Your All-in-One Cell Management
Solution for Lithium-Ion Batteries
As battery applications demand ever greater energy capacity,
safety becomes critical. PREDYCE® redefines battery management
by enabling cell-level control without extra harness
INTELLIGENCE IN EVERY CELL
Developed by Pellenc Energy, PREDYCE® is a miniature chip that brings Battery
Management System functions directly to the cell level.
Available as a bare die or in a QFN package, it integrates easily into any cell
format, adapting to different shapes, sizes and chemistries.
WITH PREDYCE®, EACH CELL BECOMES A SMART DEVICE
It measures voltage and temperature with high precision, performs
adaptive balancing, and stores key operational data within its
embedded memory allowing cell-level diagnostics such as SOC, SOH
and RUL.
NO EXTRA COMPONENTS REQUIRED
PREDYCE® operates on a controller–device architecture in which the Battery Management System exchanges data directly with each cell.
While traditional solutions endure highly complex harness integration,
PREDYCE® communicates through the existing power connections alone
This opens a new era of battery management, with simple string architecture
integration and cell-level data gathering.
Extra harness, complex integration
and limited voltage scalability
PREDYCE® integrates into conventional series- parallel packs without layout modification, easily scaling from a 12-cell pack to a 400 V EV battery
PREDYCE® ENABLES
A NEW ARCHITECTURE
No extra harness,
easy integration and scalability
KEY FEATURES
By eliminating the harness complexity, the solution reduces system weight while improving safety, reliability and overall battery energy density
Direct compatibility with high-voltage battery systems, with no extra harness — enabling safer EVs and simpler battery packs.
Cell-level visibility enables early fault detection and thermal runaway anticipation, offering predictive maintenance and reducing downtime
The embedded black box records lifecycle data, enabling better SOH and RUL estimation. Combined with the cell passport, it ensures full traceability for second-life applications and recycling
Individual temperature sensing enables tighter margins and adaptive balancing, enhancing reliability whilst optimising performance
