Kanasaj tantalio chip polímero grado ts'aak ti' kaajalo'ob SMD (doble 85) CBAE

Jinpei proporciona jump'éel rendimiento superior yéetel juntúul amplio rango ka'ansaj bey resultado jump'éel capa sólida u polvos u tantalio u ka'anal li'isik tojol sinterizados ti' le vacío. Le moldeo epoxi ignífugo garantiza jump'éel protección óptima u ka'a jeets' yéetel juntúul resistencia dieléctrica. Uts' k'ajóolilo'obo' ma' estándar, paquetes t'okik perfil, marcado personalizado, P'iskaambal ts'aak ti' kaajalo, fusible, etcetera., Táan disponibles.

Datesheet-For-Military-Grade-Polymer-Chip-Tantalum-Capacitor-CBAE-1.pdf (1013 descargas)

Jinpei brand Military Grade Capacitor application for extreme low ESR

Jinpei’s Military Grade Capacitors/Patente disponible are specifically designed for applications that require extremely low equivalent series resistance (ESR).
These capacitors are engineered to provide superior performance and stability in demanding environments where low ESR is critical.

The low ESR characteristic of Jinpei’s Military Grade Capacitors makes them suitable for various applications, Incluido:

1. Power Electronics: In power electronic circuits, low ESR capacitors are essential for minimizing energy losses, improving power transfer efficiency, and reducing voltage ripple.
Jinpei’s Military Grade Capacitors can effectively handle high-frequency switching currents and maintain their low ESR values, ensuring reliable operation in power conversion systems.

2. High-Speed Digital Electronics: In high-speed digital circuits, low ESR capacitors help maintain signal integrity by minimizing voltage droop or overshoot.
They provide stable and clean power supply rail voltages for microprocessors, memory modules, and other digital components.
Jinpei’s capacitors can meet the low ESR requirements of such circuits, enabling optimal performance and reducing signal noise.

3. RF and Wireless Communications: Low ESR capacitors are essential in radio frequency (RF) and wireless communication systems.
They ensure efficient energy transfer, reduce power losses, and enhance the overall performance of RF amplifiers, filters, and transceiver modules.
Jinpei’s Military Grade Capacitors have been designed to deliver low ESR values across a wide range of frequencies, making them suitable for various RF applications.

4. Automotive Electronics: With the increasing complexity of automotive electronics, low ESR capacitors play a crucial role in ensuring reliable operation and minimizing power losses.
Jinpei’s Military Grade Capacitors are well-suited for automotive applications such as engine control units (ECUs), anti-lock braking systems (ABS), infotainment systems,
and advanced driver-assistance systems (ADAS).

Overall, Jinpei’s Military Grade Capacitors are designed to provide exceptional performance in applications that demand low ESR characteristics.
Their robust construction and high-quality materials make them reliable and suitable for extreme environments where low ESR is critical for optimal circuit performance.

BASIC MECHANICAL DESIGN FEATURE

doble 85

resin molding packaging, Ma'alo'ob sellado, Bin yano'ob le', chan volumen, Peso ligero, polaridad;
electrical performance is excellent and stable, ka'anal confiabilidad, good storage stability;
conductive polymer electrolyte, ESR ultra baja (equivalent

series resistance), high-frequency capacity retention, large ripple current resistance;

benign failure mode;
is suitable for aircraft, vehicles, ships, radar, electronics, communication and other fields with reliability requirements of electronic equipment surface mounted DC or pulse circuit;
adds optional dual 85 Yik'áalil: Using new technology,

the products have the ability to store and work at high temperature and high humidity for long periods (85° C, 85%Rh, 1000h) despite maintaining the original performance.

If users need double 85 Yik'áalil, please indicate them in the order
execution standards: GJB2283-95, QJ / PWV501-2011

(Páaybe'en: When purchasing double 85 Yik'áalil, please note “double 85” in the notes of the order contract)

Mayak che' 1 Dimensiones u totales le condensadores (mm)

hull	L	W1	H	S	W2
U	3.2±0.3	1.6±0.3	1.6±0.3	0.8±0.2	1.2±0.2
B	3.5±0.3	2.8±0.3	1.9±0.3	0.8±0.2	2.2±0.2
C	6.0±0.3	3.2±0.3	2.5±0.3	1.3±0.2	2.2±0.2
H	7.3±0.3	4.3±0.3	2.1±0.3	1.7±0.2	2.4±0.2
MULIX	7.3±0.3	4.3±0.3	2.8+0.3	1.5±0.2	2.4±0.2
E	7.3±0.3	4.3±0.3	4.1±0.3	1.5±0.2	2.4±0.2
V	7.3±0.3	6.1±0.3	3.6±0.3	1.5±0.2	3.0±0.2
W	7.3±0.3	6.1±0.3	4.1±0.3	1.5±0.2	3.0±0.2
X	7.3±0.3	6.0±0.3	6.0±0.3	1.5±0.2	4.0±0.2
S	11.0±0.3	9.0±0.3	4.5±0.3	1.5±0.2	10.5±0,4
T'aano'	11.0+0.3	12.5±0.3	5.5±0.3	2.1±0.2	10.5±0,4

Mayak che' 2 Tensión nominal, Categoría Voltaje, Ka'ansaj nominal, Resistencia tu serie equivalente (ESR), Código shell, ka yáantajo'ob ti' alta yéetel baja temperatura le condensador

Potencia eléctrica u nominal (CR). ΜF	Meyaj ku shell	ESR máx. 100KHz +25° C Ω	Sáasilo' u fuga máx. μA			Variación Buka'aj u ba'al Rango u %		Le ángulo asab reduce ti' le k'aas %
			+25° C	+85° C	+125° C	-55° C	+125° C	-55° C	+25° C	+85° C
			+25° C	+85° C	+125° C	+85° C	+125° C	-55° C	+25° C	+125° C
Tensión nominal (Ur) 4V (Xook voltaje 2.7 V, 125° C)
68	C	0.2	2.7	21.7	27.2	±10	±12	8	6	8
100	MULIX	0.2	4.0	32.0	40	±10	±12	10	8	10
150	MULIX	0.2	6.0	48.0	60	±10	±12	10	8	10
220	MULIX	0.1	8.8	70.4	88	±12	±14	12	10	12
330	E	0.1	13.2	105.6	132	±12	±14	12	10	12
470	E	0.08	18.8	150.4	188	±14	±16	14	12	14
Tensión nominal (Ur) 6.3V (Xook voltaje 4 V, 125° C)
15	C	0.4	0.9	7.5	9.4	±10	±12	8	6	8
22	C	0.35	1.3	11.0	13.8	±10	±12	8	6	8
33	MULIX	0.2	2.0	16.6	20.7	±10	±12	8	6	8
33	C	0.3	2.0	16.6	20.7	±10	±12	8	6	8
47	MULIX	0.2	2.9	23.6	29.6	±10	±12	8	6	8
68	MULIX	0.17	4.2	34.2	42.8	±10	±12	8	6	8
100	MULIX	0.15	6.3	50.4	63.0	±10	±12	10	8	10
150	E	0.125	9.4	75.6	94.5	±10	±12	10	8	10
220	E	0.1	13.8	110.8	138.6	±12	±14	12	10	12
330	E	0.1/0.09	20.7	166.3	207.9	±12	±14	12	10	12
470	E	0.08/0.06	29.6	236.8	296.1	±14	±16	14	12	14
Tensión nominal (Ur) 10V (Xook voltaje 7 V, 125° C)
10	C	0.5	1.0	8.0	10	±10	±12	8	6	8
15	C	0.4	1.5	12.0	15	±10	±12	8	6	8
22	C	0.35	2.2	17.6	22	±10	±12	8	6	8
33	C	0.3	3.3	26.4	33	±10	±12	8	6	8
47	MULIX	0.2	4.7	37.6	47	±10	±12	8	6	8
68	MULIX	0.15	6.8	54.4	68	±10	±12	8	6	8
100	E	0.1	10	80	100	±10	±12	10	8	10
100	MULIX	0.1	10	80	100	±10	±12	10	8	10
150	E	0.1	15	120	150	±10	±12	10	8	10
150	MULIX	0.1	15	120	150	±10	±12	10	8	10
220	E	0.1	22	176	220	±12	±14	12	10	12
330	E	0.1/0.07	33	264	330	±12	±14	12	10	12
470	E	0.08/0.06	47	376	470	±14	±16	14	12	14

Potencia eléctrica u nominal (CR). ΜF	Meyaj ku shell	ESR máx. 100KHz +25° C Ω	Sáasilo' u fuga máx. μA			Variación Buka'aj u ba'al Rango u %		Le ángulo asab reduce ti' le k'aas %
			+25° C	+85° C	+125° C	-55° C	+125° C	-55° C	+25° C	+85° C
			+25° C	+85° C	+125° C	+85° C	+125° C	-55° C	+25° C	+125° C
Tensión nominal (Ur) 4V (Xook voltaje 2.7 V, 125° C)
68	C	0.2	2.7	21.7	27.2	±10	±12	8	6	8
100	MULIX	0.2	4.0	32.0	40	±10	±12	10	8	10
150	MULIX	0.2	6.0	48.0	60	±10	±12	10	8	10
220	MULIX	0.1	8.8	70.4	88	±12	±14	12	10	12
330	E	0.1	13.2	105.6	132	±12	±14	12	10	12
470	E	0.08	18.8	150.4	188	±14	±16	14	12	14
Tensión nominal (Ur) 6.3V (Xook voltaje 4 V, 125° C)
15	C	0.4	0.9	7.5	9.4	±10	±12	8	6	8
22	C	0.35	1.3	11.0	13.8	±10	±12	8	6	8
33	MULIX	0.2	2.0	16.6	20.7	±10	±12	8	6	8
33	C	0.3	2.0	16.6	20.7	±10	±12	8	6	8
47	MULIX	0.2	2.9	23.6	29.6	±10	±12	8	6	8
68	MULIX	0.17	4.2	34.2	42.8	±10	±12	8	6	8
100	MULIX	0.15	6.3	50.4	63.0	±10	±12	10	8	10
150	E	0.125	9.4	75.6	94.5	±10	±12	10	8	10
220	E	0.1	13.8	110.8	138.6	±12	±14	12	10	12
330	E	0.1/0.09	20.7	166.3	207.9	±12	±14	12	10	12
470	E	0.08/0.06	29.6	236.8	296.1	±14	±16	14	12	14
Tensión nominal (Ur) 10V (Xook voltaje 7 V, 125° C)
10	C	0.5	1.0	8.0	10	±10	±12	8	6	8
15	C	0.4	1.5	12.0	15	±10	±12	8	6	8
22	C	0.35	2.2	17.6	22	±10	±12	8	6	8
33	C	0.3	3.3	26.4	33	±10	±12	8	6	8
47	MULIX	0.2	4.7	37.6	47	±10	±12	8	6	8
68	MULIX	0.15	6.8	54.4	68	±10	±12	8	6	8
100	E	0.1	10	80	100	±10	±12	10	8	10
100	MULIX	0.1	10	80	100	±10	±12	10	8	10
150	E	0.1	15	120	150	±10	±12	10	8	10
150	MULIX	0.1	15	120	150	±10	±12	10	8	10
220	E	0.1	22	176	220	±12	±14	12	10	12
330	E	0.1/0.07	33	264	330	±12	±14	12	10	12
470	E	0.08/0.06	47	376	470	±14	±16	14	12	14

Potencia eléctrica u nominal (CR). ΜF	Meyaj ku shell	ESR máx. 100KHz +25° C Ω	Sáasilo' u fuga máx. μA			Variación Buka'aj u ba'al Rango u %		Le ángulo asab reduce ti' le k'aas %
			+25° C	+85° C	+125° C	-55° C	+125° C	-55° C	+25° C	+85° C
			+25° C	+85° C	+125° C	+85° C	+125° C	-55° C	+25° C	+125° C
Tensión nominal (Ur) 4V (Xook voltaje 2.7 V, 125° C)
68	C	0.2	2.7	21.7	27.2	±10	±12	8	6	8
100	MULIX	0.2	4.0	32.0	40	±10	±12	10	8	10
150	MULIX	0.2	6.0	48.0	60	±10	±12	10	8	10
220	MULIX	0.1	8.8	70.4	88	±12	±14	12	10	12
330	E	0.1	13.2	105.6	132	±12	±14	12	10	12
470	E	0.08	18.8	150.4	188	±14	±16	14	12	14
Tensión nominal (Ur) 6.3V (Xook voltaje 4 V, 125° C)
15	C	0.4	0.9	7.5	9.4	±10	±12	8	6	8
22	C	0.35	1.3	11.0	13.8	±10	±12	8	6	8
33	MULIX	0.2	2.0	16.6	20.7	±10	±12	8	6	8
33	C	0.3	2.0	16.6	20.7	±10	±12	8	6	8
47	MULIX	0.2	2.9	23.6	29.6	±10	±12	8	6	8
68	MULIX	0.17	4.2	34.2	42.8	±10	±12	8	6	8
100	MULIX	0.15	6.3	50.4	63.0	±10	±12	10	8	10
150	E	0.125	9.4	75.6	94.5	±10	±12	10	8	10
220	E	0.1	13.8	110.8	138.6	±12	±14	12	10	12
330	E	0.1/0.09	20.7	166.3	207.9	±12	±14	12	10	12
470	E	0.08/0.06	29.6	236.8	296.1	±14	±16	14	12	14
Tensión nominal (Ur) 10V (Xook voltaje 7 V, 125° C)
10	C	0.5	1.0	8.0	10	±10	±12	8	6	8
15	C	0.4	1.5	12.0	15	±10	±12	8	6	8
22	C	0.35	2.2	17.6	22	±10	±12	8	6	8
33	C	0.3	3.3	26.4	33	±10	±12	8	6	8
47	MULIX	0.2	4.7	37.6	47	±10	±12	8	6	8
68	MULIX	0.15	6.8	54.4	68	±10	±12	8	6	8
100	E	0.1	10	80	100	±10	±12	10	8	10
100	MULIX	0.1	10	80	100	±10	±12	10	8	10
150	E	0.1	15	120	150	±10	±12	10	8	10
150	MULIX	0.1	15	120	150	±10	±12	10	8	10
220	E	0.1	22	176	220	±12	±14	12	10	12
330	E	0.1/0.07	33	264	330	±12	±14	12	10	12
470	E	0.08/0.06	47	376	470	±14	±16	14	12	14

Potencia eléctrica u nominal (CR). ΜF	Meyaj ku shell	ESR máx. 100KHz +25° C Ω	Sáasilo' u fuga máx. μA			Variación Buka'aj u ba'al Rango u %		Le ángulo asab reduce ti' le k'aas %
			+25° C	+85° C	+125° C	-55° C	+125° C	-55° C	+25° C	+85° C
			+25° C	+85° C	+125° C	+85° C	+125° C	-55° C	+25° C	+125° C
Tensión nominal (Ur) 4V (Xook voltaje 2.7 V, 125° C)
68	C	0.2	2.7	21.7	27.2	±10	±12	8	6	8
100	MULIX	0.2	4.0	32.0	40	±10	±12	10	8	10
150	MULIX	0.2	6.0	48.0	60	±10	±12	10	8	10
220	MULIX	0.1	8.8	70.4	88	±12	±14	12	10	12
330	E	0.1	13.2	105.6	132	±12	±14	12	10	12
470	E	0.08	18.8	150.4	188	±14	±16	14	12	14
Tensión nominal (Ur) 6.3V (Xook voltaje 4 V, 125° C)
15	C	0.4	0.9	7.5	9.4	±10	±12	8	6	8
22	C	0.35	1.3	11.0	13.8	±10	±12	8	6	8
33	MULIX	0.2	2.0	16.6	20.7	±10	±12	8	6	8
33	C	0.3	2.0	16.6	20.7	±10	±12	8	6	8
47	MULIX	0.2	2.9	23.6	29.6	±10	±12	8	6	8
68	MULIX	0.17	4.2	34.2	42.8	±10	±12	8	6	8
100	MULIX	0.15	6.3	50.4	63.0	±10	±12	10	8	10
150	E	0.125	9.4	75.6	94.5	±10	±12	10	8	10
220	E	0.1	13.8	110.8	138.6	±12	±14	12	10	12
330	E	0.1/0.09	20.7	166.3	207.9	±12	±14	12	10	12
470	E	0.08/0.06	29.6	236.8	296.1	±14	±16	14	12	14
Tensión nominal (Ur) 10V (Xook voltaje 7 V, 125° C)
10	C	0.5	1.0	8.0	10	±10	±12	8	6	8
15	C	0.4	1.5	12.0	15	±10	±12	8	6	8
22	C	0.35	2.2	17.6	22	±10	±12	8	6	8
33	C	0.3	3.3	26.4	33	±10	±12	8	6	8
47	MULIX	0.2	4.7	37.6	47	±10	±12	8	6	8
68	MULIX	0.15	6.8	54.4	68	±10	±12	8	6	8
100	E	0.1	10	80	100	±10	±12	10	8	10
100	MULIX	0.1	10	80	100	±10	±12	10	8	10
150	E	0.1	15	120	150	±10	±12	10	8	10
150	MULIX	0.1	15	120	150	±10	±12	10	8	10
220	E	0.1	22	176	220	±12	±14	12	10	12
330	E	0.1/0.07	33	264	330	±12	±14	12	10	12
470	E	0.08/0.06	47	376	470	±14	±16	14	12	14

Potencia eléctrica u nominal (CR). ΜF	Meyaj ku shell	ESR máx. 100KHz +25° C Ω	Sáasilo' u fuga máx. μA			Variación Buka'aj u ba'al Rango u %		Le ángulo asab reduce ti' le k'aas %
			+25° C	+85° C	+125° C	-55° C	+125° C	-55° C	+25° C	+85° C
			+25° C	+85° C	+125° C	+85° C	+125° C	-55° C	+25° C	+125° C
Tensión nominal (Ur) 4V (Xook voltaje 2.7 V, 125° C)
68	C	0.2	2.7	21.7	27.2	±10	±12	8	6	8
100	MULIX	0.2	4.0	32.0	40	±10	±12	10	8	10
150	MULIX	0.2	6.0	48.0	60	±10	±12	10	8	10
220	MULIX	0.1	8.8	70.4	88	±12	±14	12	10	12
330	E	0.1	13.2	105.6	132	±12	±14	12	10	12
470	E	0.08	18.8	150.4	188	±14	±16	14	12	14
Tensión nominal (Ur) 6.3V (Xook voltaje 4 V, 125° C)
15	C	0.4	0.9	7.5	9.4	±10	±12	8	6	8
22	C	0.35	1.3	11.0	13.8	±10	±12	8	6	8
33	MULIX	0.2	2.0	16.6	20.7	±10	±12	8	6	8
33	C	0.3	2.0	16.6	20.7	±10	±12	8	6	8
47	MULIX	0.2	2.9	23.6	29.6	±10	±12	8	6	8
68	MULIX	0.17	4.2	34.2	42.8	±10	±12	8	6	8
100	MULIX	0.15	6.3	50.4	63.0	±10	±12	10	8	10
150	E	0.125	9.4	75.6	94.5	±10	±12	10	8	10
220	E	0.1	13.8	110.8	138.6	±12	±14	12	10	12
330	E	0.1/0.09	20.7	166.3	207.9	±12	±14	12	10	12
470	E	0.08/0.06	29.6	236.8	296.1	±14	±16	14	12	14
Tensión nominal (Ur) 10V (Xook voltaje 7 V, 125° C)
10	C	0.5	1.0	8.0	10	±10	±12	8	6	8
15	C	0.4	1.5	12.0	15	±10	±12	8	6	8
22	C	0.35	2.2	17.6	22	±10	±12	8	6	8
33	C	0.3	3.3	26.4	33	±10	±12	8	6	8
47	MULIX	0.2	4.7	37.6	47	±10	±12	8	6	8
68	MULIX	0.15	6.8	54.4	68	±10	±12	8	6	8
100	E	0.1	10	80	100	±10	±12	10	8	10
100	MULIX	0.1	10	80	100	±10	±12	10	8	10
150	E	0.1	15	120	150	±10	±12	10	8	10
150	MULIX	0.1	15	120	150	±10	±12	10	8	10
220	E	0.1	22	176	220	±12	±14	12	10	12
330	E	0.1/0.07	33	264	330	±12	±14	12	10	12
470	E	0.08/0.06	47	376	470	±14	±16	14	12	14

Potencia eléctrica u nominal (CR). ΜF	Meyaj ku shell	ESR máx. 100KHz +25° C Ω	Sáasilo' u fuga máx. μA			Variación Buka'aj u ba'al Rango u %		Le ángulo asab reduce ti' le k'aas %
			+25° C	+85° C	+125° C	-55° C	+125° C	-55° C	+25° C	+85° C
			+25° C	+85° C	+125° C	+85° C	+125° C	-55° C	+25° C	+125° C
Tensión nominal (Ur) 4V (Xook voltaje 2.7 V, 125° C)
68	C	0.2	2.7	21.7	27.2	±10	±12	8	6	8
100	MULIX	0.2	4.0	32.0	40	±10	±12	10	8	10
150	MULIX	0.2	6.0	48.0	60	±10	±12	10	8	10
220	MULIX	0.1	8.8	70.4	88	±12	±14	12	10	12
330	E	0.1	13.2	105.6	132	±12	±14	12	10	12
470	E	0.08	18.8	150.4	188	±14	±16	14	12	14
Tensión nominal (Ur) 6.3V (Xook voltaje 4 V, 125° C)
15	C	0.4	0.9	7.5	9.4	±10	±12	8	6	8
22	C	0.35	1.3	11.0	13.8	±10	±12	8	6	8
33	MULIX	0.2	2.0	16.6	20.7	±10	±12	8	6	8
33	C	0.3	2.0	16.6	20.7	±10	±12	8	6	8
47	MULIX	0.2	2.9	23.6	29.6	±10	±12	8	6	8
68	MULIX	0.17	4.2	34.2	42.8	±10	±12	8	6	8
100	MULIX	0.15	6.3	50.4	63.0	±10	±12	10	8	10
150	E	0.125	9.4	75.6	94.5	±10	±12	10	8	10
220	E	0.1	13.8	110.8	138.6	±12	±14	12	10	12
330	E	0.1/0.09	20.7	166.3	207.9	±12	±14	12	10	12
470	E	0.08/0.06	29.6	236.8	296.1	±14	±16	14	12	14
Tensión nominal (Ur) 10V (Xook voltaje 7 V, 125° C)
10	C	0.5	1.0	8.0	10	±10	±12	8	6	8
15	C	0.4	1.5	12.0	15	±10	±12	8	6	8
22	C	0.35	2.2	17.6	22	±10	±12	8	6	8
33	C	0.3	3.3	26.4	33	±10	±12	8	6	8
47	MULIX	0.2	4.7	37.6	47	±10	±12	8	6	8
68	MULIX	0.15	6.8	54.4	68	±10	±12	8	6	8
100	E	0.1	10	80	100	±10	±12	10	8	10
100	MULIX	0.1	10	80	100	±10	±12	10	8	10
150	E	0.1	15	120	150	±10	±12	10	8	10
150	MULIX	0.1	15	120	150	±10	±12	10	8	10
220	E	0.1	22	176	220	±12	±14	12	10	12
330	E	0.1/0.07	33	264	330	±12	±14	12	10	12
470	E	0.08/0.06	47	376	470	±14	±16	14	12	14

Páaybe'en: 1、It is forbidden to use tantalum capacitor regardless of polarity;

2、The measurement frequency of capacitance and loss angle tangent is 100Hz, U_=2.20-10V, U~＝

-0.5

1.00 V (valid value);

3、When measuring the 125℃ leakage current, please apply the category voltage;

4、Special size requirements or large capacity products can be negotiated with our company

5、ESR has two standards behind the diagonal standard is the added new standard, which is stricter than the CBAFB detailed specification. If there is a demand, please indicate the order;

Kanasaj tantalio chip polímero grado ts'aak ti' kaajalo'ob SMD (doble 85) CBAE