Secop's Solar Direct Drive (SDD) System Earns WHO PQS Approval – The Team Behind It

The fundamental challenge was this: the system must work regardless of what is happening outside. On a grid that swings anywhere from 82 to 274 volts AC, and survives surges up to 510 volts, without requiring an additional voltage stabilizer. On solar panels, optimized for the latest generation of 72-cell PV panels, with an MPPT algorithm that continuously adapts compressor speed to whatever sunlight is available, so the system keeps running even when irradiation is at a low level. And it delivers up to 110 watts constantly. 

The new SDD2 power management system handles a smart selection of powering by sun preferably and seamless transfer to grid when sun irradiation goes below a minimum level, without manual intervention. That is what changes everything for a clinic in a remote area: universal SDD2 can be used in every area and condition and cooling for medical cold-chain simply does not stop. Beyond this, SDD2 has been developed to fulfill new WHO-PQS-E006 requirements to monitor and transfer all essential physical cooling parameters to enable remote supervision and timely service interventions to avoid down-time and waste of life-saving vaccines.

Before this system existed, manufacturers building solar-capable vaccine refrigerators had two choices. They could either combine the previous version of the Secop Solar Direct Drive with Secop components and their own measurement equipment to fulfill the latest PQS logging and data acquisition requirements, or they could source and integrate separate components, often from different suppliers, and validate the entire system against WHO specifications themselves. This was a significant engineering burden and risk.

Secop now offers an evolution of the pre-integrated combination: one solar power management module, one compressor, and one dedicated solar compressor controller. These components are designed and validated to work together, and they are pre-approved by the WHO PQS group. Using the latest technologies, such as the BD Nano compressor, which is adapted for medical purposes; the solar compressor controller, which has special start-up algorithms that improve start-up in low-light conditions; and the PQS-approved power management module, which allows users to read PQS-related information about the vaccine refrigerator’s status, as well as peak power point tracking to ensure optimal use of available sunlight. Having a single integrated, pre-approved system at the core removes a layer of complexity that used to cost manufacturers a lot of engineering resources and development time.

It is not a certification in the traditional sense; rather, it constitutes a sustained and highly rigorous dialogue with some of the most demanding technical evaluators in the world, conducted under strict procedural constraints. Candidates are permitted a maximum of three review rounds. Failure to meet the required standard by the third round results in rejection, necessitating a complete reapplication from the outset. Each review cycle requires responses that are comprehensive, precise, and fully documented, leaving no room for ambiguity or interpretive flexibility. The certification process for the SDD system took approximately seven months (1 October 2025 to 1 April 2026). A critical factor in our successful outcome was our prior involvement in the WHO working group, which preceded the formal application phase. This early engagement enabled us to develop a deep understanding not only of the technical specifications themselves, but also of the underlying rationale informing them. That level of preparation proved to be decisive.