LT4H-AC240V Panasonic Electric Works, LT4H-AC240V Datasheet - Page 15

LT4H-AC240V

Manufacturer Part Number

LT4H-AC240V

Description

TIMER RELAY DIGITAL 240VAC 11PIN

Manufacturer

Panasonic Electric Works

Series

LT4Hr

Type

Digital Timerr

Datasheets

1.LT4H-DC24VS.pdf (39 pages)

2.LT4H-AC240VS.pdf (19 pages)

Specifications of LT4H-AC240V

Contact Form

SPDT

Dimensions

48mmW×48mmH×75.6mmD

Enclosure Rating

IP66

Ip Rating

IP66

Memory

EEPROM

Mounting Type

DIN Rail/Flush

Output Type

Relay

Primary Type

Controller

Special Features

EEPROM

Termination

Plug-In

Voltage, Supply

100 to 240 VAC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

255-1214

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LT4H-AC240V

Manufacturer:

Panasonic Electric Works

Quantity:

135

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LT4H-AC240VS

Manufacturer:

Panasonic Electric Works

Quantity:

135

Current page: 15 of 39
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PRECAUTIONS IN USING THE LT4H SERIES

1. Terminal wiring

1) When wiring the terminals, refer to the

terminal layout and wiring diagrams and

be sure to perform the wiring properly

without errors.

2) When using the instrument with an

flush mounting, the screw-down terminal

type is recommended. For the pin type,

use either the rear terminal block

(AT78041) or the 8P cap (AD8-RC) for

the 8-pin type, and the rear terminal

block (AT78051) or the 11P cap (AT8-

DP11) for the 11-pin type. Avoid solder-

ing directly to the round pins on the unit.

When using the instrument with a front

panel installation, use the DIN rail termi-

nal block (AT8-DF8K) for the 8-pin type

and the DIN rail terminal block (AT8-

DF11K) for the 11-pin type.

3) After turning the unit off, make sure

that any resulting induced voltage or

residual voltage is not applied to power

supply terminals W through U (8-pin

type) W through P (11-pin type) or

and

power supply wire is wired parallel to the

high voltage wire or power wire, an

induced voltage may be generated

between the power supply terminals.)

4) Have the power supply voltage pass

through a switch or relay so that it is

applied at one time. If the power supply

is applied gradually, the counting may

malfunction regardless of the settings,

the power supply reset may not function,

or other such unpredictable occurrence

may result.

2. Input connections

The power circuit has no transformer

(power and input terminals are not insu-

lated). When an input signal is fed to two

or more timers at once, do not arrange

the power circuit in an independent way.

If the timer is powered on and off inde-

pendently as shown in Fig. A, the timer's

internal circuitry may get damaged.Be

careful never to allow such circuitry.

(Figs. A, B and C show the circuitry for

the 11-pin type.)

( Fig. A )

Input contact

point or transistor

(screw terminal type). (If the

Input

terminal

Input

terminal

Power

supply

Input contact

point or transistor

If independent power circuitry must be

used, keep the input contacts or transis-

tors separate from each other, as shown

in Fig. B.

( Fig. B )

Input contact

point or transistor

When power circuitry is not independent,

one input signal can be fed to two or

more counters at once, as shown in Fig.

( Fig. C )

Input contact

point or transistor

3. Input and output

1) Signal input type

(1) Contact point input

Use highly reliable metal plated contacts.

Since the contact point’s bounce time

leads directly to error in the timer opera-

tions, use contacts with as short a

bounce time as possible. Also, select a

minimum input signal width of 20 ms.

(2) Non-contact point input

Connect with an open collector. Use

transistors whose characteristics satisfy

the criteria given below.

Also, use transistors with a residual volt-

age of less than 2 V when the transistor

is on.

CBO

8-pin type

11-pin type

Screw terminal type

CEO

= 20 mA min.

= 6µA max.

= 20 V min.

Reset input

Start input

Input

terminal

Input

terminal

Input

terminal

Input

terminal

Stop input

Lock

input

—

Power

supply

Power

supply

* The short-circuit impedance should be

less than 1 kΩ.

[When the impedance is 0 Ω, the current

coming from the start input and stop

input terminals is approximately 12 mA,

and from the reset input and lock input

terminals is approximately 1.5 mA.]

Also, the open-circuit impedance should

be more than 100 kΩ.

* As shown in the diagram below, from a

2) The input mode and output mode

change depending on the DIP switch set-

tings. Therefore, before making any con-

nections, be sure to confirm the opera-

tion mode and operation conditions cur-

rently set.

3) The LT4H series use power supply

without a transformer (power and input

terminals are not insulated). In connect-

ing various kinds of input signals, there-

fore, use a power transformer in which

the primary side is separated from the

ungrounded secondary side as shown in

Fig. A, for the power supply for a sensor

and other input devices so that short-cir-

cuiting can be prevented.

8-pin type

11-pin type

Screw terminal type

non-contact point circuit (proximity

switches, photoelectric switches, etc.)

with a power supply voltage of between

12 and 40 V, the signal can be input

without using an open collector transis-

tor. In the case of the diagram below,

when the non-contact point transistor Q

switches from off to on (when the signal

voltage goes from high to low), the sig-

nal is input.

8-pin type

11-pin type

Screw terminal type

12 to 40V DC

(The above example is for reset input)

Reset input

Start input

Stop input

Reset input

Lock

input

—

LT4H-AC240V Panasonic Electric Works, LT4H-AC240V Datasheet - Page 15

LT4H-AC240V

Specifications of LT4H-AC240V

Available stocks

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