Grid components

Indoor Current Transformers & Voltage Transformers

Protecting an evolving Indoor grid

Medium voltage indoor instrument transformers are used for measurement in protection, control, and monitoring systems providing precise and reliable performance in medium voltage applications.

ABB’s medium voltage indoor instrument transformers portfolio is highly versatile, offering a wide range of dimensions, designs, and ratings that can be tailored to meet customers' precise specifications, ensuring the perfect fit for their installations. Our portfolio, for IEC and other standards, is ideal for various medium voltage indoor applications, where air or gas-insulated medium voltage switchgear are the main installations, but also for compact secondary substations, motors and generators, dry-type transformers, and capacitor banks. As part of our portfolio, ABB offers the following product lines:

Indoor current transformers, up to 40.5 kV for metering, protection or zero-measurement purposes. The available designs include block type, bus type, and cable type current transformers.
Indoor voltage transformers, up to 40.5 kV for metering, protection or external power supply. The main designs are single-pole and double-pole voltage transformers. Single-pole transformers can be equipped with or without a fuse.

ABB medium voltage indoor instrument transformers are available for original equipment manufacturers (OEMs), panel builders and non-panel builders’ applications, Engineering, Procurement and Construction (EPC) partners, as well as end-users to incorporate them in their installations or retrofit and upgrade projects.

ABB supports customers and partners in staying ahead of increasing electrification needs, technology advancements, and regulatory changes, providing the power to adapt to a rapidly evolving energy landscape.

ABB's portfolio for indoor instrument transformers

IEC & Other standards

Current transformers

Cable CTs

0-current CTs

Voltage transformers

Metal coated VTs

Indoor block and bus type current transformers for phase measurement

TPU

TPU, up to 40.5 kV, are block type current transformers cast in epoxy resin with rated primary currents up to 3,200 A. TPU act as a support of the busbar and offer the possibility of built-in capacity divider for voltage indication. Upon request, these products can be designed as secondary or primary reconnectable.

TPU are ideal for medium voltage switchgear such as UniGear, UniSec and SafeRing, but equally for other applications such as Compact Secondary Substations, Motors & Generators, Drives, metal enclosed capacitor banks and dry type transformers.

Learn more:
TPU 4 up to 12 kV
TPU 5 up to 17.5 kV
TPU 6 up to 27.5 kV
TPU 7 up to 40.5 kV

For the Manual and other useful product documents, please visit TPU – ABB Library

KOKS

KOKS, up to 17.5 kV, are bus type current transformer cast in epoxy resin without a primary conductor, but with medium voltage insulation and with rated primary currents up to 4,000 A.

KOKS are ideal for medium voltage primary air-insulated switchgear with higher nominal primary currents such as UniGear ZS1 . They can also be used in Motors & Generators.

Learn more:
KOKS

For the Manual and other useful product documents, please visit KOKS – ABB Library

Indoor cable current transformers for phase measurement

KOKM for primary GIS

KOKM 072, up to 0.72 kV, and KOKM 1, up to 1.2 kV, are epoxy cast indoor cable current transformers ideal for phase current measurements in medium voltage primary gas-insulated switchgear ( see ABB’s portfolio here). Due to high dimensions variability, they are designed to fit up to two medium voltage bushings, busbars or cables, which act as the primary conductors.

Learn more:
KOKM1

For the Manual and other useful product documents, please visit KOKM – ABB Library

KOKM for secondary GIS

KOKM 072, up to 0.72 kV, are indoor cable current transformers having thermoplastic housing and resin insulation. They are ideal for phase current measurements in medium voltage secondary gas-insulated switchgear (see ABB’s portfolio here SafeRing & SafePlus). They are designed to be installed on the medium voltage cables, which act as the primary conductors.

Learn more:
KOKM 072

For the Manual and other useful product documents, please visit KOKM – ABB Library

KOKM

KOKM up to 1.2 kV, are highly versatile indoor cable current transformers, ideal for measuring either phase or residual current in air- or gas-insulated medium voltage switchgear. Other applications include motors and generators and dry-type transformers.

The KOKM series has high dimensional variability, with an inner diameter ranging from 33 to 500 mm and a length ranging from 60 to 300 mm. Cable, busbar or bushing serves as the primary conductor and must be insulated for the medium voltage application.

Learn more:
KOKM

For the Manual and other useful product documents, please visit KOKM – ABB Library

BD 00

BD 00, up to 0.72 kV, are indoor cable current transformers mostly having a thermoplastic housing. They are ideal for phase current measurements in medium voltage air- or gas-insulated switchgear (see ABB’s portfolio here UniSec) . They are designed to fit insulated medium voltage busbars or cables, which act as the primary conductors. The oval variant of the BD 00 can fit two insulated medium-voltage cables. These products are used in ABB's UniSec and also SafePlus switchgear.

Learn more:
BD 00

For the Manual and other useful product documents, please visit BD 00 – ABB Library

Indoor cable current transformers for residual measurement

KOKM 06

KOKM 06, up to 0.72 kV, are rectangular types of epoxy cast indoor cable current transformers ideal for measurement of zero currents with multiple insulated medium voltage cables in medium voltage air- or gas-insulated switchgear. Our KOKM 06 portfolio is available in various dimensions with an inner diameter ranging from 200x300 mm to 450x650 mm.

Learn more:
KOKM 06

For the Manual and other useful product documents, please visit KOKM – ABB Library

KOLMA/ KOLA

KOLMA and KOLA, both up to 0.72 kV, are specific types of epoxy cast cable indoor current transformers ideal for measurement of zero currents of insulated medium voltage cables in medium voltage air- or gas-insulated switchgear.

Both products are designed for use with earth-fault Protection relays. The KOLMA can be configured as a single-ratio or multi-ratio version. The KOLA is manufactured as a split-core type.

Learn more:
KOLMA/KOLA

For the Manual and other useful product documents, please visit KOLMA – ABB Library, KOLA – ABB Library

Indoor voltage transformers

TJC/ TJCH

TJC/ TJCH, up to 40.5 kV, are medium voltage indoor voltage transformers cast in epoxy resin and equipped with no fuse. TJC/TJCH are single-phase voltage transformers that are intended to have one end of their primary winding directly earthed. TJCH are achieving higher burden values compared to TJC.

TJC/TJCH are ideal for medium voltage switchgear (see ABB’s portfolio here UniGear, UniSec and SafePlus), Compact Secondary Substations, Motors & Generators, Drives and metal enclosed capacitor banks. These products are fully compatible with ferroresonance protection device VT Guard Pro/Pro-D when connected in open-delta configuration.

Learn more:
TJC 4 up to 12 kV
TJCH 4 up to 12 kV
TJC 5 up to 17.5 kV
TJCH 5 up to 17.5 kV
TJC 6 up to 27.5 kV
TJC 7.1 up to 40.5 kV

For the Manual and other useful product documents, please visit TJC(H) – ABB Library

TJP/ TJPH

TJP/ TJPH, up to 40.5 kV, are medium voltage indoor voltage transformers that are cast in epoxy resin. They are vastly delivered with a fuse. TJP/ TJPH are single-phase voltage transformers intended to have one end of their primary winding directly earthed. TJPH are achieving higher burden values compared to TJP.

TJP/ TJPH are ideal for medium voltage switchgear (see ABB’s portfolio here UniGear), Compact Secondary Substations, Motors & Generators, Drives and metal enclosed capacitor banks.

TJP/TJPH are available for fixed installations or voltage transformer withdrawable trucks. These products offer variable fuses and fuse-holders’ orientation, as well as fuses with or without a striker pin indication. These products are fully compatible with ferroresonance protection device VT Guard Pro/Pro-D when connected in open-delta configuration.

Learn more:
TJP 4 up to 12 kV
TJPH 4 up to 12 kV
TJP 5 up to 17.5 kV
TJPH 5 up to 17.5 kV
TJP 6 up to 27.5 kV
TJP 7.x up to 40.5 kV

For the Manual and other useful product documents, please visit TJP(H) – ABB Library

TDC

TDC, up to 25 kV, are medium voltage indoor voltage double-pole transformers, cast in epoxy resin. All parts of TDC’s primary winding, including terminals, are insulated from the earth at a level corresponding to its rated insulation voltage level.

TDC are ideal for medium voltage air-insulated Switchgear, Motors & Generators, Drives and metal enclosed capacitor banks. These products could also be used for an external power supply.

Learn more:
TDC 4 up to 12 kV
TDC 5 up to 17.5 kV
TDC 6 up to 25 kV

For the Manual and other useful product documents, please visit TDC – ABB Library

Accessories - VT Guard

VT Guard PRO are an advanced security devices that protect medium voltage inductive single-pole voltage transformers against ferroresonant oscillations. Ferroresonant oscillations may be initiated by transient events such as switching operations, in power networks. The protection occurs by proper and prompt damping action, without causing excessive power consumption during normal network operation. VT Guard Pro completely replace the damping resistor being connected in an open-delta configuration and are available in two versions:

VT Guard Pro
VT Guard Pro–D, which, in addition to all the functionalities offered by VT Guard Pro, has extended functions that allow self-diagnosis and cooperation with a superior system.

Learn more:
VT Guard Pro / VT Guard Pro-D

For the Manual and other useful product documents, please visit VT Guard Pro/Pro-D – ABB Library

Indoor metal-coated voltage transformers

TJMC 7

TJMC 7, up to 40.5 kV, are medium voltage indoor single-pole voltage transformers. They are cast in epoxy resin and further metal-coated to achieve a touch-proof design. TJMC 7 are ideal for ABB’s medium voltage primary gas-insulated switchgear ZX2. TJMC are designed to fit primary gas-insulated switchgear cable and busbar compartments.

Learn more:
TJMC 7.x

For the Manual and other useful product documents, please visit TJMC 7 – ABB Library

TJMP / TJMC 6

TJMP 4, up to 12 kV, TJMC 6 and TJMP 6, up to 24 kV, are medium voltage indoor single-pole voltage transformers. They are cast in epoxy resin and metal-coated to achieve a touch-proof design. All three products are ideal for ABB’s medium voltage primary gas-insulated switchgear PrimeGear ZX0. TJMC and TJMP are designed to fit switchgear cable compartment and are compatible with NKT busbars. TJMP can be equipped with the replaceable fuse with various ratings.

Learn more:
TJMP/ TJMC 6

For the Manual and other useful product documents, please visit TJMC/TJMP – ABB Library

TDMC 6

TDMC 6, up to 24 kV, is a medium voltage indoor double-pole voltage transformer. It is cast in epoxy resin and metal-coated to achieve a touch-proof design. TDMC 6 is equipped with C-type primary connections and is ideal for medium voltage gas-insulated switchgear. TDMC 6 is designed to be used for external power supply in new or retrofit installations, for example SafeRing & SafePlus.

Learn more:
TDMC 6.0 C

For the Manual and other useful product documents, please visit TDMC – ABB Library

Accessories - VT Guard

VT Guard Pro
VT Guard Pro–D, which, in addition to all the functionalities offered by VT Guard Pro, has extended functions that allow self-diagnosis and cooperation with a superior system.

Learn more:
VT Guard Pro / VT Guard Pro-D

For the Manual and other useful product documents, please visit VT Guard Pro/Pro-D – ABB Library

Product Scope

Click the arrow to learn more about product scope.


	TPU	KOKS	KOKM	KOKM for PGIS	KOKM for RMU	BD 00	KOKM	KOLMA/KOLA
Max.rated voltage	TPU 4 12 kV TPU 5 17.5 kV TPU 6 27.5 kV TPU 7 40.5 kV	KOKS 12 12 kV KOKS 17.5 17.5 kV	KOKM 1 1.2 kV	KOKM 072 0.72 kV KOKM 1 1.2 kV	KOKM 0.72 kV	BD 00 0.72 kV	KOKM 06 0.72 kV	KOLMA 0.72 kV KOLA 0.72 kV
Max.rated primary current	3 200 A	4 000 A	10 000 A	3 000 A	1 250 A	1 250 A	2 000 A	1 250 A
Max.rated short-time current	100 kA / 1 s	90 kA / 1 s	100 kA / 1 s	63 kA / 1 s	25 kA / 3 s	31,5 kA / 3 s	100 kA / 1 s	60 kA / 1 s
Max.quantity of cores	6 cores	6 cores	3-5 cores	3-5 cores	1-2 cores	1-2 cores	1 core	1 core
Standards	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, AS, BS, GOST, IEEE, CAN/CSA
Applications	MV switchgear, compact secondary substations, motors & generators, drives, metal encl. capacitor banks, dry type transformers	MV primary air-insulated switchgear, motors & generators	MV air-insulated switchgear, motors & generators, drives, CSS, MECB, dry type transformers	MV primary gas-insulated switchgear, designed to fit MV cables, busbars or bushings	MV secondary gas- insulated switchgear, designed for MV cables in the cable compartments	MV air or gas switchgear, designed for MV cables or busbar incl. variant for 2x MV cables	MV air or gas insulated switchgear, designed for measurements of zero currents with multiple MV cables	MV air or gas insulated switchgear, designed for measurements of zero currents of MV cables
Features	Support type, opt.reconnection, capacitive divider, various dimensions, ribs, sealable sec. terminal cover	CT without primary conductor insulated for the MV application, opt. secondary reconnectable	High dimensions variability, inner Ø 33~500 mm, length 60~300 mm, opt. sec.reconnectable, sealable term. cover	High dimensions variability incl. variant for 2x MV cables or bushings, opt. sec. reconnectable, sealable sec. covers	Inner Ø 42, 50 or 60 mm, variant for self-powered relays, opt. secondary reconnection, opt. sealable sec. covers	Inner Ø 59, 69, 70, 85 or 110 mm, opt. secondary reconnection, BD 00 opt. sealable IP40 sec. cover	6x dimension variants, from inner Ø 200x300 mm up to 450x650 mm, opt. secondary reconnection	Designed for use with earth-fault protection relays. KOLMA single or multiratio variants. KOLA split-core type


	TJC/TJCH	TJP/TJPH	TDC	TJMC	TJMC/TJMP	TDMC		VT Guard Pro/-D
Max.rated voltage	TJC(H) 4 12 kV TJC(H) 5 17,5 kV TJC 6 27,5 kV TJC 7 40,5 kV	TJP(H) 4 12 kV TJP(H) 5 17,5 kV TJP 6 27,5 kV TJP 7 40,5 kV	TDC 4 12 kV TDC 5 17,5 kV TDC 6 25 kV	TJMC 7 40,5 kV	TJMP 4 12 kV TJMC 6 24 kV TJMP 6 24 kV	TDMC 6 24 kV	Rated operational voltage	100/110 V
Max.rated primary voltage	36 000: √3 kV	36 000: √3 kV	22 000 kV	36 000: √3 kV	22 000: √3 kV	22 000 kV	Max. oper. current	10 A/0.2 s
Min.rated voltage factor	1,9x Un / 8h	1,9x Un / 8h	1,2x Un / Continuous	1,9x Un / 8h	1,9x Un / 8h	1,2x Un / Continuous	Voltage range	0-110 V
Max.quantity of windings	3-4 windings	3-4 windings	2 windings	3 windings	3 windings	2 windings	Threshold voltage	20; 25; 30 V
Standards	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST, IEEE, CAN/CSA	IEC, VDE, ČSN, PN, AS, BS, GOST	IEC, VDE, ČSN, PN, AS, BS, GOST	IEC, VDE, ČSN, PN, AS, BS, GOST	Time delay	0,4; 1,4; 2,4; 3,4s
Applications	MV switchgear, compact secondary substations, motors & generators, drives, metal encl. capacitor banks	MV switchgear, compact secondary substations, motors & generators, drives, metal encl. capacitor banks	MV air-insulated switchgear, motors & generators, drives, metal encl. capacitor banks	ABB MV primary SF6 gas-insulated switchgear, TJMC designed to fit switchgear cable and busbar compartments	ABB MV primary SF6 free gas-insulated switchgear, TJMC/P designed to fit switchgear cable and busbar compartments	MV gas-insulated switchgear, designed for the external power supply in new or retrofit installations	Applications	Designed for MV indoor single-pole VTs and open-delta connection. Protect VTs against ferroresonance phenomena
Features	Directly grounded sec. terminals with sealable cover, opt. reconnection, suitable for VT Guard Pro/Pro-D	In addition to TJC: ready for VT trucks, variable fuses and fuse-holder orientation, fuse w/wo indications	Directly grounded sec. terminals with sealable cover, opt. 2 primary voltage reconnection	Touch proof design, plug size 2 primary, opt. secondary plug-in, sealable sec. terminals cover or socket	Touch proof design, primary ½ C cone, sealable sec. terminals cover, opt. build in fuse with various ratings	Touch proof design, 2x primary C cones, sealable sec. cover, working ambient temperature as low as -35°C	Features	Replace the dumping resistors, installed in the LV compartment, high reliability, redundancy circuits, Pro-D self-diagnosis

Related offering

MV Switchgear

Compact secondary substations

Motor & Generators

Drives

Primary protection relays

Secondary protection relays

FAQ

1. Can ABB’s medium voltage indoor instrument transformers work in non-ABB installations?

Yes, ABB indoor instrument transformers are easy to install and friendly to maintain in most of the medium voltage indoor applications.

2. What is the maximum insulation voltage level of ABB’s medium voltage indoor IEC instrument transformers?

Maximum insulation voltage levels of ABB’s medium voltage indoor IEC instrument transformers are 40.5/95/200 kV.

3. Which customers typically use and install ABB’s medium voltage indoor instrument transformers?

ABB medium voltage indoor instrument transformers are typically used by original equipment manufacturers (OEMs), panel builders and non-panel builders’ applications, Engineering, Procurement and Construction (EPC) partners, utilities, as well as end-users. The transformers can be incorporated into installations or retrofit and upgrade projects.

4. Can ABB’s medium voltage indoor IEC instrument transformers be tailored to specific customer needs?

Yes, ABB's medium voltage indoor IEC instrument transformers specifications can be tailored to market or customer needs. For example, the electrical ratings are customized every time.

5. Can ABB’s indoor medium voltage IEC instrument transformers be used in non-panel builders’ switchgear installations?

Yes, ABB indoor medium voltage instrument transformers can be used in non-panel builders’ installations such as compact secondary substations, motors and generators, dry-type transformers, capacitor banks, metal-enclosed capacitor banks, generator circuit breakers, and others.

6. Do ABB’s medium voltage indoor IEC instrument transformers comply with the IEC standards?

Yes, ABB's medium voltage indoor IEC instrument transformers comply with the latest versions of the IEC 61869 standards.

7. Can ABB’s medium voltage indoor IEC instrument transformers be manufactured compliant with other standards, for example IEEE or CAN/CSA standard?

Yes, some of ABB's medium voltage indoor IEC instrument transformers can be manufactured compliant with the latest IEEE C57.13 or CAN/CSA-C61869 standards.

8. Can ABB’s medium voltage indoor IEC instrument transformers be calibrated for metering purposes?

ABB’s medium voltage indoor medium voltage IEC instrument transformers have their own routine test reports according to the relevant standard as stated on the product’s label. Based on special request, ABB’s medium voltage indoor instrument transformers can be calibrated in an accredited laboratory.

9. What is the expected lifetime of ABB’s medium voltage indoor instrument transformers?

ABB’s medium voltage indoor instrument transformers have an expected minimum lifetime of 30 years.

10. Can ABB’s medium voltage indoor IEC instrument transformers be delivered worldwide?

Yes, ABB has a global installed base of medium voltage indoor instrument transformers. Please feel free to contact our sales representatives for further information.

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