160X44N105MV4E [JOHANSON]

Data Line Filter, 1 Function(s), 16V, EIA STD PACKAGE SIZE 1410, 3 PIN;


型号：	160X44N105MV4E
厂家：	JOHANSON TECHNOLOGY INC.
描述：	Data Line Filter, 1 Function(s), 16V, EIA STD PACKAGE SIZE 1410, 3 PIN 电容器
文件：	总6页 (文件大小：514K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

X2Y Fil t e r & De c o u p l i n g

ca pa c i t o r s

The X2Y^®Design - A Capacitive Circuit

X2Y^®components share many common features with standard multi-layer ceramic capacitors (MLCC) for easy adoption by end-users.

• Same component sizes (0603, 0805, 1206, etc.)

• Same pick and place equipment

• Same dielectric, electrode and termination materials

• Same industry test standards for component reliability

A standard multi-layer ceramic capacitor (MLCC) consists of opposing electrode layers A & B. The X2Y design adds another set of electrode layers (G) which

effectively surround each existing electrode of a two-terminal capacitor. The only external difference is two additional side terminations, creating a four-terminal

capacitive circuit, which allows circuit designers a multitude of attachment options.

X2Y^®Circuit 1: Filtering

When used in circuit 1 configuration the X2Y filter capacitor is connected across two signal lines. Differential mode noise is filtered to ground by the two Y

capacitors, A & B. Common mode noise is cancelled within the device.

Experts agree that balance is the key to a “quiet” circuit. X2Y® is a balanced circuit device with two equal

halves, tightly matched in both phase and magnitude with respect to ground. Several advantages are

gained by two balanced capacitors sharing a single ceramic component body.

Signal 1

Ground

Signal 2

• Exceptional common mode rejection

• Effect of voltage variation eliminated

• Matched line-to-ground capacitance

• Effects of aging & temperature are equal on both caps

InAmp Input Filter Example

In this example, a single Johanson X2Y component was used to filter noise at the input of a DC

instrumentation amplifier. This reduced component count by 3-to-1 and costs by over 70% vs.

conventional filter components that included 1% film Y-capacitors.

Parameter

X2Y^®

10nF

Discrete

10nF, 2 @ 220 pF

Comments

DC offset shift

< 0.1 µV

91 dB

< 0.1 µV

92 dB

Referred to input

Common mode rejection

Source: Analog Devices, “A Designer’s Guide to Instrumentation Amplifiers (2nd Edition)” by Charles Kitchin and Lew Counts

Common Mode Choke Replacement

In this example, a 5 µH common mode choke is replaced by an 0805, 1000pF

X2Y component acheiving superior EMI filtering by a component a fraction

DC Motor EMI Reduction: A Superior Solution

One X2Y component has successfully replaced 7 discrete filter components

while achieving superior EMI filtering.

of the size and cost.

No Filter

CMC 5uH

X2Y® 1000pF

Ambient

Common Mode Choke

9.0 x 6.0 x 5.0 mm

X2Y^®

2.0 x 1.3 x 1.0 mm

www.johansondielectrics.com

X2Y Fil t e r & De c o u p l i n g

ca pa c i t o r s

X2Y^®Circuit 2: Decoupling

When used in circuit 2 configuration, A & B capacitors are placed in parallel effectively doubling the apparent capacitance while maintaining an ultra-low

inductance. The low inductance advantages of the X2Y® Capacitor Circuit enables high-performance bypass networks at reduced system cost.

Power

• Low ESL (device only and mounted)

• Broadband performance

• Lower via count, improves routing

• Reduces component count

• Lowers placement cost

• Effective on PCB or package

Ground

Component Performance

The X2Y

has short, multiple and opposing current paths

resulting in lower device inductance.

Mounted Performance

Mutual coupling from

opposing polarity vias

lowers inductance when

mounted on a PCB.

SYSTEM PERFORMANCE

1:5 MLCC Replacement Example

104 MLCs

0402 47nF

20 X2Y

0603 100nF

Transfer Impedance

seen by FPGA

X2Y’s proven technology enables end-users to use one X2Y

capacitor to replace five conventional MLCCs in a typical high

performance IC bypass design. Vias are nearly cut in half, board

space is reduced and savings are in dollars per PCB.

www.johansondielectrics.com

X2Y Fil t e r & De c o u p l i n g

ca pa c i t o r s

X2Y^®filter capacitors employ a unique, patented low inductance design featuring two balanced

capacitors that are immune to temperature, voltage and aging performance differences.

These components offer superior decoupling and EMI filtering performance, virtually eliminate

parasitics, and can replace multiple capacitors and inductors saving board space and reducing

assembly costs.

Ad v A n tA g e s

Ap p l i c At i o n s

• One device for EMI suppression or decoupling

• Replace up to 7 components with one X2Y

• Differential and common mode attenuation

• Matched capacitance line to ground, both lines

• Low inductance due to cancellation effect

• FPGA / ASIC / µ-P Decoupling

• DDR Memory Decoupling

• Amplifier FIlter & Decoupling

• High Speed Data Filtering

• Cellular Handsets

Equivalent Circuits

Cross-sectional View

Dimensional View

Circuit 1

(Y Cap.)

Circuit 2

(2*Y Cap.)

CAP.

SIZE

0402

CODE

NPO

X7R

NPO

X7R

NPO

X7R

NPO

X7R

0603

0805

1206

VOLTAGE

RATINGS

6 = 6.3 VDC

10 = 10 VDC

16 = 16 VDC

25 = 25 VDC

50 = 50 VDC

1* = 100 VDC

X7R

1210

1410

1812

Circuit 1 Capacitance (Balanced Filtering) = A (or B) to G Circuit 2 Capacitance (Decoupling) = A + B to G

Rated voltage is for A or B to ground. Contact factory for part combinations not shown.

X2Y technology patents and registered trademark under license from X2Y ATTENUATORS, LLC

www.johansondielectrics.com

X2Y Fil t e r & De c o u p l i n g

ca pa c i t o r s

Filtering

Circuit 1 S21

Signal-to-Ground

Decoupling

Circuit 2 S21

Power-to-Ground

Power

Signal 1

Ground

Signal 2

25.0

2.50

0.25

.025

25.0

2.50

0.25

.025

Additional test data and related information available at www.johansondielectrics.com/x2y/

Me c h A n i c A l

ch A r A c t e r i s t i c s

0402 (X07)

0603 (X14)

0805 (X15)

1206 (X18)

1210 (X41)

1410 (X44)

1812 (X43)

0.045

0.003

1.143

0.076

0.064

0.005

1.626

0.127

0.080

0.008

2.032

0.203

0.124

0.010

3.150

0.254

0.125

0.010

3.175

0.254

0.140

0.010

3.556

0.254

0.174

0.010

4.420

0.254

0.024

0.003

0.610

0.076

0.035

0.005

0.889

0.127

0.050

0.008

1.270

0.203

0.063

0.010

1.600

0.254

0.098

0.010

2.489

0.254

0.098

0.010

2.490

0.254

0.125

0.010

3.175

0.254

0.020

max

0.508

max

0.026

max

0.660

max

0.040

max

1.016

max

0.050

max

1.270

max

0.070

max

1.778

max

0.070

max

1.778

max

0.090

max

2.286

max

0.008

0.003

0.203

0.076

0.009

0.004

0.229

0.102

0.009

0.004

0.229

0.102

0.009

0.004

0.229

0.102

0.009

0.005

0.229

0.127

0.009

0.005

0.229

0.127

0.009

0.005

0.229

0.127

0.010

0.003

0.305

0.076

0.018

0.004

0.457

0.102

0.022

0.005

0.559

0.127

0.040

0.005

1.016

0.127

0.045

0.005

1.143

0.127

0.045

0.005

1.143

0.127

0.045

0.005

1.143

0.127

ho w t o

r d e r X2Y^®Fil t e r & de c o u p l i n g

cA pA c i t o r s

100

X14

104

VOLTAGE

6R3 = 6.3 V

CASE SIZE

DIELECTRIC

N = NPO

W = X7R

CAPACITANCE

TOLERANCE

20%

TERMINATION

V = Ni barrier w/

100% Sn Plating

TAPE MODIFIER

1st two digits are

significant; third digit

denotes number of

zeros.

Code

Tape

Embossed

Paper

Reel

7”

X07 = 0402

X14 = 0603

X15 = 0805

X18 = 1206

X41 = 1210

X43 = 1812

X44 = 1410

100

160

250

500

10 V

16 V

25 V

50 V

7”

MARKING

4 = Unmarked

Tape specs. per EIA RS481

474 = 0.47 µF

105 = 1.00 µF

101 = 100 V

P/N written: 6R3X14W104MV4T

www.johansondielectrics.com

X2Y Fil t e r & De c o u p l i n g

ca pa c i t o r s

so l d e r

pA d

re c o M M e n d At i o n s

0402 (X07)

IN mm

0603 (X14)

0805 (X15)

1206 (X18)

1210 (X41)

1410 (X44)

1812 (X43)

1.27

0.89

1.27

0.56

2.03

3.05

1.65

1.02

2.03

1.02

3.05

4.06

0.020

0.024

0.015

0.039

0.064

0.51

0.61

0.38

0.99

1.63

0.035

0.025

0.040

0.020

0.060

0.090

0.89

0.64

1.02

0.51

1.52

2.29

0.050

0.035

0.050

0.022

0.080

0.120

0.065

0.040

0.080

0.040

0.120

0.160

0.100

0.040

0.080

0.045

0.160

2.54

1.02

2.03

1.14

4.06

0.100

0.040

0.100

0.045

0.160

0.180

2.54

1.02

2.54

1.14

4.06

4.57

0.125

0.040

0.130

0.045

0.190

0.210

3.18

1.02

3.30

1.14

4.83

5.33

Use of solder mask beneath component is not recommended.

Good Layout

Poor Layout

Figure 1

optiMizing X2Y pe r F o r M A n c e w it h

pr o p e r

At tA c h M e n t

te c h n i q u e s

X2Y^®capacitors excel in low inductance performance for a myriad of applications including EMI/RFI ﬁltering, power supply bypass

/ decoupling. How the capacitor is attached to the application PCB is every bit as important as the capacitor itself. Proper attention

to pad layout and via placement insures superior device performance. Poor PCB layouts squander performance, requiring more

capacitors, and more vias to do the same job. Figure 1 compares the X2Y^®recommended layout against a poor layout. Because

of its long extents from device terminals to vias, and the wide via separation, the poor layout shown performs badly. It exhibits

approximately 200% L1 inductance, and 150% L2 inductance compared to recommended X2Y layouts.

For further details on via placement and it’s effect on mounted inductance, please refer to X2Y Attenuators, LLC. application note

“Get the Most from X2Y Capacitors with Proper Attachment Techniques” at www.x2y.com/bypass.htm

X2Y technology patents and registered trademark under license from X2Y ATTENUATORS, LLC

Johanson Dielectrics, Inc. reserves the right to make design and price changes without notice. All sales are subject to the terms

and conditions printed on the back side of our sales order acknowledgment forms, including a limited warranty and remedies for

non-conforming goods or defective goods. We will be pleased to provide a copy of these terms and conditions for your review.

JOꢀANSON ꢀONG KONG LTD.

JOꢀANSON EUROPE LTD.

Unit E, 11/F., Phase 1, Kaiser Estate

41 Man Yue Street

Hunghom, Kowloon, Hong Kong

Tel: (852) 2334 6310 • Fax: (852) 2334 8858

Acorn House, Old Kiln Road

Flackwell Heath, Bucks HP10 9NR

United Kingdom

15191 Bledsoe Street

Sylmar, California 91342

Tel (818) 364-9800 • FAX (818) 364-6100

http://www.johansondielectrics.com

Tel +44-162-853-1154 • Fax +44-162-853-2703

160X44N105MV4E [JOHANSON]

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