Precision flat chip resistors KOA RK73H2BTTD7320F metal glaze thick film for automotive medical aerospace applications
Product Overview
The RK73H series of Flat Chip Resistors are precision-grade thick film resistors designed for a wide range of applications, including automotive, medical, and aerospace equipment. They offer small size, light weight, excellent heat and weather resistance due to their metal glaze thick film construction. The triple-layer electrode structure ensures high stability and reliability. These resistors are compatible with various automatic mounters and soldering methods, including reflow and wave soldering. They are RoHS compliant with lead-free terminations.
Product Attributes
- Brand: KOA
- Product Type: Flat Chip Resistors (Precision Grade)
- Coating Color: Black (1F, 1H), Blue (1E, 1J, 2A, 2B, 2E, W2H, W3A, W3A2)
- Certifications: EU RoHS compliant, AEC-Q200 qualified (Exemption 1F)
- Material: Metal glaze thick film (resistive film), Alumina (substrate)
- Termination: Lead-free (standard)
Technical Specifications
| Type (Inch Size Code) | Dimensions (mm) L x W x c x d x t | Weight (g/1000pcs) | Power Rating | Rated Ambient Temp. | Rated Terminal Part Temp. | T.C.R. (10-6/K) | Resistance Range () | Max. Working Voltage | Max. Overload Voltage | Packaging & Q'ty/Reel (pcs) |
| 1F (01005) | 0.40.02 x 0.20.02 x 0.100.03 x 0.110.03 x 0.130.02 | 0.04 | 0.03W | 70 | 200 | 100k1M4 | 20V | 30V | 40,000 | |
| 1F (01005) | 0.40.02 x 0.20.02 x 0.100.03 x 0.110.03 x 0.130.02 | 0.04 | 0.03W | 70 | 250 | 1091k4 | 20V | 30V | 20,000 | |
| 1H (0201) | 0.60.03 x 0.30.03 x 0.10.05 x 0.150.05 x 0.230.03 | 0.14 | 0.05W | 70 | 200 | 101M | 25V | 50V | 35,000 | |
| 1H (0201) | 0.60.03 x 0.30.03 x 0.10.05 x 0.150.05 x 0.230.03 | 0.14 | 0.05W | 70 | 400 | 19.14 | 25V | 50V | 35,000 | |
| 1H (0201) | 0.60.03 x 0.30.03 x 0.10.05 x 0.150.05 x 0.230.03 | 0.14 | 0.05W | 70 | 250 | 1M10M4 | 25V | 50V | 35,000 | |
| 1E (0402) | 1.0 +0.1 0.05 x 0.50.05 x 0.20.1 x 0.25 +0.05 0.1 x 0.350.05 | 0.68 | 0.1W | 70 | 125 | 100 | 101M | 75V | 100V | |
| 1E (0402) | 1.0 +0.1 0.05 x 0.50.05 x 0.20.1 x 0.25 +0.05 0.1 x 0.350.05 | 0.68 | 0.1W | 70 | 125 | 200 | 19.76 | 75V | 100V | |
| 1E (0402) | 1.0 +0.1 0.05 x 0.50.05 x 0.20.1 x 0.25 +0.05 0.1 x 0.350.05 | 0.68 | 0.1W | 70 | 125 | 100 | 1.02M10M | 75V | 100V | |
| 1J (0603) | 1.60.2 x 0.80.1 x 0.30.1 x 0.30.1 x 0.450.1 | 2.14 | 0.1W | 70 | 125 | 100 | 1.02k1M | 5,000 | ||
| 1J (0603) | 1.60.2 x 0.80.1 x 0.30.1 x 0.30.1 x 0.450.1 | 2.14 | 0.1W | 70 | 125 | 200 | 19.76 | 5,000 | ||
| 1J (0603) | 1.60.2 x 0.80.1 x 0.30.1 x 0.30.1 x 0.450.1 | 2.14 | 0.1W | 70 | 125 | 100 | 1.02M10M | 5,000 | ||
| 1J (0603) | 1.60.2 x 0.80.1 x 0.30.1 x 0.30.1 x 0.450.1 | 2.14 | 0.125W | 70 | 125 | 100 | 101k | 10,000 | ||
| 1J (0603) | 1.60.2 x 0.80.1 x 0.30.1 x 0.30.1 x 0.450.1 | 2.14 | 0.125W | 70 | 125 | 200 | 19.76 | 10,000 | ||
| 2A (0805) | 2.00.2 x 1.250.1 x 0.40.2 x 0.3 +0.2 0.1 x 0.50.1 | 4.54 | 0.25W | 70 | 125 | 100 | 101M | 150V | 200V | |
| 2A (0805) | 2.00.2 x 1.250.1 x 0.40.2 x 0.3 +0.2 0.1 x 0.50.1 | 4.54 | 0.25W | 70 | 125 | 200 | 19.76 | 150V | 200V | |
| 2A (0805) | 2.00.2 x 1.250.1 x 0.40.2 x 0.3 +0.2 0.1 x 0.50.1 | 4.54 | 0.25W | 70 | 125 | 400 | 1.02M10M | 150V | 200V | |
| 2B (1206) | 3.20.2 x 1.60.2 x 0.50.3 x 0.4 +0.2 0.1 x 0.60.1 | 9.14 | 0.25W | 70 | 125 | 100 | 101M | 200V | 400V | |
| 2B (1206) | 3.20.2 x 1.60.2 x 0.50.3 x 0.4 +0.2 0.1 x 0.60.1 | 9.14 | 0.25W | 70 | 125 | 200 | 19.76 | 200V | 400V | |
| 2B (1206) | 3.20.2 x 1.60.2 x 0.50.3 x 0.4 +0.2 0.1 x 0.60.1 | 9.14 | 0.25W | 70 | 125 | 400 | 1.02M5.6M | 200V | 400V | |
| 2E (1210) | 2.60.2 x 15.5 x 0.60.1 x 0.4 +0.2 0.1 x 0.50.1 | 0.5W | 70 | 125 | 100 | 101M | ||||
| 2E (1210) | 2.60.2 x 15.5 x 0.60.1 x 0.4 +0.2 0.1 x 0.50.1 | 0.5W | 70 | 125 | 200 | 19.76 | ||||
| 2E (1210) | 2.60.2 x 15.5 x 0.60.1 x 0.4 +0.2 0.1 x 0.50.1 | 0.5W | 70 | 125 | 400 | 1.02M5.6M | ||||
| W2H (2010) | 5.00.2 x 2.50.2 x 0.650.15 x 0.4 +0.2 0.1 x 0.60.1 | 24.3 | 0.75W | 70 | 125 | 100 | 101M | 4,000 | ||
| W2H (2010) | 5.00.2 x 2.50.2 x 0.650.15 x 0.4 +0.2 0.1 x 0.60.1 | 24.3 | 0.75W | 70 | 125 | 200 | 19.76 | 4,000 | ||
| W2H (2010) | 5.00.2 x 2.50.2 x 0.650.15 x 0.4 +0.2 0.1 x 0.60.1 | 24.3 | 0.75W | 70 | 125 | 400 | 1.02M5.6M | 4,000 | ||
| W3A (2512) | 6.30.2 x 3.10.2 x 0.80.15 x 0.4 +0.2 0.1 x 0.60.1 | 37.1 | 1W | 70 | 125 | 100 | 101M | 200V (500V5) | 400V (500V5) | 4,000 |
| W3A (2512) | 6.30.2 x 3.10.2 x 0.80.15 x 0.4 +0.2 0.1 x 0.60.1 | 37.1 | 1W | 70 | 125 | 200 | 19.76 | 200V (500V5) | 400V (500V5) | 4,000 |
| W3A (2512) | 6.30.2 x 3.10.2 x 0.80.15 x 0.4 +0.2 0.1 x 0.60.1 | 37.1 | 1W | 70 | 125 | 400 | 1.02M5.6M | 200V (500V5) | 400V (500V5) | 4,000 |
| W3A2 (2512) | 6.30.2 x 3.10.2 x 0.80.15 x 0.4 +0.2 0.1 x 0.60.1 | 37.1 | 2W | 95 | 100 | 101M | 200V | 400V | 4,000 | |
| W3A2 (2512) | 6.30.2 x 3.10.2 x 0.80.15 x 0.4 +0.2 0.1 x 0.60.1 | 37.1 | 2W | 95 | 200 | 19.76 | 200V | 400V | 4,000 | |
| W3A2 (2512) | 6.30.2 x 3.10.2 x 0.80.15 x 0.4 +0.2 0.1 x 0.60.1 | 37.1 | 2W | 95 | 400 | 1.02M5.6M | 200V | 400V | 4,000 |
Performance
| Test Items | Performance Requirements (R(0.1 )) | Limit | Typical | Test Methods |
| Resistance | Within specified tolerance | |||
| Resistance Temperature Coefficient T.C.R. | Within specified T.C.R. | -55 and +25/+125 | ||
| Overload (Short time) | 1:1F, 0.5:another | 2 | 1:1F, 0.5:another | Rated voltage 2.5 for 5s (1E, 2B, W3A2: Rated voltage2 for 5s) |
| Resistance to soldering heat | 1:1FW3A (10R1M), 3:1HW3A (R1M) | 0.5:1FW3A (10R1M), 1:1HW3A (R1M) | 2605, 10s1s | |
| Rapid change of temperature | 1:1F, 0.5:another | 0.5:1F, 0.3:another | -55 (30min.) /+125 (30min.), 100 cycles | |
| Moisture resistance | 2:1J, 2A, 2B, 3:another | 0.75:1J, 2A, 2B, 1.5:1F, 1:another | 402, 90%95%RH, 1000h (1.5h ON/0.5h OFF cycle) | |
| Endurance at 70 | 2:1J, 2A, 2B, 3:another | 0.75:1J, 2A, 2B, 1:another | 702, 1000h (1.5h ON/0.5h OFF cycle) | |
| High temperature exposure | 1 | 0.5:1F, 0.3:another | +125, 1000h:1F, +155, 1000h:1H,1E, 1J, 2A, 2B, 2E, W2H, W3A, W3A2 |
Precautions for Use
The substrate of chip resistors is alumina. Cracks may occur at the connection of solder (solder fillet portion) due to the difference of the coefficient of thermal expansion from the mounting board when heat stress like heat cycle, etc., is repeatedly applied. Care should be taken to the occurrence of cracks when ambient temperature changes or load ON/OFF is repeated, especially for larger types (W2H/W3A/W3A2) which have large thermal expansion and self-heating. For general temperature cycle tests using glass-epoxy (FR-4) boards under the maximum/minimum temperatures of the operating temperature range, cracks do not occur easily in types 1F to 2E, but tend to occur in types W2H/W3A/W3A2. Cracks due to thermal stress depend on factors such as the size of the mounted pad, solder amount, and heat dissipation of the mounting board. Therefore, careful design is required when using under conditions of significant ambient temperature changes or load ON/OFF cycles. RK73H1F resistors may be damaged by static electricity generated and applied during equipment assembly processes; please be aware of this.
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