LH1514AB Vishay, LH1514AB Datasheet - Page 5

IC,Normally-Open PC-Mount Solid-State Relay,2-CHANNEL,DIP

LH1514AB

Manufacturer Part Number

LH1514AB

Description

IC,Normally-Open PC-Mount Solid-State Relay,2-CHANNEL,DIP

Manufacturer

Vishay

Datasheet

1.LH1514AAC.pdf (6 pages)

Specifications of LH1514AB

Load Voltage Rating

15 V

Load Current Rating

0.15 A

Contact Form

1 Form 2A

Output Device

MOSFET

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Package / Case

PDIP-8

Output Type

AC, DC

Mounting Style

Through Hole

Case Color

Black

Relay Type

Solid State

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Functional Description

Figure 12 shows the switch characteristics of the relay. The

relay exhibits an ON-resistance that is exceptionally linear up

to the knee current (I

decreases, minimizing internal power dissipation.

In a 2 Form A relay, to turn the relay on, forward current is

applied to the LED. The amount of current applied determines

the amount of light produced for the photodiode array.

This photodiode array develops a drive voltage for both NMOS

switch outputs. For high-temperature or high-load current

operations, more LED current is required.

For high-frequency applications, the LH1514 must be wired as

shown in the Figure 15 application diagram to minimize trans-

mission crosstalk and bleed-through. A single LH1514 pack-

age switches a single transmit twisted pair or a single receive

twisted pair. In this conﬁguration when the SSR is turned off,

the SSR parries high-frequency signals by shunting them

through the SSR, thereby isolating the transformer load.

When switching alternate mark inversion (AMI) coding trans-

mission, the most critical SSR parameter is dv/dt bleed-

through. This bleed-through is a result of the rise and fall time

slew rates of the 3.0 V AMI pulses. The test circuit in Figure 13

illustrates these bleed-through glitches. It is important to rec-

ognize that the transmission limitations of the LH1514 are

bleed-through related and not frequency related. The maxi-

mum frequency the LH1514 SSR can switch will be determined

by the pulse rise and fall times and the sensitivity of the receive

electronics to the resultant bleed-through.

At data rates above 2.0 Mbits/s, the 50 pF pole-to-pole capaci-

tance of the LH1514 should be considered when analyzing the

load match to the transmission line. Please refer to the T1

Switching with the LH1514 SSR Application Note for further

information on load-matching and off-state blocking.

Test Circuit

Figure 13. Off-state Bleed-through

* 50 Ω load is derived from T1 applications where a 100 Ω load is paralleled with a 100 Ω line.

Document Number: 83814

Revision 17-August-01

t r 5.0 ns

f = 1.5 MHz

). Beyond I

t f 5.0 ns

, the incremental resistance

3.0 V

Figure 11. Pin Diagram and Pin Outs

Figure 12. Typical ON Characteristics

–V

(max)

CONTROL +

CONTROL–

BLANK

–0.3 V

150 mA

50 Ω *

60 mA

DPST

–60 mA

–150 mA

–I

0.3 V

100 mV

max

S1'

S2'

5.0 Ω

www.vishay.com

100 mV

max

(max)

4.0 Ω

3–76

LH1514AB Vishay, LH1514AB Datasheet - Page 5

LH1514AB

Specifications of LH1514AB

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