308 Constitution Drive
Menlo Park, CA 94025-1164
Phone: 800-227-4856
www.circuitprotection.com
PolySwitch®
PTC Devices
Overcurrent Protection Devi ce
Raychem Circuit Protection Products
PRODUCT: LVR040S
DOCUMENT: SCD 24906
PCN: 336638
REV LETTER: J
REV DATE: APRIL 25, 2007
PAGE NO.: 1 OF 2
Specification Status: RELEASED
Electrical Rating at 20°C
Rated Operating Voltage/ Interrupt Current:
240 VAC /5.5 ARMS
240 VDC /5.5 A DC
135 VAC/20.0 ARMS
135 VDC/20.0 A DC
Max Interrupt Voltage: 265 VAC/DC 5.5 ARMS
Insulating Material :
Cured, Flame Retardant Epoxy Polymer
Lead Material: 22 AWG Sn Plated Copper
Marking:
Raychem Logo
and Voltage
Lot Identification
Part Identification
L040
(
can be on back
)
240
TABLE I. DIMENSIONS:
A B C D E
MIN MAX MIN MAX MIN MAX MIN MAX MIN MAX
mm: -- 11.5 -- 19.5 4.3 5.8 7.6 -- -- 3.8
in*: -- (0.46 -- (0.77) (0.17) (0.23) (0.30) -- -- (0.15)
*Rounded off approximation
TABLE II. PERFORMANCE RATINGS:
IHOLD
RATED
CURRENT
CURRENT RATINGS TIME TO TRIP RESISTANCE POST-TRIP
RESISTANCE
STANDARD
TRIP
NOMINAL
TRIPPED
POWER
DISSIPATION
@ 265 V RMS
AMPS
AT 20oC OHMS
AT 20oC
AMPS AT
20oC
HOLD HOLD TRIP
SECONDS AT
20oC, 2.0A
MAX MIN MAX
OHMS
AT 20oC
MAX
WATTS
AT 20oC
0.40 0.40 0.90 24.0 0.6 0.97 1.9 2.0
Recognitions: UL, TUV, CSA recognized.
Reference Documents: PS300
Precedence: This specification takes precedence over documents referenced herein.
Effectivity: Reference documents shall be the issue in effect on the date of invitation for bid.
Warning: Refer to Page 2 of this document for application limitations.
© 2004, 2007 Tyco Electronics Corporation. All rights reserved.
308 Constitution Drive
Menlo Park, CA 94025-1164
Phone: 800-227-4856
www.circuitprotection.com
PolySwitch®
PTC Devices
Overcurrent Protection Devi ce
Raychem Circuit Protection Products
PRODUCT: LVR040S
DOCUMENT: SCD 24906
PCN: 336638
REV LETTER: J
REV DATE: APRIL 25, 2007
PAGE NO.: 2 OF 2
Warning: Application Limitations for the LVR Product Line
1. Users should independently evaluate the suitability of and test each product selected for their
own application.
2. This product should not be used in an application where the maximum interrupt voltage or
maximum interrupt current can be exceeded in a fault condition. Operation beyond the
maximum ratings or improper use may result in device damage and possible electrical arcing
and flame.
3. A PTC device is not a fuse - it is a nonlinear thermistor that limits current. Because under a
fault condition all PTC devices go into a high resistance state but not open circuit, hazardous
voltage may be present at PTC locations.
4. The devices are intended for protection against occasional overcurrent or overtemperature
fault conditions and should not be used when repeated fault conditions or prolonged trip events
are anticipated.
5. In most applications, power must be removed and the fault condition cleared in order to reset a
PTC device. However, under certain unusual conditions, a PTC device may automatically
reset (see Raychem Circuit Protection Databook). Accordingly, PTC devices should not be
used in an application where an automatic reset could create a safety hazard, such as garbage
disposals and blenders.
6. It is the responsibility of the user to determine the need for back up or fail safe protection to
prevent damage that may occur in the event of abnormal function or failure of the PTC device.
7. Operation in circuits with a large inductance can generate a circuit voltage (Ldi/dt) above the
rated voltage of a PTC device.
8. Devices are not recommended for reflow soldering.
9. Device performance can be impacted negatively if devices are handled in a manner
inconsistent with recommended electronic, thermal, or mechanical procedures for electronic
components.
10. PTC devices are not recommended to be installed in applications where the device is
constrained such that its PTC properties are inhibited, for example in rigid potting materials or
in rigid housings which lack adequate clearance to accommodate device expansion.
11. Contamination of the PTC material with certain silicone-based oils or some aggressive
solvents can adversely impact the performance of the devices.