Jasmine - Herewin - Page 7 of 27

Heavy-Lift UAV Battery Redundancy: Power System Architecture for the 100–200kg Class

Jasmine / 14/04/2026

CTO-focused guide to evaluate 100–200kg UAV redundant battery architectures, failure modes, BMS fault isolation, thermal risk, and ROI.

Armazenamento de bateria de drone agrícola com SOC ~55% e janela térmica em clima quente

Blog, Drone Battery

Guia Técnico: Como Preservar Baterias de Drones no Mato Grosso e Reduzir o TCO na Entressafra

Jasmine / 13/04/2026

Critérios de SOC, temperatura, umidade e DCIR para preservar baterias na entressafra e reduzir TCO.

Industrial drone battery selection diagram showing mass budget and I²R heating

Blog, Drone Battery

Industrial Drone Battery Selection Guide: Solving the Payload Paradox with High-C and Energy Density

Jasmine / 12/04/2026

An engineering guide to DCIR, voltage sag, and C-rate vs energy density trade-offs for 10–200kg MTOW industrial UAVs.

Blog, Drone Battery

The Truth About Drone Battery Charging: Does Overnight Charging Really Shorten Battery Life?

Jasmine / 11/04/2026

Can you leave a drone battery charging overnight? Discover the risks of overcharging, LiPo battery safety tips, and proper drone battery charging practices to extend lifespan and prevent damage.

Drone agrícola de pulverização de alta carga com telemetria de tensão, corrente e temperatura (estabilidade de tensão e 30C em Mato Grosso)

Blog, Drone Battery

O Impacto dos 30C na Pulverização de Alta Carga: por que a estabilidade de tensão define o lucro em Mato Grosso?

Jasmine / 10/04/2026

Whitepaper operacional sobre pulverização com drones de alta carga em Mato Grosso: sintomas de perda de uniformidade às 14h, leitura por telemetria e por que estabilidade de tensão e C‑rating (30C) entram na conta de TCO.

Industrial UAV fleet maintenance with semi-solid drone batteries engineering telemetry overlays

Blog, Drone Battery

Why Industrial UAV Fleets Are Switching to Semi-Solid Batteries: The 1,200-Cycle Engineering Logic

Jasmine / 09/04/2026

The engineering logic behind 1,200-cycle semi-solid drone batteries—cost per flight, internal resistance, energy density, and mission reliability.

Industrial energy storage comparison cover image: LFP vs NMC in 2026

Blog

LFP vs NMC Energy Storage in 2026: Strategic Trade-offs and TCO Signals

Jasmine / 08/04/2026

Compare LFP vs NMC for industrial BESS in 2026 using a TCO lens: footprint, cycle life, safety evidence, and supply-chain risk.

Blog, Drone Battery

Smart Drone Power for 24/7 Traffic Enforcement: Engineering Endurance and Compliance

Jasmine / 07/04/2026

A technical guide to endurance, smart BMS fleet management, and tamper-resistant compliance for traffic and law-enforcement drone missions.

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Author name: Jasmine

Heavy-Lift UAV Battery Redundancy: Power System Architecture for the 100–200kg Class

Guia Técnico: Como Preservar Baterias de Drones no Mato Grosso e Reduzir o TCO na Entressafra

Industrial Drone Battery Selection Guide: Solving the Payload Paradox with High-C and Energy Density

The Truth About Drone Battery Charging: Does Overnight Charging Really Shorten Battery Life?

O Impacto dos 30C na Pulverização de Alta Carga: por que a estabilidade de tensão define o lucro em Mato Grosso?

Why Industrial UAV Fleets Are Switching to Semi-Solid Batteries: The 1,200-Cycle Engineering Logic

LFP vs NMC Energy Storage in 2026: Strategic Trade-offs and TCO Signals

Smart Drone Power for 24/7 Traffic Enforcement: Engineering Endurance and Compliance

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