MDC3105LT1G ON Semiconductor, MDC3105LT1G Datasheet - Page 8

MDC3105LT1G

Manufacturer Part Number

MDC3105LT1G

Description

IC RELAY/DRVR INDUCT LOAD SOT23

Manufacturer

ON Semiconductor

Type

Relay/Load Driverr

Datasheets

1.MDC3105LT1G.pdf (14 pages)

2.MDC3105LT1G.pdf (12 pages)

Specifications of MDC3105LT1G

Input Type

Non-Inverting

Number Of Outputs

Current - Output / Channel

400mA

Current - Peak Output

500mA

Voltage - Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

SOT-23-3, TO-236-3, Micro3™, SSD3, SST3

Supply Voltage Max

No. Of Outputs

Output Current

400mA

Driver Case Style

SOT-23

Device Type

Relay

Filter Terminals

SMD

No. Of Pins

Rohs Compliant

Yes

Leaded Process Compatible

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

On-state Resistance

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

MDC3105LT1GOS
MDC3105LT1GOS
MDC3105LT1GOSTR

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Current page: 8 of 12
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1. Determine the maximum inductive load current (at

2. For pulsed operation, use the Transient Thermal

3. Use Figures 10 & 11 with the SOA notes above to

4. While keeping any V

5. For levels of input current below 100 mA, use the

max V

temperature) that the MDC3105 will have to drive

and make sure it is less than the max rated current.

Response of Figure 12 and the instructions with it

to determine the maximum limit on transistor power

dissipation for the desired duty cycle and

temperature range.

insure that instantaneous operation does not push

the device beyond the limits of the SOA plot.

determine the max input current needed to achieve

that output current from Figures 2 & 6.

input threshold curves of Figure 4 to verify that

EQUIVALENT

74HC04 OR

Designing with this Data Sheet

, min coil resistance & usually minimum

O(sat)

Figure 13. A 200 mW, 5.0 V Dual Coil Latching Relay Application

(1)

requirements in mind,

with 3.0 V−HCMOS Level Translating Interface

MDC3105LT1

GND (2)

APPLICATIONS DIAGRAMS

out

(3)

http://onsemi.com

MDC3105LT1

+3.0 V

+4.5 V

TX2−L2−5 V

AROMAT

+3.75 Vdc

+5.5 Vdc

6. For levels of input current above 100 mA, enter

7. Using the max output current calculated in step 1,

8. Using Figures 8 & 9, insure that “OFF” state

9. Review circuit operation and insure none of the

there will be adequate input current available to turn

on the MDC3105 at all temperatures.

Figure 3 using that max input current and determine

the input voltage required to drive the MDC3105

from the solid V

drive source family from those whose dotted lines

cross the solid input characteristic line to the right

of the I

check Figure 7 to insure that the range of zener

clamp voltage over temperature will satisfy all

system & EMI requirements.

leakage over temperature and voltage extremes does

not violate any system requirements.

device max ratings are being exceeded.

GND (2)

MDC3105LT1

out

(3)

, V

point.

versus I

(1)

line. Select a suitable

EQUIVALENT

74HC04 OR

MDC3105LT1G ON Semiconductor, MDC3105LT1G Datasheet - Page 8

MDC3105LT1G

Specifications of MDC3105LT1G

Available stocks

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