<
>
Specifications
Power(Watts):
1W
Resistance:
0Ω
Voltage Rating:
-
Temperature Coefficient:
-
Operating Temperature:
-55℃~+125℃
Type:
Thick Film Resistor
Tolerance:
±1%
Mfr. Part #:
CR2512F10000G
Package:
2512
Key Attributes
Model Number:
CR2512F10000G
Product Description
Product Overview
This specification covers lead-free thick film chip resistors for use in electronic systems. These resistors are designed for reliable performance in various applications.
Product Attributes
- Brand: Not specified
- Origin: Not specified
- Material: Ceramic Substrate (Al2O3), Conductive layer (Ag), Side conductive layer (NiCr), Resistive layer (RuO2 + glass), Inner protective layer (Glass), Protective layer (Epoxy), Marking (Epoxy), Termination barrier layer (Ni), Termination layer (Matte Tin)
- Color: Not specified
- Certifications: Not specified
Technical Specifications
| Type | Rated Power at 70 | Max. Working Voltage | Max. Overload Voltage | Resistance Range (ohm) | Tolerance (%) | T.C.R (ppm/) | Max. Rated Current (Jumper) | Max. Resistance (Jumper) |
| CR0201 | 1/20W | 25V | 50V | 1~25 (Jumper), 25~10M | 0.5% (D), 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 250 | 0.5A | 50m |
| CR0402 | 1/16W | 50V | 100V | 1~10 (Jumper), 10~1M (E96, 0.5%), 10~10M (E96, 1%), 10~22M (E24, 5%), 1~22M (E24, 20%) | 0.5% (D), 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 100, +500-250 | 1A | 50m |
| CR0603 | 1/10W | 50V | 100V | 1~10 (Jumper), 10~1M (E96, 0.5%), 10~10M (E96, 1%), 10~22M (E24, 5%), 1~22M (E24, 20%) | 0.5% (D), 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 100, +500-250 | 1A | 50m |
| CR0805 | 1/8W | 150V | 300V | 1~10 (Jumper), 10~1M (E96, 0.5%), 10~10M (E96, 1%), 10~22M (E24, 5%), 1~22M (E24, 20%) | 0.5% (D), 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 100, +500-250 | 1.5A | 50m |
| CR1206 | 1/4W | 200V | 400V | 1~10 (Jumper), 10~1M (E96, 0.5%), 10~10M (E96, 1%), 10~22M (E24, 5%), 1~22M (E24, 20%) | 0.5% (D), 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 100, +500-250 | 1.9A | 50m |
| CR1210 | 1/3W | 200V | 400V | 1~10 (Jumper), 10~10M (E96, 1%), 10~22M (E24, 5%), 1~22M (E24, 20%) | 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 100, +500-250 | 2.2A | 50m |
| CR2010 | 1/2W | 200V | 400V | 1~10 (Jumper), 10~10M (E96, 1%), 10~22M (E24, 5%), 1~22M (E24, 20%) | 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 100, +500-250 | 3A | 50m |
| CR2512 | 1W | 200V | 400V | 1~10 (Jumper), 10~10M (E96, 1%), 10~22M (E24, 5%), 1~22M (E24, 20%) | 1% (F), 2% (G), 5% (J), 10% (K), 20% (M) | 100, +500-250 | 3A | <0.05 |
| Type | Dimensions (mm) L x W x T | e (mm) | E (mm) |
| CR0201 | 0.600.03 x 0.300.03 x 0.230.03 | 0.150.05 | 0.150.05 |
| CR0402 | 1.000.05 x 0.500.05 x 0.350.05 | 0.150.10 | 0.200.10 |
| CR0603 | 1.600.15 x 0.800.10 x 0.450.10 | 0.250.20 | 0.300.20 |
| CR0805 | 2.000.15 x 1.250.15 x 0.500.10 | 0.350.20 | 0.400.20 |
| CR1206 | 3.100.15 x 1.600.15 x 0.550.10 | 0.450.25 | 0.400.25 |
| CR1210 | 3.100.15 x 2.500.15 x 0.550.15 | 0.350.25 | 0.600.35 |
| CR2010 | 5.000.20 x 2.500.20 x 0.550.15 | 0.650.25 | 0.500.25 |
| CR2512 | 6.250.20 x 3.100.20 x 0.550.15 | 0.850.25 | 0.950.25 |
| Description | Specification Limits | Test Methods |
| Operating Temperature Range | -55~+125 | |
| Storage Condition | 530, 3075%RH | |
| Temperature Coefficient (over 10ohm) | 200 ppm/ Max. | JIS C5202 |
| Temperature Coefficient (lower 10ohm) | +500-250 ppm/ | JIS C5202 |
| Short Time Overload | (1.00%+0.05ohm) Max. | JIS C5202 |
| Resistance to Soldering Heat | (1.00%+0.05ohm)Max. | JIS C5202 |
| Solderability | 95% Coverage Min. | JIS C5202 |
| Load Life | (3.00%+0.05ohm)Max. | JIS C5202 |
| Load Life Humidity | (2.00%+0.05ohm)Max. | JIS C5202 |
| Temperature Cycle | (2.00%+0.05ohm)Max. | JIS C5202 |
| Component high temperature resistance | (1.00%+0.05ohm) Max. | |
| Component rework/hand soldering temperature resistance | Approx. 350for 3seconds | |
| MSL (moisture sensitive level) | Level 1 | J-STD-020C |
2410121258_LIZ-CR2512F10000G_C3037487.pdf
Request A Quote
Please Use Our Online Inquiry Contact Form Below If You Have Any Questions, Our Team Will Get Back To You As Soon As Possible
