.25±0.2C3225C0G2J392K4700±5% 1.6±0.2C3225C0G2J472J ±10% 1.6±0.2C3225C0G2J472K5600±5% 1.6±0.2C3225C0G2J562J ±10% 1.6±0.2C3225C0G2J562K6800±5% 2.0±0.2C3225C0G2J682J ±10% 2.0±0.2C3225C0G2J682KCapacitance (pF)ToleranceThickness(mm)Part No.10000±5% 1.6±0.2C3225C0G2E103J ±10% 1.6±0.2C3225C0G2E103K15000±5% 2.0±0.2C3225C0G2E153J ±10% 2.0±0.2C3225C0G2E153KCapacitance (pF)ToleranceThickness(mm)Part No.15000±5% 1.25±0.2C3225C0G2A153J ±10% 1.25±0.2C3225C0G2A153K22000±5% 1.6±0.2C3225C0G2A223J ±10% 1.6±0.2C3225C0G2A223K33000±5% 2.0±0.2C3225C0G2A333J±10% 2.0±0.2C3225C0G2A333KCapacitance(pF)ToleranceThickness(mm)Part No.47000±10% 2.0±0.2C3225X7R2J473K±20% 2.0±0.2C3225X7R2J473M68000±10% 2.0±0.2C3225X7R2J683K±20% 2.0±0.2C3225X7R2J683MCapacitance(pF)ToleranceThickness(mm)Part No.100000±10% 2.0±0.2C3225X7R2E104K±20% 2.0±0.2C3225X7R2E104M150000±10% 2.0±0.2C3225X7R2E154K±20% 2.0±0.2C3225X7R2E154M220000±10% 2.0±0.2C3225X7R2E224K±20% 2.0±0.2C3225X7R2E224MCapacitance(pF)ToleranceThickness(mm)Part No.330000±10% 2.0±0.2C3225X7R2A334K±20% 2.0±0.2C3225X7R2A334M470000±10% 2.0±0.2C3225X7R2A474K±20% 2.0±0.2C3225X7R2A474M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,please contact us.For Mid Voltage SMDC4532 (EIA:CC1812) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:630VRATED VOLTAGE Edc:250VRATED VOLTAGE Edc:100VCapacitance (pF)ToleranceThickness(mm)Part No.8200±10% 1.6±0.2C4532C0G2J822K 10000±5% 1.6±0.2C4532C0G2J103J15000±10% 2.5±0.3C4532C0G2J153K22000Capacitance (pF)ToleranceThickness(mm)Part No.22000±5% 1.6±0.2C4532C0G2E223J ±10% 1.6±0.2C4532C0G2E223K33000±10% 2.0±0.2C4532C0G2E333K 47000±5% 3.2±0.3C4532C0G2E473JCapacitance (pF)ToleranceThickness(mm)Part No.47000±10% 2.0±0.2C4532C0G2A473K 68000100000±5% 3.2±0.4C4532C0G2A104J±10% 3.2±0.4C4532C0G2A104KCapacitance(pF)ToleranceThickness(mm)Part No.68000±10% 1.6±0.2C4532X7R2J683K±20% 1.6±0.2C4532X7R2J683M100000±10% 2.3±0.2C4532X7R2J104K±20% 2.3±0.2C4532X7R2J104MCapacitance(pF)ToleranceThickness(mm)Part No.150000±10% 1.6±0.2C4532X7R2E154K±20% 1.6±0.2C4532X7R2E154M220000±10% 2.3±0.2C4532X7R2E224K±20% 2.3±0.2C4532X7R2E224M330000±10% 2.3±0.2C4532X7R2E334K±20% 2.3±0.2C4532X7R2E334M470000±10% 2.3±0.2C4532X7R2E474K±20% 2.3±0.2C4532X7R2E474MCapacitance(pF)ToleranceThickness(mm)Part No.680000±10% 2.3±0.2C4532X7R2A684K±20% 2.3±0.2C4532X7R2A684M1000000[1µF]±10% 2.3±0.2C4532X7R2A105K±20% 2.3±0.2C4532X7R2A105M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC5750 (EIA:CC2220) TYPE CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%)RATED VOLTAGE Edc:630VRATED VOLTAGE Edc:250VRATED VOLTAGE Edc:100VCapacitance (pF)Tolerance Thickness (mm)Part No.150000±10% 1.6±0.2C5750X7R2J154K ±20% 1.6±0.2C5750X7R2J154M 220000±10% 2.3±0.2C5750X7R2J224K ±20%2.3±0.2C5750X7R2J224MCapacitance (pF)Tolerance Thickness (mm)Part No.330000±10% 1.6±0.2C5750X7R2E334K ±20% 1.6±0.2C5750X7R2E334M 470000±10% 2.3±0.2C5750X7R2E474K ±20% 2.3±0.2C5750X7R2E474M 680000±10% 2.3±0.2C5750X7R2E684K ±20% 2.3±0.2C5750X7R2E684M 1000000[1µF]±10% 2.3±0.2C5750X7R2E105K ±20%2.3±0.2C5750X7R2E105MCapacitance (pF)Tolerance Thickness (mm)Part No.680000±10% 1.6±0.2C5750X7R2A684K ±20% 1.6±0.2C5750X7R2A684M 1000000[1µF]±10% 2.3±0.2C5750X7R2A105K ±20% 2.3±0.2C5750X7R2A105M 1500000[1.5µF]±10% 2.3±0.2C5750X7R2A155K ±20% 2.3±0.2C5750X7R2A155M 2200000[2.2µF]±10% 2.3±0.2C5750X7R2A225K ±20%2.3±0.2C5750X7R2A225M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data, please contact us.。

16089C16089A16089B16089C16089A 16089B16089DKeysight 16089A, B, C, D Kelvin/Alligator Clip LeadsOperation andService ManualNotices© Keysight Technologies 1991-2015 No part of this manual may be reproduced in any form or by any means (including electronic storage and retrieval or translation into a foreign language) without prior agreement and written consent from Keysight Technologies as governed by United States and international copyright laws.Manual Printing HistoryThe manual’s printing date and part number indicate its current edition. The printing date changes when a new edition is printed (minor corrections and updates that are incorporated at reprint do not cause the date to change). The manual part number changes when extensive technical changes are incorporated. November 1991 Edition 1 January 2000 Edition 2April 2001 Edition 3November 2002 Edition 4July 2010 Edition 5 (part number: 16089-90020)May 2015 Edition 6 (part number: 16089-90030)Manual Part Number16089-90030EditionEdition 6, May 2015Printed in MalaysiaPublished byKeysight TechnologiesInternational Japan G.K,1-3-3 Higashikawasaki-choChuo-kuKobe-shi, Hyogo, JapanWarrantyTHE MATERIAL CONTAINED IN THISDOCUMENT IS PROVIDED “AS IS,”AND IS SUBJECT TO BEINGCHANGED, WITHOUT NOTICE, INFUTURE EDITIONS. FURTHER, TO THEMAXIMUM EXTENT PERMITTED BYAPPLICABLE LAW, KEYSIGHTDISCLAIMS ALL WARRANTIES,EITHER EXPRESS OR IMPLIED WITHREGARD TO THIS MANUAL AND ANYINFORMATION CONTAINED HEREIN,INCLUDING BUT NOT LIMITED TO THEIMPLIED WARRANTIES OFMERCHANTABILITY AND FITNESSFOR A PARTICULAR PURPOSE.KEYSIGHT SHALL NOT BE LIABLE FORERRORS OR FOR INCIDENTAL ORCONSEQUENTIAL DAMAGES INCONNECTION WITH THEFURNISHING, USE, ORPERFORMANCE OF THIS DOCUMENTOR ANY INFORMATION CONTAINEDHEREIN. SHOULD KEYSIGHT AND THEUSER HAVE A SEPARATE WRITTENAGREEMENT WITH WARRANTYTERMS COVERING THE MATERIAL INTHIS DOCUMENT THAT CONFLICTWITH THESE TERMS, THE WARRANTYTERMS IN THE SEPARATEAGREEMENT WILL CONTROL.Technology LicensesThe hardware and/or softwaredescribed in this document arefurnished under a license and may beused or copied only in accordancewith the terms of such license.Restricted Rights LegendIf software is for use in theperformance of a U.S. Governmentprime contract or subcontract,Software is delivered and licensed as“Commercial computer software” asdefined in DFAR 252.227-7014 (June1995), or as a “commercial item” asdefined in FAR 2.101(a) or as“Restricted computer software” asdefined in FAR 52.227-19 (June 1987)or any equivalent agency regulation orcontract clause. Use, duplication ordisclosure of Software is subject toKeysight Technologies’ standardcommercial license terms, andnon-DOD Departments and Agenciesof the U.S. Government will receive nogreater than Restricted Rights asdefined in FAR 52.227-19(c)(1-2)(June 1987). U.S. Government userswill receive no greater than LimitedRights as defined in FAR 52.227-14(June 1987) or DFAR 252.227-7015(b)(2) (November 1995), as applicablein any technical data.Safety NoticesCAUTIONA CAUTION notice denotes a hazard. Itcalls attention to an operatingprocedure, practice, or the like that, ifnot correctly performed or adhered to,could result in damage to the productor loss of important data. Do notproceed beyond a CAUTION noticeuntil the indicated conditions are fullyunderstood and met.WARNINGA WARNING notice denotes a hazard.It calls attention to an operatingprocedure, practice, or the like that, ifnot correctly performed or adhered to,could result in personal injury ordeath. Do not proceed beyond aWARNING notice until the indicatedconditions are fully understood andmet.Safety SummaryThe following general safety precautions must be observed during all phases ofoperation, service, and repair of this instrument. Failure to comply with theseprecautions or with specific WARNINGS given elsewhere in this manual mayimpair the protection provided by the equipment. Such noncompliance wouldalso violate safety standards of design, manufacture, and intended use of theinstrument. Keysight Technologies assumes no liability for the customer’sfailure to comply with these precautions.• DO NOT Operate In An Explosive AtmosphereDo not operate the instrument in the presence of inflammable gasses or fumes.Operation of any electrical instrument in such an environment constitutes asafety hazard.• Keep Away from Live CircuitsOperating personnel must not remove instrument covers. Componentreplacement and internal adjustments must be made by qualified maintenancepersonnel. Do not replace components with the power cable connected. Undercertain conditions, dangerous voltage levels may remain even after the powercable has been disconnected. To avoid injuries, always disconnect the powerand discharge circuits before touching them.• DO NOT Service or Adjust the Instrument AloneDo not attempt internal service or adjustment unless another person, capableof rendering first aid and resuscitation, is present.• DO NOT Substitute Parts or Modify the Instrument.To avoid the danger of introducing additional hazards, do not install substituteparts or perform unauthorized modifications to the instrument. Return theinstrument to a Keysight Technologies Sales and Service Office for service andrepair to ensure that safety features are maintained in operational condition.• Dangerous Procedure Warnings.Warning, such as the example below, precede potentially dangerousprocedures throughput this manual. Instructions contained in the warningsmust be followed.WARNING Dangerous voltages level, capable of causing death, are present in this instrument. Use extreme caution when handling, testing, and adjusting this instrument.CertificationKeysight Technologies certifies that this product met its publishedspecifications at the time of shipment from the factory. Keysight Technologiesfurther certifies that its calibration measurements are traceable to the UnitedStates National Institute of Standards and Technology, to the extent allowed bythe Institution’s calibration facility, or to the calibration facilities of otherInternational Standards Organization members.WarrantyThis Keysight Technologies instrument product is warranted against defects inmaterial and workmanship for a period of one year from the date of shipment,except that in the case of certain components listed in InstrumentSpecifications of this manual, the warranty shall be for the specified period.During the warranty period, Keysight Technologies will, at its option, eitherrepair or replace products which prove to be defective.For warranty service or repair, this product must be returned to a service facilitydesignated by Keysight Technologies. The Buyer shall prepay shipping chargesto Keysight Technologies and Keysight Technologies shall pay shippingcharges to return the product to the Buyer. However, the Buyer shall pay allshipping charges, duties, and taxes for products returned to KeysightTechnologies from another country.Keysight Technologies warrants that its software and firmware designated byKeysight Technologies for use with an instrument will execute its programminginstruction when property installed on that instrument. Keysight Technologiesdoes not warrant that the operation of the instrument, or software, or firmwarewill be uninterrupted or error free.Limitation of WarrantyThe foregoing warranty shall not apply to defects resulting from improper orinadequate maintenance by the Buyer, Buyer- supplied software or interfacing,unauthorized modification or misuse, operation outside of the environmentalspecifications for the product, or improper site preparation or maintenance.No other warranty is expressed or implied. Keysight Technologies specificallydisclaims the implied warranties of merchantability and fitness for a particularpurpose.Exclusive RemediesThe remedies provided herein are Buyer’s sole and exclusive remedies. KeysightTechnologies shall not be liable for any direct, indirect, special, incidental, orconsequential damages, whether based on contract, tort, or any other legaltheory.AssistanceProduct maintenance agreements and other customer assistance agreementsare available for Keysight Technologies products.For any assistance, contact your nearest Keysight Technologies Sales andService Office.Safety SymbolsGeneral definitions of safety symbols used on the instrument or in manuals.Instruction Manual symbol: the product is marked with this symbolwhen it is necessary for the user to refer to the instrument manual inorder to protect against damage to the instrument.Alternating current.Direct current.On (Supply).Off (Supply).In-position of push-button switch.Out-position of push-button switch.A chassis terminal: a connection to the instrument’s chassis, whichincludes all exposed metal structure.Standby.Contents 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .General InformationIntroduction 9Using the 16089A, B, C, D 9Product Description 10Accessories Supplied 10Operating and Safety Precautions 11Operating 11Service 11Specifications 12Common Specifications for the 16089A, B, C, D 12Specifications for the 16089A, B, C 12Specifications for the 16089D 12Supplemental Performance Characteristics 13Supplemental Performance Characteristics of 16089A 13Supplemental Performance Characteristics of 16089B 13Supplemental Performance Characteristics of 16089C 13Supplemental Performance Characteristics of 16089D 132 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Preparation for UseIntroduction 15Initial Inspection 15Ambient Environmental Considerations 20Operating and Storage 20Connecting the Test Leads for Use 20Packaging the Test Leads 203 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . OperationIntroduction 21Test Leads Features 2116089A, B, C 2116089D 22OPEN and SHORT Compensation 23ContentsOperation 244 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ServiceIntroduction 25Replaceable Parts 2516089A Replaceable Parts 2616089B Replaceable Parts 2616089C Replaceable Parts 2716089D Replaceable Parts 28Introduction16089A, B, C, D Operation and Service Manual1General InformationIntroductionThe purpose of this manual is to enable you to use your Keysight 16089A, B, C,Kelvin Clip Leads and Keysight 16089D Alligator Clip Leads efficiently andconfidently. This manual contains both general and specific information. Touse the 16089A, B, C, D to perform a specific function (without having to readthe entire manual), follow the directions in "Using the 16089A, B, C, D". Using the 16089A, B, C, DThe 16089A, B, C, D has been designed to operate specifically with the LCRMeter.•To install the 16089A, B, C, D, turn to Chapter 2.•To operate the 16089A, B, C, D, turn to Chapter 3.•To order replaceable parts for the 16089A, B, C, D, turn to "ReplaceableParts" in Chapter 4.Product DescriptionProduct DescriptionThe 16089A, B, C, D has been designed to operate specifically with thefollowing four-terminal-pair type LCR meters and impedance analyzers.The 16089A, B, C, D make it possible to measure odd-shaped components thatcannot be measured with conventional test fixtures. The 16089A, 16089B, and16089C consist of a direct attachment, four-terminal-pair type test leads thatare equipped with two insulated Kelvin clips. Three sizes of Kelvin clips areprovided. The 16089A Kelvin Clip Leads is equipped with two large Kelvin clips,the 16089B Kelvin Clip Leads is equipped with middle size clips and the16089C Kelvin Clip Leads is equipped with small size clips. The 16089D consistof a direct attachment, four-terminal-pair type test leads that are equippedwith four alligator clips.Accessories SuppliedThe following accessories are supplied with the 16089A, B, C, D:Table 1-1 Furnished AccessoriesDescription Part Number QuantityOperation and Service Manual This manual1Operating and Safety PrecautionsOperating and Safety PrecautionsOperatingYou need to observe only normal precautions in handling and operating the16089A, B, C, D. Do not exceed the operating input power, voltage, andcurrent level and signal type appropriate for the instrument being used, refer toyour instrument's operation manual.CAUTION Electrostatic discharge (ESD) can damage the highly sensitive microcircuits in yourinstrument. ESD damage is most likely to occur as the test leads are being connected ordisconnected. Protect them from ESD damage by wearing a grounding strap that providesa high resistance path to ground. Alternatively, ground yourself to discharge any staticcharge built-up by touching the outer shell of any grounded instrument chassis beforetouching the test port connectors.Never touch the test clip contacts.Use a work station equipped with an anti-static work surface.ServiceThe voltage levels found in these test leads when used with the intendedinstruments do not warrant more than normal safety precautions for operatorsafety. Nevertheless, service should be performed only by qualified personnel.SpecificationsSpecificationsThis section lists the complete 16089A, B, C, D specifications. Thesespecifications are the performance standards and limits against which the 16089A, B, C, D is tested. When shipped from the factory, the 16089A, B, C, D meets the following specifications:Common Specifications for the 16089A, B, C, DSpecifications for the 16089A, B, CSpecifications for the 16089DMaximum dc Bias Voltage ±42V peak max Frequency Range 5 Hz to 100 kHz Operating Temperature 0 to 55°COperating Humidity ≤95% RH (@40°C) Non-operating Temperature – 40 to 70°C Non-operating Humidity ≤95% RH (@40°C)Weight300 gCable length0.94mCable length1.3mSupplemental Performance CharacteristicsThis section gives supplemental performance characteristics. Supplemental performance characteristics are not specifications, but are typical characteristics included as additional information for the operator. Supplemental performance characteristics are not guaranteed.Supplemental Performance Characteristics of 16089ASupplemental Performance Characteristics of 16089BSupplemental Performance Characteristics of 16089CSupplemental Performance Characteristics of 16089DApplicable DUT sizeDiameter of DUT’s terminals≤15mmApplicable DUT sizeDiameter of DUT’s terminals ≤7.9mm Length of DUT’s terminals≥3mmApplicable DUT sizeDiameter of DUT’s terminals ≤1mm Space between DUT’s terminals ≥2mm Length of DUT’s terminals≥2mmApplicable DUT sizeDiameter of DUT’s terminals≤5mmIntroduction16089A, B, C, D Operation and Service Manual2Preparation for UseIntroductionThis chapter explains how to install the Keysight 16089A, B, C Kelvin ClipLeads and Keysight 16089D Alligator Clip Leads. The topics covered includeinitial inspection, ambient environmental considerations, connecting the testleads for use, and repackaging the test leads for shipment.Initial InspectionThese test leads have been carefully inspected electrically and mechanicallybefore being shipped from the factory. They should be in perfect physicalcondition, no scratches, dents or the like. They should also be in perfectelectrical condition. Verify this by carefully performing an incoming inspectionto check the test lead set for signs of physical damage and missing contents.Ifany discrepancy is found, notify the carrier and Keysight Technologies. YourKeysight Technologies sales office will arrange for repair and replacementwithout waiting for the claim to be settled•Inspect the shipping container for damage. Keep the shipping materialsuntil the inspection is completed.•Verify that the shipping container contains everything shown in Figure 2-1, Figure 2-2, Figure 2-3, and Figure 2-4 and listed in Table 2-1, Table 2-2,Table 2-3, and Table 2-4•Inspect the exterior of the 16089A, B, C, D for any signs of damage.16089AFigure 2-116089A Product Overview1 Keysight internal-only part number.2 Operation and Service Manual is not shown in Figure 2-1.Table 2-1 Contents of 16089A Description Keysight Part Number QuantityKelvin Clip Leads16089-6000111Operation and Service Manual 216089-900301.16089BFigure 2-216089B Product Overview1 Keysight internal-only part number.2 Operation and Service Manual is not shown in Figure 2-2.Table 2-2 Contents of 16089B Description Keysight Part Number QuantityKelvin Clip Leads16089-6000211Operation and Service Manual 216089-90030116089CFigure 2-316089C Product Overview1 Keysight internal-only part number.2 Operation and Service Manual is not shown in Figure 2-3.Table 2-3 Contents of 16089C Description Keysight Part Number QuantityKelvin Clip Leads16089-6000311Operation and Service Manual 216089-900301Initial Inspection16089DFigure 2-416089D Product Overview1 Keysight internal-only part number.2 Operation and Service Manual is not shown in Figure 2-4.Table 2-4 Contents of 16089D Description Keysight Part Number QuantityKelvin Clip Leads16089-6000411Operation and Service Manual 216089-900301.Ambient Environmental ConsiderationsAmbient Environmental ConsiderationsOperating and StorageThe 16089A, B, C, D must be operated within an ambient temperature range of0°C to 55°C and relative humidity up to 95% at 40°C (non-condensing).The 16089A, B, C, D may be stored within a temperature range of -40°C to+70°C, and at a relative humidity of up to 95% at +40°C (non-condensing). Connecting the Test Leads for UseFigure 2-5 Connecting the Test LeadsPackaging the Test LeadsIf shipment to a Keysight Technologies service center is required, each testlead set should be repackaged using the original factory packaging materials.Alternatively, comparable packaging materials may be used. Wrap the testleads in heavy paper and pack in anti-static plastic packing material. Usesufficient shock absorbing material on all sides of the 16089A, B, C, D toprovide a thick, firm cushion and to prevent movement. Seal the shippingcontainer securely and mark it FRAGILE..Introduction16089A, B, C, D Operation and Service Manual3OperationIntroductionThis chapter describes using the test leads and compensation techniques forthese test leads.Test Leads Features16089A, B, CFigure 3-1 16089A, B, C Test Leads Features1.Kelvin Clips. These are connected to the DUT.2.Four-terminal-pair BNC terminals. These terminals are connected to theUNKNOWN terminals of your measurement instrument.Test Leads Features16089DFigure 3-2 16089D Test Leads Features1.Alligator Clips (red). These are connected to the high terminal of the DUT.2.Alligator Clips (black). These are connected to the low terminal of the DUT.3.V markers. These show the H pot and L pot terminals.4.Four-terminal-pair BNC terminals. These terminals are connected to theUNKNOWN terminals of your instrument.OPEN and SHORT CompensationThe 16089A, B, C, D have inherent stray capacitance, residual inductance, andresidual resistance that affect the measurement. To cancel the effects causedby these residuals and thus minimize their effect on measurement accuracy,the measurement instrument's OPEN and SHORT compensation capabilitiesmust be used. The procedures are described in the measurement instrument'soperation manual.Figure 3-3 Making a Short Condition for the 16089B and 16089CWhen you perform SHORT compensation for the 16089A or 16089D, use thefurnished short bar as shown in Figure 3-4.Figure 3-4 Making a Short Condition for the 16089A and 16089DNOTE If the furnished short bar of 16089A or 16089D is corroded, worn or damaged, reverse the position or replace it with a new short bar. To reverse the short bar, remove the 2 screwsthat fixes the short bar and reverse the position.OperationStep-by-step instructions on how to make a measurement with the 16089A, B,C, D are:1.Set the Cable Length setting according to the LCR meter/ ImpedanceAnalyzer operation manuals.2.Connect the test leads of 16089A, B, C, D to the measurement instrument'sUNKNOWN terminals.3.Perform OPEN and SHORT compensation as described in the measurementinstrument's operation manual. Figure 3-3 and Figure 3-4 show how tomake short condition for the SHORT compensation.4.Connect the component to be tested into the test clips.NOTE When 16089D is used, connect the test clips to the DUT correctly as follows:•Connect all test clips to the DUT.•Connect the same color test clips to the same terminal of the DUT.•Connect the H pot and L pot clips (marked “V") closer to the DUT than H cur and L cur clips.Figure 3-5 also shows how to connect a DUT using the alligator clips of the16089D. Figure 3-5 Connecting the DUT to the16089DIntroduction16089A, B, C, D Operation and Service Manual4ServiceIntroductionThis chapter gives replaceable parts information for the 16089A, 16089B,16089C and 16089D.Replaceable PartsTable 4-1,Table 4-2, Table 4-3 and Table 4-4 list the replaceable parts for the16089A, B, C, and D, respectively. Figure 4-1 shows the connection from thecable to the clip assembly of the 16089C. The parts listed can be ordered fromyour nearest Keysight Technologies office. Ordering information should includethe Keysight part number and the quantity required.1 The whole unit. Keysight internal-only part.Red and orange cables are screwed on the one Kelvin clip assembly. Gray and black cables are screwed on the other Kelvin clip assembly. Orange and gray cables are marked “V”.16089B Replaceable Parts1 The whole unit. Keysight internal-only part.On one Kelvin clip, the orange cable is screwed on the “V” marked side, and the red cable is screwed on the non-marked side. On the other Kelvin clip, the gray cable is screwed on the “V” marked side, and the black cable is screwed on the non-marked side.Table 4-116089A Replaceable Parts Keysight Part Number Quantity Description16089-600011Test Leads 116089-040011Cover Top0515-09142Screw Flat Head M3X0.5 L616089-600112Large Clip Assembly 7121-26962Wire Marker “V”16089-012011Short Bar 0515-15502ScrewTable 4-216089B Replaceable Parts Keysight Part Number Quantity Description16089-600021Test Leads 116089-040021Cover Top0515-09142Screw Flat Head M3X0.5 L616005-600102Kelvin Clip Assembly.* Corresponding to designator in Figure 4-1.1 The whole unit. Keysight internal-only part.Connection from the cables to the Kelvin clip is shown in Figure 4-1.Figure 4-1Kelvin Clip ConnectionsTable 4-316089C Replaceable PartsReference Designator*Keysight Part Number Quantity Description16089-600031Test Lead 116089-040031Cover Top0515-09142Screw Flat Head M3X0.5 L6116005-600131Test Clip Assembly Red 16005-600151Test Clip Assembly Black 20890-1809 2 cm Tube Heat Shrinkable Red 0890-18082 cmTube Heat Shrinkable Black1 The whole unit. Keysight internal-only part.Table 4-5 shows the correspondence between the Alligator Clips and the Cables.Table 4-416089D Replaceable Parts Keysight Part Number Quantity Description16089-600041Test Leads 116089-040041Cover Top0515-09142Screw Flat Head M3X0.5 L60340-10852Insulator Alligator Clip Red 0340-10861Insulator Alligator Clip Black 1400-12524Alligator Clip 7121-26962Wire Marker “V”16089-012011Short Bar 0515-15502ScrewTable 4-5Clip and Cable Correspondence Alligator Clip Color Cable Color Marker Red Orange “V”Red Red Black Gray “V”BlackBlackThis information is subject to change without notice.© Keysight Technologies 1991, 2000, 2001, 2002, 2010, 2015Edition 6, May 2015*16089-90030*16089C16089A16089B16089C16089A 16089B16089D。

Tubular Vitreous EnamelledGeneral NoteWelwyn Components reserves the right to make changes in product specification without notice or liability.All information is subject to Welwyn’s own data, relates to current manufacture and is considered accurate at time of going to print. A subsidiary ofTT electronics plcTerminationsStyles B, 4B, AP and AW are available in all 13 tube sizes. Styles C, CB and CP are available in sizes 1601 to 1609 inclusive, 1906 and 1908Lugs (Figure 2): Pb free solder coated nickel iron. Denoted by prefix B to size reference, thus B1602Pigtails (Figure 3): 14/.193 mm copper, 150 mm minimum length. Denoted by prefix AP, thus AP1602Rigid wires (Figure 4): 1.2 mm diameter tinned copper, 32 mm minimum length.Denoted by prefix AW, thus: AW1602Lugs with screws, nuts and washers (Figure 5): Nickel plated brass screws and nuts. Denoted by prefix 4B, thus: 4B1602.Ferrule, electrically isolated (Figure 6) Connection to resistor via Pb free solder coated nickle iron lugs. Denoted by prefix CB, thus: CB1602.Ferrule, electrically live (Figure 7) Nickel plated brass. Denoted by prefix C, thus: C1602.Ferrule, electrically isolated (Figure 8): Connection to resistor via pigtails of 14/.193 mm copper, 150mm minimum length. Denoted by prefix CP thus: CP1602 Marking The resistors are legend marked with type reference, resistance value, tolerance and manufacturing date code. Value marking conforms to IEC 62.Solvent resistance: The vitreous coating and marking are resistant to all accepted industrial cleaning fluids.Resistance range (ohms)Min. for Min. for Max. for styles VC,all other all styles VCP styles43 1.6k43 2.5k66 3.0k88 5.3k66 4.5k11107.5k 1198.1k 141313.2k 171615.4k 252425.5k*Maximum total dissipation assumes that this will beevenly spread over the total element length.The recommended dissipations for each of the resistor hot spot temperatures applies to resistors mounted horizontally. If the bore is completely blocked a 15% derating is recommended. However, wherever possible, resistors should be mounted vertically with unobstructed bore.This makes best use of the chimney effect of the heated tube and will encourage a cooling stream of air through the bore. Allowances must be made, when tubular resistors are mounted in banks, for the effects produced by radiation between tubes. Appreciable reduction of hot spot temperature can be achieved by arranging that resistors are subjected to some measure of forced draught. In general, it is most efficient to extract air from the resistor enclosure and arrange that an air inlet is adjacent to the bottom of the tubes.If soft soldered connections are used the resistors should be derated where applicable to limit the hot spot temperature to 300°C.。

SPECIFICATIONSIout Iout Part Max.Min.NumberVin Nom.Input Range Vout (mA)(mA)Effi(Typ.)CTDD1906S-0505S-15VDC 4.75-5.25VDC 5VDC 1501572%CTDD1906S-0509S-15VDC 4.75-5.25VDC 9VDC 1111275%CTDD1906S-0512S-15VDC 4.75-5.25VDC 12VDC 83978%CTDD1906S-0515S-15VDC 4.75-5.25VDC 15VDC 67778%CTDD1906S-1205S-112VDC 11.4-12.6VDC 5VDC 1501573%CTDD1906S-1209S-112VDC 11.4-12.6VDC 9VDC 1111276%CTDD1906S-1212S-112VDC 11.4-12.6VDC 12VDC 83979%CTDD1906S-1215S-112VDC 11.4-12.6VDC 15VDC 67779%CTDD1906S-2405S-124VDC 22.8-25.2VDC 5VDC 1501576%CTDD1906S-2409S-124VDC 22.8-25.2VDC 9VDC 1111278%CTDD1906S-2412S-124VDC 22.8-25.2VDC 12VDC 83979%CTDD1906S-2415S-124VDC22.8-25.2VDC15VDC67779%ISOLATION SPECIFICATIONSItem Test Condition MIN TYPMAXUnits Isolation Voltage T ested for 1 minute 1000VDC Isolation ResistanceT est at 500VDC1000M ΩOUTPUT SPECIFICATIONSItem Test Condition MIN TYPMAX Units Output Power 0.11W Line regulation For Vin change of 1%0.25%Load regulation 10% to 100% full load 1%Output voltage accuracy Rated input, 100% full load 3%3%3%3%T emperature drift 100% full load0.03%/°C Output ripple & noise 20Hz-300KHz bandwidth 50100mVp-p Switching frequencyFull load, nominal input100KHzCTDD1906S-S SeriesFixed Input Isolated & Regulated 1W Output, Single OutputNot shown at actual size.FEATURESEfficiency :T o 79%Temperature Range:-40°C to 85°C Isolation:1KVDC Package:UL94-V0Miscellaneous:Single Output Voltage.Fixed Input Voltage.Regulated Output Voltage.No heatsink required.No external components required.Industry standard pinout.Pin compatible with MSB series.Small footprint.Custom service available.Samples available.Short Circuit Protection: 1 secondTemperature Rise at Full Load:25°C Max.15°C T yp.Cooling:Free air convectionOperating Temperature Range:-40°C to +85°C Storage Temperature Range:-55°C to +125°CLead Temperature:300°C (1.5mm from case for 10 seconds)Storage Humidity Range:<95%Case Material:Plastic (UL94-V0)MTBF:>1,000,000 hoursNote:1.All specifications measured at T A=25°C, humidity<75%, nominal input voltage and rated output unless otherwise specified.TYPICAL CHARACTERISTICS120806040200-400407185120Ambient Temperature (°C)O u t p u t P o w e r (%)100Safe Operating AreaOUTLINE DIMENSIONS & RECOMMENDED FOOTPRINT DETAILS19.60CTDD1906S-S PackageSide ViewBottom ViewCTDD1906S-S Footprint10.004.1011.252.00 2.54Note:All pins on a 2.54mm pitch;all pin diameters are 0.50mm;all dimensions in mm.2.5412.706.0024612ø1.00+0.15/-046PIN CONNECTIONS12461246Pin Function Vin GND 0V +VoCTDD1906S-D SeriesFixed Input Isolated &Regulated1W Output, Single Output。

SPECIFICATIONSVin Vin Voltage Io Io Effi.Part Nom.Range Out Max.Min.Typ.Number(VDC)(VDC)(VDC)(mA)(mA)(%)CTDD1906SF-0505-D1K-15 4.5-5.5±5±100±1072CTDD1906SF-0509-D1K-15 4.5-5.5±9±56±675CTDD1906SF-0512-D1K-15 4.5-5.5±12±42±578CTDD1906SF-0515-D1K-15 4.5-5.5±15±33±479CTDD1906SF-1205-D1K-11210.8-13.2±5±100±1074CTDD1906SF-1209-D1K-11210.8-13.2±9±56±676CTDD1906SF-1212-D1K-11210.8-13.2±12±42±579CTDD1906SF-1215-D1K-11210.8-13.2±15±33±480CTDD1906SF-2405-D1K-12421.6-26.4±5±100±1074CTDD1906SF-2409-D1K-12421.6-26.4±9±56±676CTDD1906SF-2412-D1K-12421.6-26.4±12±42±580CTDD1906SF-2415-D1K-12421.6-26.4±15±33±481ISOLATION SPECIFICATIONSItem Test Condition MIN TYPMAXUnits Isolation Voltage T ested for 1 minute 1000VDC Isolation ResistanceT est at 500VDC1000M ΩOUTPUT SPECIFICATIONSItem Test ConditionMIN TYPMAX Units Output Power 0.11W Line regulation For Vin change of 1% 1.2%Load regulation 10% to 100% full load1015%Output voltage accuracy See tolerance envelope graphT emperature drift 100% full load 0.03%/°C Output ripple 20MHz Bandwidth 5075mVp-p Switching frequencyFull load, nominal input100KHzCTDD1906SF-D1K-1 SeriesFixed Input Isolated & Unregulated1W Output, Dual OutputNot shown at actual size.FEATURESEfficiency :T o 80%Temperature Range:-40°C to +85°C Isolation:1KVDC Package:UL94-V0Miscellaneous:Positive & Negative Voltage Output.No heat sink required.No external components required.Industry standard pinout.Small Footprint.SIP package style.Power Density 0.85W/cm³.Low Cost.Samples available.Short Circuit Protection: 1 secondTemperature Rise at Full Load:25°C Max.15°C T yp.Cooling:Free air convectionOperating Temperature Range:-40°C to +85°C Storage Temperature Range:-55°C to +125°CLead Temperature:300°C (1.5mm from case for 10 seconds)Storage Humidity Range:<95%Case Material:Plastic (UL94-V0)MTBF:>3,500,000 hoursMiscellaneous:RoHS Compliant.Note:1.All specifications measured at T A=25°C, humidity<75%, nominal input voltage and rated output unless otherwise specified.TYPICAL CHARACTERISTICS+10%Tolerance Envelope Graph Temperature Derating GraphSafe Operating Area10%50%100%Output Current(%)+2.5%1206040200-4004080Ambient Temperature(°C)O u t p u t P o w e r (%)80100-2.5%-7.5%T y p i cal L o a dL i n e+5%Nominal VoltageO u t p u t V o l t a g e (%)RoHSCompliantOUTLINE DIMENSIONS & RECOMMENDED FOOTPRINT DETAILS19.6010.00 4.10S ide ViewCTDD1906S F-D1K-1 P a ck a ge1 2 4 5 6 6.001.252.0012.701.00ø+0.15/-02.542.54Note: All Pin s on a 2.54m pitch; a ll pin di a meter s a re 0.50mm; a ll dimen s ion s in mm.CTDD1906S F-D1K-1 Footprint12465Bottom ViewPIN CONNECTIONS12Pin F u nction 12456Vin GND -Vo 0V +Vo456CTDD1906SF-D1K-1 SeriesFixed Input Isolated &Unregulated1W Output, Dual Output。

AMC1204EVMUser's GuideSBAU178–August2010AMC1204EVM This user's guide describes the characteristics,operation,and use of the AMC1204EVM.TheAMC1204EVM is designed for prototyping and evaluation.A complete circuit description,schematicdiagram,and bill of materials are included.The following related documents are available through the Texas Instruments web site at .Contents1AMC1204EVM Overview (2)1.1Features (2)1.2Introduction (2)2Analog Interface (2)2.1Analog Inputs (2)3Digital Interface (3)4Power-Supplies (4)5EVM Set-up and Operation (4)5.1Isolated Power and Analog Inputs:J1and J4 (4)5.2Device Operation (5)6BOM,Schematic,and Layout (5)6.1Schematic (5)6.2Printed Circuit Board Layout (5)6.3Bill of Materials (6)All trademarks are the property of their respective owners.1 SBAU178–August2010AMC1204EVMCopyright©2010,Texas Instruments IncorporatedIN+IN -ISOGND AMC1204EVM Overview 1AMC1204EVM Overview 1.1FeaturesAMC1204EVM:•Full-featured evaluation module for the AMC1204single-channel,ΔΣmodulator•9-pin sub-D connector for interfacing to the AMC1210digital filter evaluation module •Screw terminals for easy access to analog inputs1.2IntroductionThe AMC1204is a 1-bit modulator with an output buffer separated from the input interface circuitry by a silicon dioxide (SiO 2)isolation barrier.The isolation barrier provides galvanic isolation of up to 4000V PEAK .When used in combination with the AMC1210or other digital filter,the AMC1204can be used to achieve 16-bit analog-to-digital (A/D)conversion with no missing codes.For use in high-resolution measurement applications,an effective accuracy of 14bits can be obtained with a digital filter bandwidth of 20kHz at a modulator rate of 10MHz.Throughout this document,the abbreviation EVM and the term evaluation module are synonymous with the AMC1204EVM.2Analog InterfaceThe analog input to the AMC1204is routed from a two-wire screw terminal screw at J4.This screw terminal gives the user access to the inverting and noninverting inputs of the AMC1204.2.1Analog InputsThe analog input to the AMC1204EVM board consists of simple R/C filter circuits.The input circuit for the AMC1204is shown in Figure 1.Figure 1.AMC1204EVM Schematic:Analog Input Section2AMC1204EVMSBAU178–August 2010Copyright ©2010,Texas Instruments IncorporatedJ2W1W2 Digital Interface3Digital InterfaceThe AMC1204EVM is designed for use with digital filters such as the AMC1210.The output and power for the AMC1204are routed to a 9-pin,female D-type connector.Both the analog and digital power for the AMC1204,as well as the modulator data and clock outputs from the device under test,are routed to J2,as Figure 2illustrates.Figure 2.Power and Digital OutputsConnector J3and jumpers W1and W2can be used to connect up to two AMC1204EVMs together,providing power,CLKIN,and DATA signals to the AMC1210filter chip using a single 9-pin,female,D-type connector.3SBAU178–August 2010AMC1204EVM Copyright ©2010,Texas Instruments IncorporatedPower-Supplies 4Power-SuppliesJ2provides access to the +5VA for the V DD 2supply.All power to the board should be sourced from a well-regulated,linear supply that has current limiting capabilities.Power is to be applied through J2.Table 1describes the pinout for J2.Table 1.J2:Power Supply and Digital OutputsSignal Pin NumberSignalGround12Not used 4.5to 5.5V DD 2supply34Not usedGround 56Optional CLKIN output CLKIN default 78DATA defaultOptional DATA output9For standalone operation,power sources can also be applied via a mating connector to J2,and the digital output data stream can be wired directly to an FPGA or other digital filter module for further processing.Refer to Figure 2or the schematic appended to the end of this document for additional details.5EVM Set-up and OperationThis section describes the general operation of the AMC1204EVM.5.1Isolated Power and Analog Inputs:J1and J4The isolated power input to the AMC1204EVM printed circuit board (PCB)can be applied directly to J1,pins 1and 2.Table 2lists the details of J1.Table 2.J1:Isolated PowerPin NumberSignal DescriptionJ1.1ISOGND Connection to the AMC1204GND1pin J1.25V ISOConnection to the AMC1204VDD1terminalThe analog input to the AMC1204EVM PCB can be applied directly to J4pins 1and 2.Table 3lists the details of J4.Table 3.J4:Analog InputsPin NumberSignal DescriptionJ4.1CHA+Noninverting analog input to the AMC1204J4.2CHA–Inverting input to the AMC12044AMC1204EVMSBAU178–August 2010Copyright ©2010,Texas Instruments Incorporated BOM,Schematic,and Layout 5.2Device OperationOnce the analog and digital power sources are applied to the AMC1204EVM,the digital outputs become active upon the application of an external modulator clock source.The internal reference of the AMC1204 is used as the conversion reference.Additionally,an analog input signal may be applied directly at screw terminal J1.See Figure1and Table3 for more details.The analog input range,(VIN+)–(VIN–),is±320mV.As the input voltage approaches the maximum input level of+320mV,the1s density of the modulatoroutput approaches92%.Likewise,when the input voltage approaches the lower limit of–320mV,the1s density is approximately8%.6BOM,Schematic,and LayoutThis section contains the complete bill of materials,schematic diagram,and PCB layout for theAMC1204EVM.NOTE:Board layouts are not to scale.These are intended to show how the board is laid out;theyare not intended to be used for manufacturing AMC1204EVM PCBs.6.1SchematicThe AMC1204EVM schematic is appended to this document.6.2Printed Circuit Board LayoutFigure3.AMC1204EVM Silk Screen Drawing5 SBAU178–August2010AMC1204EVMCopyright©2010,Texas Instruments IncorporatedBOM,Schematic,and Layout 6.3Bill of MaterialsTable4.AMC1204EVM Bill of MaterialsReference Designator Description Manufacturer Mfr Part Number C1,C6Capacitor,ceramic0.10m F50V X7R10%0603TDK C1608X7R1H104KC2,C7Capacitor,ceramic4.7m F25V X5R0805TDK C2012X5R1E475KC3Capacitor,ceramic330pF50V C0G5%0603TDK C1608C0G1H331JC4,C5Capacitor,ceramic10pF50V C0G0603TDK C1608C0G1H100DD1Not installed——J1,J4Terminal block3.5mm2-pos PCB On Shore ED555/2DSJ2Connector,DB-9female solder cup tin Norcomp172-009-202R001J34-pin,single row header Samtec TSW-104-07-L-SR1,R2Resistor,12.0Ω1/10W1%0603SMD Yageo RC0603FR-0712RLR3Resistor,0..0Ω1/10W5%0603SMD Yageo RC0603JR-070RL W1,W2Not installed,solder short pins1and2——U1IC Delta-Sigma Mod1bit8-SOP TI AMC1204DW6AMC1204EVM SBAU178–August2010Copyright©2010,Texas Instruments IncorporatedEvaluation Board/Kit Important NoticeTexas Instruments(TI)provides the enclosed product(s)under the following conditions:This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT,DEMONSTRATION,OR EVALUATION PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use.Persons handling the product(s)must have electronics training and observe good engineering practice standards.As such,the goods being provided are not intended to be complete in terms of required design-,marketing-,and/or manufacturing-related protective considerations, including product safety and environmental measures typically found in end products that incorporate such semiconductor components or circuit boards.This evaluation board/kit does not fall within the scope of the European Union directives regarding electromagnetic compatibility,restricted substances(RoHS),recycling(WEEE),FCC,CE or UL,and therefore may not meet the technical requirements of these directives or other related directives.Should this evaluation board/kit not meet the specifications indicated in the User’s Guide,the board/kit may be returned within30 days from the date of delivery for a full refund.THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY SELLER TO BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES,EXPRESSED,IMPLIED,OR STATUTORY,INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE.The user assumes all responsibility and liability for proper and safe handling of the goods.Further,the user indemnifies TI from all claims arising from the handling or use of the goods.Due to the open construction of the product,it is the user’s responsibility to take any and all appropriate precautions with regard to electrostatic discharge.EXCEPT TO THE EXTENT OF THE INDEMNITY SET FORTH ABOVE,NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY INDIRECT,SPECIAL,INCIDENTAL,OR CONSEQUENTIAL DAMAGES.TI currently deals with a variety of customers for products,and therefore our arrangement with the user is not exclusive.TI assumes no liability for applications assistance,customer product design,software performance,or infringement of patents or services described herein.Please read the User’s Guide and,specifically,the Warnings and Restrictions notice in the User’s Guide prior to handling the product.This notice contains important safety information about temperatures and voltages.For additional information on TI’s environmental and/or safety programs,please contact the TI application engineer or visit /esh.No license is granted under any patent right or other intellectual property right of TI covering or relating to any machine,process,or combination in which such TI products or services might be or are used.FCC WarningThis evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT,DEMONSTRATION,OR EVALUATION PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use.It generates,uses,and can radiate radio frequency energy and has not been tested for compliance with the limits of computing devices pursuant to part15 of FCC rules,which are designed to provide reasonable protection against radio frequency interference.Operation of this equipment in other environments may cause interference with radio communications,in which case the user at his own expense will be required to take whatever measures may be required to correct this interference.EVM Warnings and RestrictionsIt is important to operate this EVM within the input voltage range of0V to5V and the output voltage range of0V to5V.Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM.If there are questions concerning the input range,please contact a TI field representative prior to connecting the input power.Applying loads outside of the specified output range may result in unintended operation and/or possible permanent damage to the EVM.Please consult the EVM User's Guide prior to connecting any load to the EVM output.If there is uncertainty as to the load specification,please contact a TI field representative.During normal operation,some circuit components may have case temperatures greater than+30°C.The EVM is designed to operate properly with certain components above+30°C as long as the input and output ranges are maintained.These components include but are not limited to linear regulators,switching transistors,pass transistors,and current sense resistors.These types of devices can be identified using the EVM schematic located in the EVM User's Guide.When placing measurement probes near these devices during operation,please be aware that these devices may be very warm to the touch.Mailing Address:Texas Instruments,Post Office Box655303,Dallas,Texas75265Copyright©2010,Texas Instruments IncorporatedIMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,modifications,enhancements,improvements, and other changes to its products and services at any time and to discontinue any product or service without notice.Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty.Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty.Except where mandated by government requirements,testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design.Customers are responsible for their products and applications using TI components.To minimize the risks associated with customer products and applications,customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license,either express or implied,is granted under any TI patent right,copyright,mask work right, or other TI intellectual property right relating to any combination,machine,or process in which TI products or services are rmation published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement e of such information may require a license from a third party under the patents or other intellectual property of the third party,or a license from TI under the patents or other intellectual property of TI.Reproduction of TI information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties,conditions,limitations,and notices.Reproduction of this information with alteration is an unfair and deceptive business practice.TI is not responsible or liable for such altered rmation of third parties may be subject to additional restrictions.Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice.TI is not responsible or liable for any such statements.TI products are not authorized for use in safety-critical applications(such as life support)where a failure of the TI product would reasonably be expected to cause severe personal injury or death,unless officers of the parties have executed an agreement specifically governing such use.Buyers represent that they have all necessary expertise in the safety and regulatory ramifications of their applications,and acknowledge and agree that they are solely responsible for all legal,regulatory and safety-related requirements concerning their products and any use of TI products in such safety-critical applications,notwithstanding any applications-related information or support that may be provided by TI.Further,Buyers must fully indemnify TI and its representatives against any damages arising out of the use of TI products in such safety-critical applications.TI products are neither designed nor intended for use in military/aerospace applications or environments unless the TI products are specifically designated by TI as military-grade or"enhanced plastic."Only products designated by TI as military-grade meet military specifications.Buyers acknowledge and agree that any such use of TI products which TI has not designated as military-grade is solely at the Buyer's risk,and that they are solely responsible for compliance with all legal and regulatory requirements in connection with such use. TI products are neither designed nor intended for use in automotive applications or environments unless the specific TI products are designated by TI as compliant with ISO/TS16949requirements.Buyers acknowledge and agree that,if they use any non-designated products in automotive applications,TI will not be responsible for any failure to meet such requirements.Following are URLs where you can obtain information on other Texas Instruments products and application solutions:Products ApplicationsAmplifiers Audio /audioData Converters Automotive /automotiveDLP®Products Communications and /communicationsTelecomDSP Computers and /computersPeripheralsClocks and Timers /clocks Consumer Electronics /consumer-appsInterface Energy /energyLogic Industrial /industrialPower Mgmt Medical /medicalMicrocontrollers Security /securityRFID Space,Avionics&/space-avionics-defenseDefenseRF/IF and ZigBee®Solutions /lprf Video and Imaging /videoWireless /wireless-appsMailing Address:Texas Instruments,Post Office Box655303,Dallas,Texas75265Copyright©2010,Texas Instruments IncorporatedAMC1204EVM。

1/26XC6101_07_XC6111_17 ETR0207_009Preliminary◆CMOS Voltage Detector◆Manual Reset Input ◆Watchdog Functions ◆Built-in Delay Circuit ◆Detect Voltage Range: 1.6~5.0V, ± 2% ◆Reset Function is Selectable V DFL (Low When Detected) V DFH (High When Detected)■GENERAL DESCRIPTION The XC6101~XC6107, XC6111~XC6117 series aregroups of high-precision, low current consumption voltage detectors with manual reset input function and watchdog functions incorporating CMOS process technology. The series consist of a reference voltage source, delay circuit, comparator, and output driver.With the built-in delay circuit, the XC6101 ~ XC6107, XC6111 ~ XC6117 series’ ICs do not require any external components to output signals with release delay time. Moreover, with the manual reset function, reset can be asserted at any time. The ICs produce two types of output; V DFL (low when detected) and V DFH (high when detected).With the XC6101 ~ XC6105, XC6111 ~ XC6115 series’ ICs, the WD pin can be left open if the watchdog function is not used. Whenever the watchdog pin is opened, the internal counter clears before the watchdog timeout occurs. Since the manual reset pin is internally pulled up to the V IN pin voltage level, the ICs can be used with the manual reset pin left unconnected if the pin is unused.The detect voltages are internally fixed 1.6V ~ 5.0V in increments of 100mV, using laser trimming technology. Six watchdog timeout period settings are available in a range from 6.25msec to 1.6sec. Seven release delay time 1 are available in a range from 3.13msec to 1.6sec.■APPLICATIONS●Microprocessor reset circuits●Memory battery backup circuits ●System power-on reset circuits ●Power failure detection■TYPICAL APPLICATION CIRCUIT* Not necessary with CMOS output products.■FEATURESDetect Voltage Range: 1.6V ~ 5.0V, +2% (100mV increments)Hysteresis Range : V DF x 5%, TYP .(XC6101~XC6107)V DF x 0.1%, TYP .(XC6111~XC6117)Operating Voltage Range : 1.0V ~ 6.0V Detect Voltage Temperature Characteristics : +100ppm/O C (TYP .) Output Configuration : N-channel open drain,CMOSWatchdog Pin : Watchdog inputIf watchdog input maintains ‘H’ or ‘L’ within the watchdog timeout period, a reset signal is output to the RESET output pinManual Reset Pin : When driven ‘H’ to ‘L’levelsignal, the MRB pin voltage asserts forced reset on theoutput pin.Release Delay Time : 1.6sec, 400msec, 200msec,100msec, 50msec, 25msec, 3.13msec (TYP .) can be selectable.Watchdog Timeout Period : 1.6sec, 400msec, 200msec,100msec, 50msec,6.25msec (TYP .) can be selectable.■TYPICAL PERFORMANCE CHARACTERISTICS ●Supply Current vs. Input Voltage* ‘x’ represents both ‘0’ and ‘1’. (ex. XC61x1⇒XC6101 and XC6111)2/26XC6101~XC6107, XC6111~XC6117 SeriesPIN NUMBERXC6101, XC6102 XC6103 XC6104, XC6105XC6106, XC6107XC6111, XC6112 XC6113 XC6114, XC6115XC6116, XC6117SOT-25 USP-6C SOT-25 USP-6C SOT-25 USP-6C SOT-25USP-6CPIN NAMEFUNCTION1 4 - - 1 4 1 4 R ESETB Reset Output(V DFL : Low Level When Detected)2 5 2 5 2 5 2 5 V SSGround3 2 3 2 - -4 1 M RB ManualReset 4 1 4 1 4 1 - - WDWatchdog5 6 5 6 5 6 5 6 V IN Power Input - - 1 4 3 2 3 2 RESETReset Output (V DFH: High Level When Detected)■PIN CONFIGURATION SOT-25 (TOP VIEW)MRBV IN WD RESETBV SSMRBWD RESETV SSV IN RESETWD RESETBV SS V IN SOT-25 (TOP VIEW)RESETMRB RESETBV SS V IN SOT-25 (TOP VIEW) ■PIN ASSIGNMENT●SOT-25XC6101, XC6102 SeriesXC6111, XC6112 SeriesSOT-25 (TOP VIEW)XC6103 & XC6113 SeriesXC6104, XC6105 Series XC6114, XC6115 SeriesXC6106, XC6107 Series XC6116, XC6117 Series●USP-6CXC6101, XC6102 Series XC6111, XC6112 SeriesXC6103 & XC6113 SeriesXC6104, XC6105 Series XC6114, XC6115 SeriesXC6106, XC6107 Series XC6116, XC6117 SeriesUSP-6C (BOTTOM VIEW)USP-6C (BOTTOM VIEW)USP-6C (BOTTOM VIEW)USP-6C (BOTTOM VIEW)* The dissipation pad for the USP-6C package should be solder-plated in recommended mount pattern and metal masking so as to enhance mounting strength and heat release. If the pad needs to be connected to other pins, it should be connected to the V SS pin.3/26XC6101 ~ XC6107, XC6111~ XC6117SeriesRESET OUTPUTSERIES WATCHDOGMANUAL RESET V DFL (RESETB)V DFH (RESET)XC6101 XC6111 Available Available CMOS - XC6102XC6112AvailableAvailableN-channel open drain-XC6103 XC6113 Available Available - CMOS XC6104 XC6114 Available Not AvailableCMOS CMOS XC6105 XC6115 Available Not Available N-channel open drain CMOS XC6106 XC6116 Not Available AvailableCMOSCMOS XC6107XC6117Not AvailableAvailableN-channel open drainCMOSDESIGNATORDESCRIPTIONSYMBOLDESCRIPTION0 : V DF x 5% (TYP .) with hysteresis ① Hysteresis Range1 : V DF x 0.1% (TYP .) without hysteresis② Functions and Type of Reset Output1 ~ 7: Watchdog and manual functions, and reset output type as per Selection Guide in the above chartA : 3.13msec (TYP .)B : 25msec (TYP .) C: 50msec (TYP .) D : 100msec (TYP .) E : 200msec (TYP .) F : 400msec (TYP .) ③ Release Delay Time * H : 1.6sec (TYP .)0 : No WD timeout period forXC6106, XC6107, XC6116, XC6117 Series 1: 6.25msec (TYP .) 2 : 50msec (TYP .) 3 : 100msec (TYP .) 4 : 200msec (TYP .) 5 : 400msec (TYP .) ④ Watchdog Timeout Period6: 1.6sec (TYP .) ⑤⑥ Detect Voltage 16 ~ 50: Detect voltageex.) 4.5V: ⑤⇒4, ⑥⇒5M : SOT-25 ⑦ Package E : USP-6C R : Embossed tape, standard feed ⑧ Device OrientationL: Embossed tape, reverse feed* Please set the release delay time shorter than or equal to the watchdog timeout period. ex.) XC6101D427MR or XC6101D327MR■PRODUCT CLASSIFICATION ●Selection Guide ●Ordering Information XC61①②③④⑤⑥⑦⑧4/26XC6101~XC6107, XC6111~XC6117 Series■PACKAGING INFORMATION●SOT-25●USP-6C5/26XC6101 ~ XC6107, XC6111~ XC6117Series④ Represents production lot number0 to 9 and A to Z and inverted 0 to 9 and A to Z repeated. (G, I, J, O, Q, W expected.) * ‘X’ represents both ‘0’ and ‘1’. (ex. XC61X1⇒XC6101 and XC6111)■MARKING RULE●SOT-25①②③④SOT-25 (TOP VIEW)6/26XC6101~XC6107, XC6111~XC6117 Series① Represents product series② Represents release delay time MARK RELEASE DELAY TIME PRODUCT SERIES A 3.13msec XC61XxAxxxxx B 25msec XC61XxBxxxxx C 50msec XC61XxCxxxxx D 100msec XC61XxDxxxxx E 200msec XC61XxExxxxx F 400msec XC61XxFxxxxx H 1.6sec XC61XxHxxxxx③ Represents watchdog timeout period MARK WATCHDOG TIMEOUT PERIOD PRODUCT SERIES 0 XC61X6, XC61X7 series XC61Xxx0xxxx 1 6.25msec XC61Xxx1xxxx 2 50msec XC61Xxx2xxxx 3 100msec XC61Xxx3xxxx 4 200msec XC61Xxx4xxxx 5 400msec XC61Xxx5xxxx 6 1.6sec XC61Xxx6xxxx④⑤ Represents detect voltage MARK④ ⑤DETECT VOLTAGE (V)PRODUCT SERIES3 3 3.3 XC61Xxxx33xx 5 0 5.0XC61Xxxx50xx⑥ Represents production lot number0 to 9 and A to Z repeated. (G, I, J, O, Q, W excepted.)* No character inversion used. ** ‘X’ represents both ‘0’ and ‘1’. (ex. XC61X1⇒XC6101 and XC6111)MARK PRODUCT SERIES MARK PRODUCT SERIES 3 XC6101xxxxxx 8 XC6111xxxxxx 4 XC6102xxxxxx 9 XC6112xxxxxx 5 XC6103xxxxxx A XC6113xxxxxx 6 XC6104xxxxxx B XC6114xxxxxx 7 XC6105xxxxxx C XC6115xxxxxx 3 XC6106xxxxxx 8 XC6116xxxxxx 4 XC6107xxxxxx 9 XC6117xxxxxx■MARKING RULE (Continued)●USP-6CUSP-6C (TOP VIEW)7/26XC6101 ~ XC6107, XC6111~ XC6117Series■BLOCK DIAGRAMS●XC6101, XC6111 Series●XC6102, XC6112 Series●XC6103, XC6113 Series8/26XC6101~XC6107, XC6111~XC6117 Series■BLOCK DIAGRAMS (Continued)●XC6107, XC6117 Series●XC6106, XC6116 Series●XC6105, XC6115 Series●XC6104, XC6114 Series9/26XC6101 ~ XC6107, XC6111~ XC6117SeriesPARAMETERSYMBOL RATINGSUNITSV INV SS -0.3 ~ 7.0 VM RBV SS -0.3 ~ V IN +0.3 VInput Voltage WD V SS -0.3 ~ 7.0V Output Current I OUT 20 mACMOS Output RESETB/RESET V SS -0.3 ~ V IN +0.3Output Voltage N-ch Open Drain Output RESETB V SS -0.3 ~ 7.0VSOT-25 250Power Dissipation USP-6C Pd 100mWOperational Temperature Range Topr -40 ~ +85 OCStorage Temperature Range Tstg -40 ~ +125 OC■ABSOLUTE MAXIMUM RATINGSTa = 25O C10/26XC6101~XC6107, XC6111~XC6117 SeriesNOTE:*1: XC6101~XC6107 (with hysteresis) *2: XC6111~XC6117 (without hysteresis)*3: ‘X’ represents both ‘0’ and ‘1’. (ex. XC61X1⇒XC6101 and XC6111) *4: V DF(T): Setting detect voltage*5: If only “V DF ” is indicated, it represents both V DFL (low when detected) and V DFH (high when detected).PARAMETERSYMBOLCONDITIONSMIN.TYP .MAX. UNITS CIRCUITDetect Voltage V DFL V DFHV DF(T)× 0.98V DF(T) V DF(T)× 1.02 V 1 Hysteresis Range XC6101~XC6107 (*1) V HYS V DF × 0.02V DF × 0.05 V DF× 0.08 V 1Hysteresis Range XC6111~XC6117 (*2) V HYS 0 V DF × 0.001 V DFx 0.01V 1V IN =V DF(T)×0.9V - 5 11 V IN =V DF(T)×1.1V- 10 16 XC61X1/XC61X2/XC61X3XC61X4/XC61X5 (*3)(The MRB & the WD Pin: No connection) V IN =6.0V - 1218 V IN =V DF(T)×0.9V - 4 10 V IN =V DF(T)×1.1V - 8 14 Supply Current I SS XC61X6/XC61X7 (*3)(The MRB Pin: No connection)V IN = 6.0V - 1016 µA 2Operating Voltage V IN 1.0 - 6.0 V 1VIN = 1.0V 0.15 0.5 -V IN =2.0V (V DFL(T)> 2.0V) 2.0 2.5 - V IN =3.0V (V DFL(T) >3.0V) 3.0 3.5 -N-ch.V DS = 0.5V V IN =4.0V (V DFL(T) >4.0V) 3.5 4.0 - 3 V DFL Output Current (RESETB) I RBOUTCMOS,P-chV DS = 0.5V V IN = 6.0V - - 1.1 -0.8 mA 4 N-chV DS = 0.5VV IN =6.0V 4.4 4.9 - 3V IN =1.0V - - 0.08 - 0.02 V IN =2.0V (V DFH(T)> 2.0V)- - 0.50 - 0.30 V IN =3.0V (V DFH(T)>3.0V)- - 0.75 - 0.55V DFHOutput Current (RESET) I ROUT P-ch. V DS = 0.5V V IN =4.0V (V DFH(T)>4.0V)- - 0.95 - 0.75 mA 4Temperature Characteristics △V DF / △Topr ・V DF -40OC < Topr < 85 O C - +100 - ppm / O C12 3.13 5 13 25 3825 50 75 60 100 140 120 200 280 240 400 560Release Delay Time(V DF <1.8V)T DR Time until V IN is increased from1.0V to2.0Vand attains to the release time level,and the Reset output pin inverts.960 1600 2240 ms 5 2 3.13 5 13 25 38 25 50 7560 100 140 120 200 280 240 400 560 Release Delay Time(V DF >1.9V)T DRTime until V IN is increased from1.0V to (V DF x1.1V) and attains to the releasetime level,and the Reset output pin inverts. 960 1600 2240ms 5 Detect Delay Time T DFTime until V IN is decreased from 6.0V to 1.0V and attains to the detect voltage level, and the Reset output pin detectswhile the WD pin left opened.- 3 30 µs 5V DFL /V DFH CMOS Output Leak CurrentI LEAK V IN =6.0V, RESETB=6.0V (V DFL ) V IN =6.0V, RESET=0V (V DFH )- 0.01 - µA 3V DFL N-ch Open DrainOutput Leak CurrentI LEAKV IN =6.0V, RESETB=6.0V-0.010.10µA 3■ELECTRICAL CHARACTERISTICS●XC6101~XC6107, XC6111~XC6117 SeriesTa = 25O CSeriesPARAMETERSYMBOL CONDITIONS MIN.TYP . MAX. UNITS CIRCUIT3.13 6.25 9.38 25 50 7560 100 140 120 200 280240 400 560 Watchdog Timeout Period (V DF <1.8V)T WDTime until V IN increases form1.0V to2.0V andthe Reset output pin is released to go into the detection state. (WD=V SS )960 1600 2240 ms 6 3.13 6.25 9.38 25 50 75 60 100 140 120 200 280240 400 560 Watchdog Timeout Period (V DF >1.9V)T WDTime until V IN increases form1.0V to (V DF x1.1V)and the Reset output pin is released to go into the detection state. (WD=V SS )960 1600 2240 ms 6 WatchdogMinimum Pulse Width T WDIN V IN =6.0V,Apply pulse from 6.0V to 0Vto the WD pin. 300 - - ns 7 Watchdog High Level VoltageV WDH V IN =V DF x 1.1V ~ 6.0V V IN x 0.7- 6 V 7 Watchdog Low Level Voltage V WDL V IN =V DF x 1.1V ~ 6.0V0 - V IN x 0.3 V 7 V IN =6.0V, V WD =6.0V (Avg. when peak )- 12 19Watchdog Input Current I WD V IN =6.0V, V WD =0V (Avg. when peak) - 19 -12 -µA 8 Watchdog Input ResistanceR WDV IN =6.0V, V WD =0V, R WD =V IN / |I WD |315500880k Ω8PARAMETERSYMBOL CONDITIONS MIN.TYP . MAX.UNITS CIRCUITMRBHigh Level VoltageV MRH V IN =V DF x1.1V ~ 6.0V 1.4 - V IN 9MRBLow Level VoltageV MRL V IN =V DF x1.1V ~ 6.0V-0.35 V9MRBPull-up Resistance R MR V IN =6.0V, MRB=0V, R MR =V IN / |I MRB | 1.6 2.4 3.0 M Ω 10 MRB Minimum Pulse Width (*3) XC6101~XC6105 XC6111~XC6115 T MRINV IN =6.0V,Apply pulse from 6.0V to 0V tothe MRB pin 2.8 - -MRB Minimum Pulse Width (*4) XC6106, XC6107 XC6116, XC6117T MRIN V IN =6.0V,Apply pulse from 6.0V to 0V tothe MRB pin1.2 - -µs11●XC6101 ~ XC6103, XC6106 ~ XC6107, XC6111 ~ XC6113, XC6116 ~ XC6117 Series NOTE:*1: V DF(T): Setting detect voltage *2: If only “V DF ” is indicated, it represents both V DFL (low when detected) and V DFH (high when detected). *3: Watchdog function is available. *4: Watchdog function is not available.Ta = 25O CTa = 25O C ■ELECTRICAL CHARACTERISTICS (Continued)●XC6101~XC6105, XC6111~XC6115 Series■OPERATIONAL EXPLANATIONThe XC6101~XC6107, XC6111~XC6117 series compare, using the error amplifier, the voltage of the internal voltage reference source with the voltage divided by R1, R2 and R3 connected to the V IN pin. The resulting output signal from the error amplifier activates the watchdog logic, manual reset logic, delay circuit and the output driver. When the V IN pin voltage gradually falls and finally reaches the detect voltage, the RESETB pin output goes from high to low in the case of the V DFL type ICs, and the RESET pin output goes from low to high in the case of the V DFH type ICs.<RESETB / RESET Pin Output Signal>* V DFL (RESETB) type - output signal: Low when detected.The RESETB pin output goes from high to low whenever the V IN pin voltage falls below the detect voltage, or whenever the MRB pin is driven from high to low. The RESETB pin remains low for the release delay time (T DR) after the V IN pin voltage reaches the release voltage. If neither rising nor falling signals are applied to the WD pin within the watchdog timeout period, the RESETB pin output remains low for the release delay time (T DR), and thereafter the RESET pin outputs high level signal. * V DFH (RESET) type – output signal: High when detected.The RESET pin output goes from low to high whenever the V IN pin voltage falls below the detect voltage, or whenever the MRB pin is driven from high to low. The RESET pin remains high for the release delay time (T DR) after the V IN pin voltage reaches the release voltage. If neither rising nor falling signals are applied to the WD pin within the watchdog timeout period, the V OUT pin output remains high for the release delay time (T DR), and thereafter the RESET pin outputs low level signal.<Hysteresis>When the internal comparator output is high, the NMOS transistor connected in parallel to R3 is turned ON, activating the hysteresis circuit. The difference between the release and detect voltages represents the hysteresis range, as shown by the following calculations:V DF (detect voltage) = (R1+R2+R3) x Vref(R2+R3)V DR (release voltage) = (R1+R2) x Vref(R2)V HYS (hysteresis range)=V DR-V DF (V)V DR > V DF* Detect voltage (V DF) includes conditions of both V DFL (low when detected) and V DFH (high when detected).* Please refer to the block diagrams for R1, R2, R3 and Vref.Hysteresis range is selectable from V DF x 0.05V (XC6101~XC6107) or V DF x 0.001V (XC6111~XC6117).<Watchdog (WD) Pin>The XC6101~XC6107, XC6111~XC6117 series use a watchdog timer to detect malfunction or “runaway” of the microprocessor. If neither rising nor falling signals are applied from the microprocessor within the watchdog timeout period, the RESETB/RESET pin output maintains the detection state for the release delay time (T DR), and thereafter the RESET/RESETB pin output returns to the release state (Please refer to the FUNCTION CHART). The timer in the watchdog is then restarted. Six watchdog timeout period settings are available in 1.6sec, 400msec, 200msec, 100msec, 50msec, 6.25msec.<MRB Pin>Using the MRB pin input, the RESET/RESETB pin signal can be forced to the detection state. When the MRB pin is driven from high to low, the RESETB pin output goes from high to low in the case of the V DFL type ICs, and the RESET pin output goes from low to high in the case of the V DFH type. Even after the MRB pin is driven back high, the RESET/RESETB pin output maintains the detection state for the release delay time (T DR). Since the MRB pin is internally pulled up to the V IN pin voltage level, leave the MRB pin open if unused (Please refer to the FUNCTION CHART). A diode, which is an input protection element, is connected between the MRB pin and V IN pin. Therefore, if the MRB pin is applied voltage that exceeds V IN, the current will flow to V IN through the diode. Please use this IC within the stated maximum ratings (V SS -0.3 ~ V IN+0.3) on the MRB pin.<Release Delay Time>Release delay time (T DR) is the time that elapses from when the V IN pin reaches the release voltage, or when the watchdog timeout period expires with no rising signal applied to the WD pin, until the RESET/RESETB pin output is released from the detection state. Seven release delay time (T DR) watchdog timeout period settings are available in 1.6sec, 400msec, 200msec, 100msec, 50msec, 25msec, 3.13msec.<Detect Delay Time>Detect Delay Time (T DF) is the time that elapses from when the V IN pin voltage falls to the detect voltage until the RESET/ RESETB pin output goes into the detection state.Series■TIMING CHARTS●CMOS Output●T DF (CMOS Output)VINVDFL LevelGNDVIN Level VDFL Level GNDVIN x 0.1V■NOTES ON USE1. Please use this IC within the stated maximum ratings. Operation beyond these limits may cause degrading or permanent damage to the device.2. When a resistor is connected between the V IN pin and the input, the V IN voltage drops while the IC is operating and a malfunction may occur as a result of the IC’s through current. For the CMOS output products, the V IN voltage drops while the IC is operating and malfunction may occur as a result of the IC’s output current. Please be careful with using the XC6111~XC6117 series (without hysteresis).3. In order to stabilize the IC’s operations, please ensure that the V IN pin’s input frequency’s rise and fall times are more than 1 µ sec/V.4. Noise at the power supply may cause a malfunction of the watchdog operation or the circuit. In such case, please strength the line between V IN and the GND pin and connect about 0.22µF of a capacitor between the V IN pin and the GND pin.5. Protecting against a malfunction while the watchdog time out period, an ignoring time (no reaction time) occurs to the rise and fall times. Referring to the figure below, the ignoring time (no reaction time) lasts for 900µsec at maximum.GNDGNDGNDVIN Pin Wave FormWD Pin Wave FormRESETB Pin Wave Form (VDFL)SeriesPIN NAMELOGIC CONDITIONSH V IN >V DF +V HYS V IN L V IN <V DF H MRB>1.40V MRBL MRB<0.35V H When keeping W D >V WDH more than T WD L When keeping W D <V WDL more than T WD L → H V WDL → V WDH , T WDIN >300nsec WDH → L V WDH →V WDH , T WDIN >300nsecV IN MRB WD RESETB (*2) H HH LRepeat detect and release (H →L →H)H OpenH L → HH H or Open H → L H HLL *1 LV IN MRB WD RESETB (*3) H HH LRepeat detect and release (L →H →L)H OpenH L → HH H or Open H → L L HLL *1 HV IN WD RESETB (*2) RESET (*3) H HH L Repeat detect and release (H →L →H)Repeat detect and release (L →H →L)H OpenH L → HH H → L H L HL*1 L HV IN MRB RESETB (*2)RESET (*3)H H or Open H LH LL L H■PIN LOGIC CONDITIONSNOTE:*1: If only “V DF ” is indicated, it represents both V DFL (low when detected) and V DFH (high when detected).*2: For the details of each parameter, please see the electrical characteristics. V DF : Detect VoltageV HYS : Hysteresis RangeV WDH : WD High Level Voltage V WDL: WD Low Level Voltage T WDIN : WD Pulse Width T WD : WD Timeout Period■FUNCTION CHART●XC6103/XC61113 Series●XC6104/XC61114, XC6105/XC6115 Series●XC6106/XC61116, XC6107/XC6117 Series●XC6101/XC61111, XC6102/6112 Series*1: Including all logic of WD (WD=H, L, L →H, H →L, OPEN). *2: When the RESETB is High, the circuit is in the release state. When the RESETB is Low, the circuit is in the detection state. *3: When the RESET is High, the circuit is in the release state. When the RESET is Low, the circuit is in the detection state.■TEST CIRCUITSCircuit 1Circuit 2Circuit 3Circuit 4Series ■TEST CIRCUITS (Continued)Circuit 5Circuit 6Circuit 7■TEST CIRCUITS (Continued)Circuit 8Circuit 9Circuit 10Circuit 11Series■TYPICAL PERFORMANCE CHARACTERISTICS(1.1) Supply Current vs. Input Voltage(1.2) Supply Current vs. Input Voltage■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)(2) Detect, Release Voltage vs. Ambient Temperature(1.2) Supply Current vs. Input Voltage (Continued)Series■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (3-1) Output Voltage vs. Input Voltage (V DFL ) (3.1) Detect, Release Voltage vs. Input Voltage (V DFL )(3.2) Detect, Release Voltage vs. Input Voltage (V DFH )■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)(4) N-ch Driver Output Current vs. V DSSeries(6) P-ch Driver Output Current vs. Input Voltage 1■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)(8) Release Delay Time vs. Ambient Temperature(7) P-ch Driver Output Current vs. Input Voltage 2■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (10) Release Delay Time vs. Input Voltage(11) Watchdog Timeout Period vs. Input VoltageSeries■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)(14) MRB Low Level Voltage vs. Ambient Temperature(15) MRB High Level Voltage vs. Ambient Temperature* ‘X’ represents both ‘0’ and ‘1’. (ex. XC61X1⇒XC6101 and XC6111)。