GE Industrial Solutions Tranquell Series Medium and High User Manual

2020000604 (12/09) Page 5 of 15

 M

AXIMUM

C

ONTINUOUS

O

PERATING

V

OLTAGE

(MCOV)

This value defines the maximum line-to-line or line-to-neutral continuous AC voltage that can be

safely applied to the protector. MCOV levels for GE Tranquell Series SPDs are set at 115% of

nominal system voltage. For 120-volt AC systems, the MCOV is 125%. If there is a risk that the

electrical system voltage could exceed MCOV, or if any unusually high power frequencies,

Temporary Over Voltages (TOV), or phase swells are anticipated, contact your GE Sales Engineer for

further assistance.

 E

LECTRICAL

S

YSTEM

C

ONFIGURATION

Protectors are available for single (split) phase with neutral and ground, three-phase grounded WYE,

three-phase ungrounded WYE, three-phase high-leg delta, and for three-phase ungrounded delta

systems. (See page 7 for power source configurations)

 P

EAK

I

MPULSE

R

ATING

Peak surge current capability is an important characteristic for a SPD. The rating per mode should

equal or exceed the maximum surge expected in service. GE Tranquell SPDs are available in

maximum surge ratings of 65kA, 80kA, 100kA, 125kA, 150kA, 200kA and 300kA.

 UL 1449 N

OMINAL

D

ISCHARGE CURRENT

(In)

The UL Nominal Discharge Current (In) rating should be considered when an SPD is selected for use

within a UL96A Lightning Protection System. UL96A requires a Nominal Discharge Current (In)

rating of 20kA for Type 1 or Type 2 SPDs.

 S

HORT

C

IRCUIT

C

URRENT

R

ATING

GE Tranquell TPHE type SPD units are UL certified for use on electrical systems with rated

ampacities up to 200,000 symmetrical amperes maximum. TPME type SPDs are UL rated for

systems up to 100,000 A.

 E

NVIRONMENTAL

R

ATINGS

The SPD is provided in a NEMA 1 Rated Panelboard extension enclosure and is designed to operate

within an ambient temperature range of –40

o

C to 65

o

C (-40

o

F to 149

o

F) with a relative humidity

level between 0-95% non-condensing.



A direct lightning strike, that occurs within close proximity of an installed SPD, can result in

surge currents that exceed the SPD’s energy handling capability. This can result in reduced

life expectancy or pre-mature failure of the SPD. Electrical power system supply voltages in

excess of the SPD MCOV rating, can also cause SPD failure.



Should a condition occur that results in premature failure of the SPD, the suppression

circuitry will short, thereby allowing the integral SPD fusing to interrupt current flow without

disrupting power to the connected loads. However, after SPD failure, the load equipment will

remain unprotected from subsequent surge activity until the SPD is replaced.



Increased rate of rise or higher surge current magnitudes can result in increased surge let-

thru levels due to the non-linear clamping characteristics of SPDs. Conditions can occur

where the surge withstand capability of the protected equipment is exceeded even though

the SPD is functioning properly. In such cases, additional SPDs may be required, located

closer to the sensitive load(s). (For additional information, refer to Standard IEEE 1100-2005,

Section 3.4.3)



GE Tranquell ETP Series WYE-connected SPDs have both normal mode (L-N, L-L) and

common mode (L-G, N-G) protection. Protection between neutral and ground is provided on

units designed for WYE-connected applications.