What does TNB require for a solar grid connection application in Malaysia?

TNB requires: a SEDA NEM Approval Letter (for NEM systems), a Single-Line Diagram (SLD) stamped by a Professional Engineer registered with the Board of Engineers Malaysia (BEM), inverter and solar panel datasheets (models must be on the Energy Commission's approved equipment list), the electrical contractor's CIDB registration and ST Electrical Contractor Licence, and the customer's TNB account details. For systems above 75 kWp, TNB may also require a protection relay schedule and load flow study. Submit via TNB's myTNB business portal or the regional TNB commercial office.

What are the anti-islanding requirements for solar in Malaysia?

TNB requires all grid-connected solar inverters to include automatic anti-islanding protection that disconnects the inverter from the TNB grid within 2 seconds of detecting loss of TNB supply. This prevents the solar system from energising the distribution line during a TNB outage — protecting maintenance workers. The anti-islanding function must comply with IEC 62116. Modern grid-tied inverters include this as a standard built-in function; however, the function must be confirmed as enabled during commissioning, and TNB inspectors will verify the anti-islanding setting during the site inspection.

Do I need a Professional Engineer stamp on my solar SLD for TNB?

Yes. All TNB solar grid connection applications require a Single-Line Diagram (SLD) stamped by a Professional Engineer (PE) registered with the Board of Engineers Malaysia (BEM). The PE takes professional responsibility for the technical accuracy of the SLD — including the protection scheme, metering arrangement, earthing, and compliance with Malaysia's electrical regulations. TNB will reject applications with unstamped or informally signed drawings. The PE stamp must include the PE's registration number and signature.

How long does the TNB solar connection approval take?

TNB's distribution solar connection process typically takes 6–10 weeks for residential systems (under 12 kWp) and 10–16 weeks for commercial systems (above 12 kWp). Complex commercial systems requiring detailed protection relay specifications or load flow studies may take 16–24 weeks. The TNB application process runs in parallel with site preparation — submit the TNB application as soon as the SEDA Approval Letter is received, rather than waiting for installation to be complete.

What protection relay does TNB require for commercial solar systems?

For NEM systems above 75 kWp, TNB typically requires a dedicated protection relay at the point of grid connection, in addition to the inverter's built-in anti-islanding function. The protection relay requirements — type, settings (voltage, frequency, earth fault), and interface with TNB's network protection — are specified by TNB's Distribution System Standards and confirmed during the technical assessment. The protection relay must be type-approved and settings must be documented in the SLD submitted to TNB. Confirm the specific relay requirements with TNB's technical team before designing the protection scheme.

TNB Solar Connection Guide Malaysia 2026: Grid Application, Protection & Inspection

TNB’s grid connection approval is the second of two mandatory approvals for a Malaysian NEM solar installation — SEDA quota approval comes first, TNB technical approval comes second. TNB’s technical review is more detailed than SEDA’s; it assesses the system’s actual impact on the distribution network. For commercial systems above 75 kWp, TNB’s protection relay requirements and potential request for load flow studies can extend the approval timeline significantly. This guide covers what TNB requires, in what format, and in what order.

Grid Operator

Tenaga Nasional Berhad (TNB)

Regulator

Suruhanjaya Tenaga (Energy Commission of Malaysia)

Governing Legislation

Electricity Supply Act 1990 (Act 447); Electricity Regulations 1994

Application Portal

myTNB Business Portal / Regional TNB commercial office

SLD Requirement

PE-stamped by BEM-registered Professional Engineer — mandatory

Protection Requirement

Anti-islanding (IEC 62116), voltage/frequency protection; relay for >75 kWp

Inverter Approval

Must be on Energy Commission (ST) approved equipment list

Approval Timeline

6–10 weeks residential; 10–16 weeks commercial

Applicable Region

Peninsular Malaysia only — not Sarawak (SEB) or Sabah (SESB)

Last Updated

April 2026

Never Energise a Grid-Connected Solar System Before TNB Connection Approval

Energising a solar system connected to the TNB grid without TNB’s connection approval is a violation of the Electricity Supply Act 1990. TNB can disconnect the system, issue penalties, and require the customer to reapply from scratch. The cost and delay of an unauthorised connection far exceeds the time saved by skipping the approval process.

TNB Application Documentation

Document Checklist by System Type

Document	Residential (≤12 kWp)	Commercial (12–75 kWp)	Large Commercial (>75 kWp)
SEDA NEM Approval Letter	Required	Required	Required
PE-stamped SLD	Required	Required	Required
Inverter datasheet	Required	Required	Required
Panel datasheet	Required	Required	Required
Contractor CIDB registration	Required	Required	Required
ST Electrical Contractor Licence	Required	Required	Required
TNB account details	Required	Required	Required
Protection relay schedule	Not required	May be required	Required
Load flow study	Not required	Not required	May be required
Metering arrangement diagram	Part of SLD	Separate document	Separate document

Single-Line Diagram (SLD) Requirements

The PE-stamped SLD must show:

Solar array configuration (number of strings, panels per string, total kWp)
DC disconnect and protection (DC isolator, DC fuse, surge protection device)
Inverter (make, model, AC output rating, protection relay functions)
AC protection (AC isolator, residual current device, over-current protection)
Bi-directional NEM meter location (metering point at the TNB boundary)
Main distribution board (MDB) connection and main switch
Earthing and bonding arrangement (PV array, inverter, MDB)
Labels and ratings for all components
For systems above 75 kWp: dedicated protection relay, metering cubicle, point of common coupling (PCC) with TNB’s network

Technical Protection Requirements

Anti-Islanding Protection

All grid-connected inverters must include automatic anti-islanding protection per IEC 62116. The function must:

Detect loss of TNB supply within 2 seconds
Automatically disconnect the inverter from the grid upon detection
Prevent re-connection until TNB supply has been restored and is stable for a defined period (typically 30–300 seconds — confirm with the inverter manufacturer)

Verification during inspection: TNB inspectors simulate a grid outage condition and verify that the inverter disconnects within the required timeframe. Confirm during commissioning that the anti-islanding setting is enabled (some inverters ship with this function disabled by default).

Voltage and Frequency Protection

Protection Function	Trip Threshold (Peninsular Malaysia)
Under-voltage	Disconnect if voltage falls below 87% of nominal (196V for 230V nominal)
Over-voltage	Disconnect if voltage exceeds 110% of nominal (253V for 230V nominal)
Under-frequency	Disconnect if frequency falls below 47.5 Hz
Over-frequency	Disconnect if frequency exceeds 52.0 Hz
Reconnection	Only reconnect after supply stable for 30–300 seconds

These thresholds are the general TNB Distribution Code requirements. TNB’s technical assessment may specify different or tighter thresholds for specific connection points — follow the technical assessment letter for site-specific requirements.

Protection Relay for Systems Above 75 kWp

For commercial NEM installations above 75 kWp, TNB typically requires a dedicated protection relay at the point of connection with the distribution network — separate from the inverter’s built-in protection functions. The protection relay:

Monitors voltage, frequency, and earth fault conditions at the grid connection point
Trips the main circuit breaker between the solar system and the TNB network if thresholds are exceeded
Must be type-approved and settings verified against TNB’s relay setting schedule
Settings must be documented in the SLD and confirmed with TNB’s protection engineer during the technical assessment

Common approved protection relay types for Malaysian solar installations include numerical protection relays from manufacturers such as Schneider Electric, ABB, SEL, and similar. Confirm the approved relay list with TNB — using an unapproved relay type will delay the connection approval.

Metering Requirements

Bi-Directional NEM Meter

TNB supplies and installs the bi-directional NEM meter as part of the NEM approval process. The customer pays the metering point preparation cost (metering cubicle, wiring to the metering point) but not the meter itself.

For large commercial systems, TNB may require a dedicated metering cubicle with a CT (Current Transformer) metering arrangement — the design of this cubicle must be approved by TNB before installation.

Metering Point Location

The NEM meter must be installed at the boundary between the customer’s installation and TNB’s network. For most buildings, this is at the main incoming supply point (the existing TNB supply meter location). The SLD must clearly show the metering point and confirm that no generation equipment is connected upstream (on the TNB side) of the meter.

TNB Inspection Process

Booking the Inspection

Book the TNB site inspection via the myTNB portal or the regional TNB office after system installation is complete. TNB schedules inspection appointments based on technician availability in the area — advance notice of 2–4 weeks is typical.

What TNB Inspects

Item	What TNB Checks
System capacity	Confirms installed kWp matches approved SLD and SEDA approval
Inverter model	Verifies model matches approved documentation and is on ST approved list
Anti-islanding	Tests automatic disconnection under simulated grid outage condition
Protection relay (>75 kWp)	Verifies relay model, settings, and trip function
Metering arrangement	Confirms meter location and that no generation is connected upstream of the meter
Earthing	Checks earthing connections at PV array, inverter, and MDB
Labelling	Verifies DC and AC isolation points are clearly labelled and accessible
AC and DC isolators	Tests operation and confirms accessible location for KPLC technicians

Inspection Outcomes

Outcome	Description	Next Step
Pass	All items comply	TNB installs bi-directional NEM meter; NEM billing begins next cycle
Conditional pass	Minor items need correction	Correct items; notify TNB for re-inspection of specific items only
Fail	Significant non-compliance	Address all defects; book full re-inspection

Generate TNB-Ready Solar Documentation with SurgePV

SurgePV produces PE-compatible single-line diagrams and technical documentation packages for Malaysian solar installations — reducing the back-and-forth with professional engineers and TNB offices.

See Design Features

No commitment required · 20 minutes · Live project walkthrough

Common TNB Application Issues

Issue	Cause	Resolution
SLD rejected — no PE stamp	Drawing signed by draftsman but not stamped by PE	Engage BEM-registered PE; resubmit stamped SLD
Inverter not on approved list	Specified inverter not in ST’s approved equipment register	Check ST approved list before specifying; change inverter model if needed
Application held — no SEDA letter	TNB application submitted before SEDA approval	Wait for SEDA Approval Letter; resubmit to TNB
Technical assessment requests load flow	System large enough to impact local network	Engage a PE with load flow analysis capability; complete and resubmit
Inspection fails — anti-islanding disabled	Inverter shipped with anti-islanding in standby mode	Enable and test anti-islanding during commissioning before booking inspection
Meter cubicle design not approved	Large commercial system requires dedicated cubicle	Submit cubicle design to TNB for pre-approval before fabrication

Malaysia Solar Regulations Overview — full country compliance stack
Malaysia NEM 3.0 Guide — quota system and NEM billing mechanics
SEDA Application Process — SEDA NEM portal steps
C&I Solar Malaysia — NEM vs SELCO decisions for commercial buyers

Use solar design software with Malaysian irradiance data and TNB-aligned SLD outputs to reduce preparation time for grid connection applications.

Frequently Asked Questions

Does TNB charge a fee for the solar connection application? TNB charges a connection assessment fee for solar applications. The fee structure depends on the system size — residential applications have a lower assessment fee than large commercial applications. TNB may also charge a service fee for the bi-directional NEM meter installation. Confirm current fee schedules with TNB’s regional commercial office, as fees are reviewed periodically and vary by system category.

Can I submit the TNB application before installation is complete? Yes — and this is recommended for commercial systems. Submit the TNB application as soon as you receive the SEDA Approval Letter, even if the installation has not yet started. TNB’s technical assessment process (which can take 10–16 weeks for commercial systems) can run in parallel with equipment procurement and site preparation. This parallelism can save 2–3 months compared to submitting the TNB application after installation is complete.

Who is responsible for the earthing system at the PV array? The electrical contractor is responsible for the earthing system design and installation. The earthing arrangement must be shown on the PE-stamped SLD and must comply with the Electricity Regulations 1994 and MS IEC 60364-7-712. TNB’s inspector will check that the array frame, inverter chassis, and MDB are all properly earthed and bonded. Common issues: PV array frame not bonded to the building’s main earthing system, or undersized earthing conductors.

What happens if I change the inverter model after TNB approval but before installation? Changing the inverter model after TNB connection approval requires notifying TNB and, if the new model is materially different (different protection settings, different AC output), potentially resubmitting the application with an updated PE-stamped SLD. Installing a different inverter model than what was approved without notifying TNB is a compliance violation that can delay the meter installation or trigger re-inspection requirements. Notify TNB proactively of any equipment changes — the cost of transparency is much lower than the cost of a failed inspection.