NP1

Short Description:

Conductive Polymer Solid Aluminum Electrolytic Capacitor

High reliability, low ESR, high allowable ripple current, 105°C 2000 hours guarantee

Compliant with RoHS Directive

Standard


Product Detail

Product Tags

Technical Parameter

Series Life(Hrs) Features Rated voltage range (V.DC) Rated capacitance (uF) Operating temperature range (°C)
NP1 2000 Standard 6.3~25 10~2500 -55~105

The main technical parameters

project characteristic
range of working temperature -55~+105℃
Rated working voltage 6.3 ~ 25V
capacity range 10 ~ 2500uF 120Hz 20℃
Capacity tolerance ±20% (120Hz 20℃)
loss tangent 120Hz 20℃ below the value in the list of standard products
Leakage current※ Charge for 2 minutes at rated voltage below the value in the list of standard products at 20°C
Equivalent Series Resistance (ESR) 100kHz 20°C below the value in the list of standard products
Durability The product should meet the requirements of applying rated working voltage for 2000 hours at a temperature of 105°C and placing it at 20°C for 16 hours
Capacitance change rate ±20% of initial value
Equivalent Series Resistance (ESR) ≤150% of initial specification value
loss tangent ≤150% of initial specification value
leakage current ≤Initial specification value
High temperature and humidity The product should meet the conditions of 60°C temperature and 90%~95%R.H humidity without applying voltage, place it for 1000 hours, and place it at 20°C for 16 hours
Capacitance change rate   ±20% of initial value
Equivalent Series Resistance (ESR) ≤150% of initial specification value
loss tangent ≤150% of initial specification value
leakage current ≤Initial specification value

Product Dimensions (Unit:mm)

D (±0.5) 5 6.3 8 10
d (±0.05) 0.45/0.50 0.45/0.50 0.6 0.6
F(±0.5) 2 2.5 3.5 5
a 1

Rated ripple current frequency correction factor

Frequency (Hz) 120Hz 1kHz 10kHz 100kHz 500kHz
correction factor 0.05 0.3 0.7 1 1

List Of Standard Products

Rated voltage Nominal capacity (uF) Product Dimension Φ DxL(mm) L.C. Tanδ 120Hz ESR (mΩ100kHz) Rated ripple current
(surge voltage) (V) (uA,2min) (mA r.m.s/105℃100kHz)
6.3(7.2) 100 6.3x7 300 0.08 8 4800
6.3(7.2) 150 6.3x7 300 0.08 8 4800
6.3(7.2) 180 6.3x7 300 0.08 8 4800
6.3(7.2) 180 8x8 300 0.08 8 5600
6.3(7.2) 180 8x11 300 0.08 8 6150
6.3(7.2) 220 5x9 300 0.08 10 4150
6.3(7.2) 220 6.3x7 300 0.08 8 4800
6.3(7.2) 220 8x8 300 0.08 8 5600
6.3(7.2) 220 8x11 300 0.08 8 6150
6.3(7.2) 270 5x9 340 0.08 10 4150
6.3(7.2) 270 6.3x7 340 0.08 8 4800
6.3(7.2) 270 8x8 340 0.08 8 5600
6.3(7.2) 270 8x11 340 0.08 8 6150
6.3(7.2) 330 5x9 416 0.08 10 4150
6.3(7.2) 330 5x11 416 0.08 10 4500
6.3(7.2) 330 6.3x7 416 0.08 8 4800
6.3(7.2) 330 8x8 416 0.08 8 5600
6.3(7.2) 330 8x11 416 0.08 8 6150
6.3(7.2) 390 6.3x7 491 0.08 8 4800
6.3(7.2) 390 6.3x9 491 0.08 8 5250
6.3(7.2) 390 8x8 491 0.08 8 5600
6.3(7.2) 390 8x11 491 0.08 8 6150
6.3(7.2) 470 6.3x9 592 0.08 8 5250
6.3(7.2) 470 6.3x10 592 0.08 8 5500
6.3(7.2) 470 8x8 592 0.08 8 5600
6.3(7.2) 470 8x11 592 0.08 8 6150
6.3(7.2) 560 6.3x9 706 0.08 8 5250
6.3(7.2) 560 8x8 706 0.08 8 5600
6.3(7.2) 560 8x11 706 0.08 8 6150
6.3(7.2) 680 6.3x10 857 0.08 8 5500
6.3(7.2) 680 8x8 857 0.08 8 5600
6.3(7.2) 680 8x11 857 0.08 8 6150
6.3(7.2) 680 10x12 857 0.08 8 6640
6.3(7.2) 820 8x11 1033 0.08 8 6150
6.3(7.2) 820 10x12 1033 0.08 8 6640
6.3(7.2) 1000 8x11 1260 0.08 8 6150
6.3(7.2) 1000 10x12 1260 0.08 8 6640
6.3(7.2) 1200 8x11 1512 0.08 8 6150
6.3(7.2) 1200 10x12 1512 0.08 8 6640
6.3(7.2) 1500 10x12 1890 0.09 8 6640
6.3(7.2) 2000 10x12 2520 0.1 8 6640
6.3(7.2) 2200 10x12 2772 0.1 8 6640
6.3(7.2) 2500 10x12 3150 0.11 8 6640
 
Rated voltage Nominal capacity (uF) Product Dimension Φ DxL(mm) L.C. Tanδ 120Hz ESR (mΩ100kHz) Rated ripple current
(surge voltage) (V) (uA,2min) (mA r.m.s/105℃100kHz)
7.5(8.6) 270 5x7 405 0.08 12 3400
7.5(8.6) 330 5x9 495 0.08 12 3800
7.5(8.6) 390 5x10 585 0.08 10 4350
7.5(8.6) 470 5x11 705 0.08 10 4500
7.5(8.6) 680 6.3x9 1020 0.08 9 5000
7.5(8.6) 680 6.3x11 1020 0.08 8 5700
7.5(8.6) 1000 8x11 1500 0.08 8 6150
10(11 ⑸ 33 6.3x5 300 0.08 30 2200
10(11 ⑸ 39 6.3x5 300 0.08 30 2200
10(11 ⑸ 47 6.3x7 300 0.08 12 3900
10(11 ⑸ 68 6.3x7 300 0.08 12 3900
10(11 ⑸ 82 6.3x7 300 0.08 12 3900
10(11 ⑸ 100 6.3x7 300 0.08 12 3900
10(11.5) 100 5x7 300 0.08 15 3050
10(11 ⑸ 150 5x11 300 0.08 12 4100
10(11 ⑸ 150 6.3x7 300 0.08 12 3900
10(11 ⑸ 180 5x11 360 0.08 12 4100
10(11 ⑸ 180 6.3x9 360 0.08 12 4300
10(11 ⑸ 180 8x8 360 0.08 10 5100
10(11 ⑸ 180 8x11 360 0.08 9 5800
10(11.5) 220 6.3x9 440 0.08 12 4300
10(11 ⑸ 220 8x8 440 0.08 10 5100
10(11.5) 220 8x11 440 0.08 9 5800
10(11 ⑸ 270 6.3x9 540 0.08 12 4300
10(11 ⑸ 270 6.3x11 540 0.08 9 5400
10(11 ⑸ 270 8x8 540 0.08 10 5100
10(11 ⑸ 270 8x11 540 0.08 9 5800
10(11.5) 330 6.3x11 660 0.08 9 5400
10(11 ⑸ 330 8x8 660 0.08 10 5100
10(11.5) 330 8x11 660 0.08 9 5800
10(11 ⑸ 390 6.3x11 780 0.08 9 5400
10(11 ⑸ 390 8x8 780 0.08 10 5100
10(11 ⑸ 390 8x11 780 0.08 9 5800
10(11 ⑸ 470 6.3x11 940 0.08 9 5400
10(11 ⑸ 470 8x8 940 0.08 10 5100
10(11 ⑸ 470 8x11 940 0.08 9 5800
10(11.5) 560 8x11 1120 0.08 9 5800
10(11 ⑸ 680 8x11 1360 0.08 9 5800
10(11 ⑸ 680 10x12 1360 0.08 9 6300
10(11 ⑸ 820 10x12 1640 0.08 9 6300
10(11 ⑸ 1000 10x12 2000 0.08 9 6300
10(11.5) 1200 10x12 2400 0.08 9 6300
10(11 ⑸ 1500 10x12 3000 0.09 9 6300
 
Rated voltage Nominal capacity (uF) Product Dimension Φ DxL(mm) L.C. Tanδ 120Hz ESR (mΩ100kHz) Rated ripple current
(surge voltage) (V) (uA,2min) (mA r.m.s/105℃100kHz)
16(18.4) 22 6.3x7 300 0.08 15 3500
16(18.4) 33 6.3x7 300 0.08 15 3500
16(18.4) 47 6.3x7 300 0.08 15 3500
16(18.4) 68 6.3x7 300 0.08 15 3500
16(18.4) 82 6.3x7 300 0.08 15 3500
16(18.4) 100 6.3x7 320 0.08 15 3500
16(18.4) 100 6.3x11 320 0.08 10 5100
16(18.4) 100 8x11 320 0.08 10 5500
16(18.4) 150 6.3x10 480 0.08 10 4900
16(18.4) 150 8x8 480 0.08 12 4500
16(18.4) 180 6.3x7 576 0.08 15 3500
16(18.4) 180 6.3x11 576 0.08 10 5100
16(18.4) 180 8x8 576 0.08 12 4500
16(18.4) 180 8x11 576 0.08 10 5500
16(18.4) 220 6.3x10 704 0.08 10 4900
16(18.4) 220 8x8 704 0.08 12 4500
16(18.4) 220 8x11 704 0.08 10 5500
16(18.4) 270 6.3x10 864 0.08 10 4900
16(18.4) 270 8x8 864 0.08 12 4500
16(18.4) 270 8x11 864 0.08 10 5500
16(18.4) 270 10x12 864 0.08 10 6000
16(18.4) 330 8x8 1056 0.08 12 4500
16(18.4) 330 8x11 1056 0.08 10 5500
16(18.4) 330 10x12 1056 0.08 10 6000
16(18.4) 390 8x8 1248 0.08 12 4500
16(18.4) 390 8x11 1248 0.08 10 5500
16(18.4) 390 10x12 1248 0.08 10 6000
16(18.4) 470 8x11 1504 0.08 10 5500
16(18.4) 470 10x12 1504 0.08 10 6000
16(18.4) 560 8x11 1792 0.08 10 5500
16(18.4) 560 10x12 1792 0.08 10 6000
16(18.4) 680 10x12 2176 0.08 10 6000
16(18.4) 820 10x12 2624 0.08 10 6000
16(18.4) 1000 10x12 3200 0.08 10 6000
16(18.4) 1000 8x16 3200 0.08 8 7100
25(28.8) 10 6.3x7 300 0.08 16 3400
25(28.8) 15 6.3x7 300 0.08 16 3400
25(28.8) 22 6.3x7 300 0.08 16 3400
25(28.8) 22 6.3x9 300 0.08 16 3750
25(28.8) 33 6.3x9 300 0.08 16 3750
25(28.8) 39 6.3x9 300 0.08 16 3750
25(28.8) 39 8x8 300 0.08 16 3900
25(28.8) 39 8x11 300 0.08 16 4400
 
Rated voltage Nominal capacity (uF) Product Dimension Φ DxL(mm) L.C. Tanδ 120Hz ESR (mΩ100kHz) Rated ripple current
(surge voltage) (V) (uA,2min) (mA r.m.s/105℃100kHz)
25(28.8) 47 6.3x11 300 0.08 20 3650
25(28.8) 47 8x8 300 0.08 16 3900
25(28.8) 47 8x11 300 0.08 16 4400
25(28.8) 68 8x8 340 0.08 16 3900
25(28.8) 68 8x11 340 0.08 16 4400
25(28.8) 82 8x8 410 0.08 16 3900
25(28.8) 82 8x11 410 0.08 16 4400
25(28.8) 100 8x11 500 0.08 16 4400
25(28.8) 100 10x12 500 0.08 16 4700
25(28.8) 150 8x11 750 0.08 16 4400
25(28.8) 150 10x12 750 0.08 16 4700
25(28.8) 180 8x11 900 0.08 16 4400
25(28.8) 180 10x12 900 0.08 16 4700
25(28.8) 220 8x11 1100 0.08 16 4400
25(28.8) 220 10x12 1100 0.08 16 4700
25(28.8) 270 8x11 1350 0.08 16 4400
25(28.8) 270 10x12 1350 0.08 16 4700
25(28.8) 330 10x12 1650 0.08 16 4700
25(28.8) 390 10x12 1950 0.08 16 4700
25(28.8) 470 10x12 2350 0.08 16 4700
25(28.8) 560 10x12 2800 0.08 16 4700
25(28.8) 680 8x16 3400 0.08 16 5050
25(28.8) 820 10x12 4100 0.08 16 4700
25(28.8) 1000 10x16 5000 0.08 16 5300

Understanding Conductive Polymer Aluminum Solid Electrolytic Capacitors

Conductive Polymer Aluminum Solid Electrolytic Capacitors are a type of capacitor that offer high capacitance and low ESR. Learn more about their construction and applications in this guide.

Conductive Polymer Aluminum Solid Electrolytic Capacitors, or CPES capacitors, are a type of capacitor that have gained popularity in recent years due to their high capacitance and low equivalent series resistance (ESR). In this guide, we'll take a closer look at the construction of CPES capacitors and explore their various applications in electronics.

What are Conductive Polymer Aluminum Solid Electrolytic Capacitors?

Conductive Polymer Aluminum Solid Electrolytic Capacitors, or CPES capacitors, are a type of electrolytic capacitor that use a conductive polymer as the electrolyte instead of a liquid electrolyte. This allows for a higher capacitance and lower ESR compared to traditional aluminum electrolytic capacitors. CPES capacitors are commonly used in power supplies, DC-DC converters, and other electronic applications where high capacitance and low ESR are important.

How are they constructed?

CPES capacitors are constructed with a conductive polymer electrolyte layer sandwiched between two aluminum electrodes. The conductive polymer electrolyte layer is formed by polymerizing a monomer in the presence of an electrolyte. This creates a solid, gel-like electrolyte that is more stable and less prone to leakage compared to liquid electrolytes. The aluminum electrodes are formed by depositing a thin layer of aluminum onto a substrate, which is then etched to create a porous structure that increases the surface area and capacitance of the electrode. The electrodes are then coated with a layer of conductive polymer electrolyte and assembled into a capacitor.

What are the advantages of using them?

Conductive Polymer Aluminum Solid Electrolytic Capacitors offer several advantages over other types of capacitors. They have high capacitance values, low equivalent series resistance (ESR), and low leakage current. This makes them ideal for use in high-frequency applications, such as power supplies, DC-DC converters, and voltage regulators. They also have a longer lifespan and are more reliable than other types of capacitors, due to their solid electrolyte construction. Additionally, they are smaller and lighter than other types of capacitors, making them ideal for use in portable electronic devices.

What are the applications of Conductive Polymer Aluminum Solid Electrolytic Capacitors?

Conductive Polymer Aluminum Solid Electrolytic Capacitors are commonly used in a variety of electronic devices and applications. They are particularly useful in high-frequency circuits, such as power supplies, DC-DC converters, and voltage regulators. They are also used in audio equipment, telecommunications equipment, and automotive electronics. Due to their small size and low weight, they are ideal for use in portable electronic devices, such as smartphones, tablets, and laptops. Additionally, they are used in industrial equipment, such as motor drives and control systems.

How do they compare to other types of capacitors?

Conductive Polymer Aluminum Solid Electrolytic Capacitors offer several advantages over other types of capacitors. They have a higher capacitance and lower equivalent series resistance (ESR) than traditional aluminum electrolytic capacitors. They also have a longer lifespan and better stability over time. Additionally, they are more resistant to high temperatures and have a lower leakage current. However, they are typically more expensive than other types of capacitors and may not be suitable for all applications.


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