General Purpose Feature Very small, thin, and light weight. Both flow and reflow soldering are applicable. Owing to the reduced lead inductance, the high frequency characteristic is excellent. Suitable size and packaging for surface mount assembly. The product of lead-free terminal is RoHS compliant. PhO(lead oxide) is included in the glass of our product which is prescribed on RoHS appendix as an exception. Application General purpose Home Appliances (DVD, Digital TV,CAMCODER, VTR, Digital Camera, Audio,Tunner) For Computers & Communications (Notebook, Memory Module, Mobile, Network Equipment, etc) Structure and Dimensions Structure Dimensions Glass or Polymer Coating I1 (Protective Coating) RuO2 type Resistor H Alumina Substrate(96%) Thick film Elecrtode I2 W (Inner Electrode) L Special Plating (Ni, Solder) (UNIT: mm) Average Type Inch Power(W) LW H I1 I2 Weight RC0603 0201 1/20 0.600.03 0.300.03 0.230.03 0.10.05 0.150.05 0.15 RC1005 0402 1/16 1.000.05 0.500.05 0.250.10 0.6 0.350.05 0.200.10 RC1608 0603 1/10 1.600.10 0.800.15 0.450.10 0.300.20 0.350.10 2.1 RC2012 0805 1 / 8 2.000.20 1.250.15 0.500.10 0.400.20 0.350.20 4.9 RC3216 1206 1 / 4 3.200.20 1.600.15 0.550.10 0.450.20 0.400.20 9.5 1210 0.400.20 RC3225 1 / 3 3.200.20 2.550.20 0.550.10 0.450.20 16 RC5025 2010 2/3 5.000.20 2.500.20 0.550.10 0.600.20 0.600.20 26 RC6432 2512 1 6.300.20 3.200.20 0.550.10 0.600.20 0.600.20 41 Parts Numbering System The part number system shall be in the following format R C 2 0 1 2 J 1 0 0 CS Code Designation Dimension & Size Code Tolerance Resistance Value Packaging Code 0603: 0.6 0.3( ) - 0201(inch) G : 2% 1005: 1.0 0.5( ) - 0402(inch) GS: Bulk Packaging 3 or 4 digits coding system 1608: 1.6 0.8( ) - 0603(inch) J : 5% CS: Tape Packaging 7 (IEC coding system) 2012: 2.0 1.2( ) - 0805(inch) RC: Chip Resistor ES: Tape Packaging 10 3digits (E-24 series) K : 10% 3216: 3.2 1.6( ) - 1206(inch) FS: Tape Packaging 13 4digits (E-96 series) 3225: 3.2 2.5( ) - 1210(inch) 5025: 5.0 2.5( ) - 2010(inch) AS: Tape Packaging 13 Jumper: J 6432: 6.4 3.2( ) - 2512(inch)Specification Resistance Range ( ) Rated Power Working Overload Rated Type Working Rating Voltage Voltage TCR (ppm/ ) Ambient G( 2%) J( 5%) K( 10%) Temperature (W) (MAX) (MAX) Temperature E-48 E-24 E-12 25(V) RC0603 1/20 50(V) 1 R 10 -55 ~+125 +300/-200ppm RC1005 1/16 50(V) 100(V) RC1608 1/10 10 R 1M -55 ~+155 RC2012 1/8 150(V) 300(V) 100ppm Operation 1 ~1M 1 ~10M 1 ~10M 70 (0603: 250ppm) RC3216 1/4 Notes RC3225 1/3 400(V) 200(V) 1M R 10M RC5025 2/3 -55 ~+125 300ppm RC6432 1 Example of Land Pattern Design Rated voltage (V) = Rated power(W) Normal resistance value (R) Rated voltage should be lower than (MAX) working voltage. Recommended Soldering Conditions Power Derating Curve The rated power is the maximum continuous loading power at 70 ambient temperature. For ambient temperature above 70 , the loading power follows the below power derating curve. General (The load current shall be derated according to derating curve in case of the Jumper ) Purpose <0603, 1005, 3225, 5025, 6432> <1608, 2012, 3216> 100 100 Precision 80 80 60 60 Operation area Operation area Low Ohms 40 40 20 20 125 155 -55 70 -55 70 Array 0 0 -40 0 40 80 120 -30 0 30 60 90 120 150 Ambient Temperature( ) Ambient Temperature( ) Attenuator Jumper Resistors Marking Rated Rated Current 3 digits indication Characteristics Type Resistance Ambient Working Rating Performance (E-24 series) Temperature Temperature - Left 2 digits represent significant figures. 0.5(A) RC0603 - Last 1 digit represent exponential number of 10. - Example: 103 Packaging RC1005 Left 2 digits: 10 1.0(A) Last 1 digit: 3 RC1608 3 103 = 10 10 = 10000 =10k Standard RC2012 50m Resistance Value 70 -55 ~+125 Max. RC3216 RC3225 2.0(A) Jumper chip is printed as 000 RC5025 Resistance below 10 is expressed using R ex) 7R5=7.5 RC6432 0603, 1005 type: No marking. Design and Specifications are subject to change without prior notice. 8 Please ask the manufacturer for technical Specifications before you order and/or use. 9 Percentage of the rated dissipation(%) Percentage of the rated dissipation(%)