CROSS-STANDARD public interest · Solar PV inverter

China-to-Kyrgyzstan Solar PV Inverter Compliance Gap Matrix

AI-compiled from official public sources — cross-checked by multiple AI models, not human-verified. Informational only; see disclaimer. Public-interest, source-linked comparison of common China solar PV inverter documentation against Kyrgyzstan EAEU/EAC electrical safety and EMC obligations, Kyrgyzstandart / GOST / IEC evidence, NEHC/NESK/NEGK grid-connection review, IEC 62109 safety, IEC 62116 anti-islanding, IEC 61727 utility-interface behavior, IEC 61000 EMC context, 220/380 V 50 Hz grid settings, and high-altitude / cold-climate derating expectations.

Dataset 2026-06-11 Last verified 2026-06-14 4 rows

GAP MATRIX

Compliance Gap Matrix

Gap matrix
Compliance item Common China baseline Kyrgyzstan (Kyrgyzstandart / NEHC) Gap / action Source + verification date
EAEU EMC Conformity — TR CU 020/2011 and IEC 61000 Evidence for PV Inverters China-side packages often include GB/T 37408-2021, NB/T 32004, GB/T 19964-2024, and EMC test evidence generated for Chinese, IEC/CISPR, or other export markets. Those reports may help build the EAEU technical file but must be checked against TR CU 020/2011, the exact EAC conformity route, and any standards named by the Kyrgyzstan or EAEU conformity body.GB/T 37408-2021 — 光伏并网逆变器技术要求 (Technical Requirements for Photovoltaic Grid-Connected Inverters)
NB/T 32004 — 光伏并网逆变器技术规范 (Technical Specification for Photovoltaic Grid-Connected Inverters)
GB/T 19964-2024 — 光伏发电站接入电力系统技术规定 (Technical Requirements for Connecting Photovoltaic Power Station to Power System)
CISPR / IEC 61000 series test evidence where available		 Kyrgyzstan is an EAEU member state, so PV inverters with electronic power-conversion circuits and grid interfaces commonly require EAEU EMC conformity assessment under TR CU 020/2011 when the product is in scope. The EAC technical file should address emissions, immunity, harmonics, flicker where relevant, installation conditions, cable lengths, filters, grounding, operating modes, and firmware profiles relevant to grid-connected inverter use. Kyrgyzstandart / GOST / IEC evidence may be requested by local counterparties or project owners in addition to EAEU documentation.TR CU 020/2011 — Electromagnetic compatibility of technical devices
EAEU EAC marking and technical-file requirements for EMC-regulated products
IEC 61000 series EMC evidence where requested by the EAEU body, Kyrgyzstandart route, grid operator, or project owner
IEC 61727 utility-interface behavior where relevant to grid-connected PV		 The practical gap is not only EMC test limits. The EAEU file must match the exact model, hardware revision, firmware, filters, manuals, grid parameters, installation category, and intended operating modes. Reports prepared for China or another export market may need delta review, translation, local applicant control, EAEU laboratory acceptance, or retesting.[INFORMATIONAL] EMC reports from China or other markets should be treated as input evidence, not as automatic TR CU 020/2011 compliance for Kyrgyzstan. Confirm the EAC route, applicant role, accepted test standards, model-family coverage, and whether IEC 61000 evidence must be supplemented for the exact inverter configuration. Eurasian Economic Commission2026-06-14 · unverified
Kyrgyzstan Grid Connection — NEHC / NESK / NEGK Review, Anti-Islanding, and 220/380 V 50 Hz Settings China-side grid evidence commonly includes GB/T 19964-2024 for photovoltaic power stations connected to power systems, NB/T 32004 for PV grid-connected inverter technical specifications, GB/T 37408-2021 technical requirements, and domestic anti-islanding or grid-code test results. These documents are based on Chinese grid rules, Chinese utility expectations, and manufacturer firmware profiles. They can support technical due diligence but do not transfer automatically to Kyrgyzstan grid-operator connection review.GB/T 19964-2024 — 光伏发电站接入电力系统技术规定 (Technical Requirements for Connecting Photovoltaic Power Station to Power System)
NB/T 32004 — 光伏并网逆变器技术规范 (Technical Specification for Photovoltaic Grid-Connected Inverters)
GB/T 37408-2021 — 光伏并网逆变器技术要求 (Technical Requirements for Photovoltaic Grid-Connected Inverters)		 PV inverter deployment in Kyrgyzstan is a product-compliance and project-connection question. Product evidence may involve EAEU/EAC and Kyrgyzstandart / GOST / IEC documentation, while grid connection is handled at project level through the National Energy Holding Company structure and relevant subsidiaries, including NESK distribution companies for distribution-level connection and NEGK for transmission-level issues. Kyrgyzstan's commonly used low-voltage supply is 220/380 V at 50 Hz, so inverter firmware, protection thresholds, reconnection delays, frequency windows, and anti-islanding behavior should be validated for local network settings. Because the grid is hydro-dominant and faces winter deficit stress, project reviewers may scrutinize protection coordination and operating modes more closely for energy-security projects.NEHC / NESK / NEGK technical connection conditions where applicable
IEC 62116 — Utility-interconnected photovoltaic inverters — Test procedure of islanding prevention measures
IEC 61727 — Photovoltaic systems — Characteristics of the utility interface
Kyrgyzstan low-voltage grid expectation: 220/380 V, 50 Hz
GOST / IEC standards adopted or accepted through Kyrgyzstandart where applicable		 Gap: Chinese grid-code and anti-islanding reports are not NESK or NEGK connection approvals. Exporters should prepare a Kyrgyzstan-specific grid-settings table, IEC 62116 / IEC 61727 evidence where requested, firmware parameter records for 220/380 V 50 Hz operation, and project-specific responses to distribution or transmission technical conditions. EAEU/EAC product conformity does not replace grid-operator connection review; both may be relevant.[INFORMATIONAL] Treat NESK or NEGK technical conditions as a project gate separate from Chinese GB/T grid evidence and separate from EAEU/EAC product conformity. Validate anti-islanding, reconnection, voltage, frequency, cold-start, and high-altitude operating settings for Kyrgyzstan's 220/380 V, 50 Hz network before connection submission. National Electric Grid of Kyrgyzstan / NESK2026-06-14 · unverified
Kyrgyzstan Solar Project Context — Hydro-Dominant Grid, Winter Deficits, and Mountain / Cold-Climate Operation China domestic inverter packages often include datasheets, GB/T 37408-2021 evidence, NB/T 32004 evidence, Chinese grid-code settings, and IEC certificates prepared for export. These documents may not show the exact altitude, low-temperature start-up, enclosure, cooling, surge-protection, or firmware configuration required for a Kyrgyzstan site.GB/T 37408-2021
NB/T 32004
GB/T 19964-2024
Manufacturer export datasheet and IEC certificate package		 Kyrgyzstan's solar opportunity is linked to energy security: the power system is hydro-dominant, seasonal water constraints and winter demand create deficit risk, and solar projects may be developed for distributed self-consumption, remote sites, or utility support. Inverter acceptance should be checked at project level against the owner's technical specification, local grid-operator connection conditions, metering arrangement, altitude, ambient-temperature range, enclosure rating, cooling strategy, surge/lightning protection, and derating curves. A catalogue rating tested at standard laboratory conditions may not be sufficient for mountainous or cold-climate installations.Project-owner and lender technical specifications for solar PV projects in Kyrgyzstan
IEC 62109-1 / IEC 62109-2 safety evidence including environmental ratings
IEC 61727 and IEC 62116 where grid-connected operation is required
Manufacturer altitude, temperature, cooling, and power-derating specifications		 Gap: Kyrgyzstan project risk is often site-specific rather than only standards-list based. Exporters should provide altitude and temperature derating tables, low-temperature start-up limits, cabinet heating or cooling details where used, surge/lightning protection coordination, and exact firmware settings for the connected grid. These records should be tied to the model number, hardware revision, firmware revision, and installation elevation.[INFORMATIONAL] Do not treat a China domestic datasheet rating as proof of Kyrgyzstan project suitability. Tie the inverter evidence package to the specific site altitude, minimum and maximum ambient temperature, grid settings, winter operating assumptions, and the current technical conditions issued by the relevant Kyrgyzstan grid operator or project owner. Ministry of Energy of the Kyrgyz Republic2026-06-14 · unverified
EAEU Low-Voltage Safety and IEC 62109 Evidence for PV Inverters China commonly relies on GB/T 37408-2021 for PV grid-connected inverter technical requirements, NB/T 32004 technical specifications, manufacturer safety testing, and IEC 62109 reports for export projects. These documents are useful for due diligence but do not replace EAEU TR CU 004/2011 conformity assessment, EAC technical-file obligations, or Kyrgyzstandart / project-owner documentation requests in Kyrgyzstan.GB/T 37408-2021 — 光伏并网逆变器技术要求 (Technical Requirements for Photovoltaic Grid-Connected Inverters)
NB/T 32004 — 光伏并网逆变器技术规范 (Technical Specification for Photovoltaic Grid-Connected Inverters)
IEC 62109-1
IEC 62109-2		 Kyrgyzstan is an EAEU member state, so solar PV inverters placed on the Kyrgyzstan market may need EAEU conformity assessment under TR CU 004/2011 on low-voltage equipment when the product falls within the voltage and product scope. EAC marking should be applied only after all applicable EAEU technical regulations are satisfied, including EMC where relevant. For the technical safety baseline, local counterparties and project owners may also request IEC 62109-1 and IEC 62109-2 evidence for power converters used in photovoltaic systems, together with Kyrgyzstandart / GOST / IEC documentation and manuals in the required language set.TR CU 004/2011 — On safety of low-voltage equipment
EAEU EAC marking and conformity assessment rules for products in technical-regulation scope
IEC 62109-1 — Safety of power converters for use in photovoltaic power systems — Part 1: General requirements
IEC 62109-2 — Safety of power converters for use in photovoltaic power systems — Part 2: Particular requirements for inverters
Kyrgyzstandart / GOST / IEC evidence where applicable		 A Chinese GB/T or IEC safety report does not by itself authorize sale or installation in Kyrgyzstan. The gap is EAEU procedure, applicant responsibility, EAC marking, technical-file control, accepted test evidence, translation, model-family coverage, local manuals, and site-specific safety evidence for altitude, cold starts, enclosure rating, grounding, and surge protection.[INFORMATIONAL] Treat TR CU 004/2011 scope and EAC documentation as a genuine Kyrgyzstan market-access gate for in-scope PV inverters; do not rely on GB/T 37408, NB/T 32004, or IEC 62109 reports alone. Confirm model-family coverage, local applicant responsibility, manuals, marking, and any Kyrgyzstandart or project-owner IEC 62109 evidence before shipment. Eurasian Economic Commission2026-06-14 · unverified

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