Product details
Product category / Single Layer Capacitor
One side of gold and one side of silver chip capacitor
Single-layer chip capacitors produced by Guangdong Xinsheng Electronic Technology Co., Ltd. are characterized by small size, thin thickness (generally 0.15~0.5mm thick), low equivalent series connection and low loss. The application frequency can reach several GHz. They are suitable for small and microwave applications, and are widely used in microwave communication lines, optical transceivers, signal generators and other equipment.
Product feature
Product characteristics
Product Application
Product Drawing
Product feature
- Small size,large capacitance,excellent microwave performance
- Good solderability
- The borders help prevent short circuits(arcing at the chip edges)after die attachment,especially with conductive epoxy. The design also reduces handling damage from tweezers,and facilitates automated pick and place assembly processes.
Product characteristics
- Keep edges to prevent short circuit.
- Electrode structure: one side printed with silver and one side printed with gold
Product Application
- Microwave integrated circuit, DC isolation,bypass,impedance matching,etc.
- The design allows the user to match line with or design a custom capacitor for limited circuit dimensions.
Product Drawing
- Product Model: DCSG18R9J600*110N100P(N3)
- Capacity 18.9 +1PF Test Frequency: 1MHz +10%, Test Voltage: 1.0V +0.2Vrms
- Insulation resistance < or equal to 10000M Test voltage: 100V, Test time: 60 +5S
- The thickness of the electrodes is 1. The surface electrodes are gold, and the thickness is 5~7um.
- Face electrode width: 0.60 +0.015um
- The back electrodes are silver with a thickness of 4~7um and the cross section of the product is measured by SEM.
| Material code | Dielectric constant(K) | Dielectric loss(DF)@25 ℃ | Insulation resistance(IR)@25 ℃ | Humidity characteristics(TC) | Temperature range | Eiatc model |
| N0 | 5 | <0.15%@1MHz | MΩ | 0±30ppm/ ℃ | -55~+125℃ | COG |
| N1 | 15 | <0.15%@1MHz | MΩ | 0±30ppm/ ℃ | -55~+125℃ | COG |
| N2 | 39 | <0.15%@1MHz | MΩ | 0±30ppm/ ℃ | -55~+125℃ | COG |
| N3 | 90 | <0.25%@1MHz | MΩ | 0±30ppm/ ℃ | -55~+125℃ | COG |
| N5 | 130 | <0.15%@1MHz | MΩ | 0±30ppm/ ℃ | -55~+125℃ | COG |
| N6 | 230 | <0.25%@1MHz | MΩ | -750±120ppm/ ℃ | -55~+125℃ | U2J |
| N4 | 300 | <0.25%@1MHz | MΩ | -900±500ppm/ ℃ | -55~+125℃ | A3L |
| N7 | 700 | <0.25%@1MHz | MΩ | -3300±500ppm/ ℃ | -55~+125℃ | S3L |
| B1 | 3000 | <2.5%@1KHz | MΩ | ±15% | -55~+125℃ | X7R |
| Y0 | 7000 | <3.0%@1KHz | MΩ | +22%/-56% | -30~+85℃ | Y5U |
| Y1 | 9000 | <3.0%@1KHz | MΩ | +22%/-56% | -30~+85℃ | Y5U |
| Y2 | 18000 | <3.0%@1KHz | MΩ | +22%/-82% | -30~+85℃ | Y5V |
| X1 | 20000 | <3.0%@1KHz | MΩ | ±15% | -55~+125℃ | X7R |
| X2 | 30000 | <3.0%@1KHz | MΩ | +22% | -55~+125℃ | X7S |
