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Nest: Automated Initialization and Prep for Mobile Device Recovery

Prep that's ready for what comes next

Nest is an automated initialization platform that charges, wipes, and updates mobile devices in parallel, preparing every unit for downstream testing and grading. Across 28 ports running asynchronously, it handles the prep work that has to happen before a device can be tested, graded, or returned to inventory.

For OEM returns programs, the consistency matters because everything downstream depends on it. A device that arrives at the test bench at 12% battery fails tests that aren’t really failures. A device wiped to the wrong standard creates a data security problem. Nest removes those variables before testing starts, so the test platform receives devices in a known state every time.

28 devices, in parallel, asynchronously

Each of Nest’s 28 ports runs its own initialization sequence on its own clock, so a device that needs a fresh charge isn’t holding up one that’s ready for an OS update. iOS and Android units sit side by side. The system detects each device, pulls the correct sequence for its model, and runs end-to-end without operator intervention. Tri-color LEDs signal status at a glance: in progress, complete, or failed.

Charging is intelligent: anywhere from 0.5A up to 2.1A based on what the device can accept. That cuts charging time by up to 4x compared to standard charging, which is usually the longest part of the prep cycle.

Scripted to your program

Nest’s initialization logic is scripted, and the script is defined by the customer. Battery thresholds, data deletion to OEM standard, OS version targets, and any program-specific validation steps are configured per program and run identically on every device.

That includes optional steps like battery cycle limits, model-specific routines, custom validation, and pre-loading test or customer applications. Reconext’s engineering team builds them into the sequence and deploys across every Nest on the line. Engineering changes roll out centrally, so updates land identically on every station, whether you’re running two Nests or twenty.

A logged, auditable handoff
Every Nest run produces a record: model, IMEI, battery state at start and finish, OS version before and after, deletion confirmation, completion status.

That record carries forward into downstream testing and grading, so the next stage doesn’t have to re-detect what’s already known. It picks up where Nest left off. For OEMs running prep across multiple sites, the record is what makes the audit trail hold together.

See Nest for Yourself

asynchronous ports per Nest, each running independently across multiple operating systems

faster charging, intelligent up to 2.1A based on device capability

~15 min

average cycle time per device, including data deletion and OS update

1:10

operator coverage; two Nest stations feed up to ten Revolution testers

How Nest Works

Connect

01

The operator plugs each device into one of 28 ports using the appropriate cable (micro-USB, USB-C, or Lightning). Cables are exchangeable, so a single Nest handles a mixed fleet of iOS and Android devices side by side. A tri-color LED on each port shows status: in progress, good, or failed.

Detect

02

Nest identifies the device’s model, OS, battery state, IMEI, and pulls the correct initialization script for that unit. The script runs independently on its port, so devices don’t have to wait in a queue.

Initialize

03

The system charges the device intelligently to the configured threshold, runs the OEM-standard data deletion sequence, and updates the OS to the specified version. Optional steps such as pre-loading the Revolution test app, running a customer-defined application, or executing a manual qualification check are added based on program requirements.

Hand off

04

When the sequence completes, the LED turns green and the device is logged with its serial number, IMEI, and final state. The operator unplugs it and moves it to the next stage, typically Revolution for full functional testing.

Common Deployment Questions

What devices does Nest support?

Nest supports iOS and Android devices across smartphones and small tablets, with exchangeable cables for micro-USB, mini-USB, Apple 30-pin, and Lightning. Maximum device size per slot is 100 × 160 × 15mm. Other operating systems, including Windows, can be added when there’s a clear program need; Nest’s initialization logic is built to be extended.

How customizable is the initialization sequence?

Fully. Reconext’s engineering team configures Nest’s scripting logic to match each customer’s program: minimum battery thresholds, data deletion to specific OEM standards, OS version targets, battery cycle limits, model-specific routines, and any custom validation steps. Engineering change requests are deployed centrally and pushed to every Nest station on the line.

Does Nest replace manual prep entirely?

Nest replaces manual handling, charging, data deletion, OS update, and any scripted validation. Operators connect and disconnect devices and monitor status; Nest handles the rest in parallel. Manual cosmetic inspection and any tests requiring physical access to the device sit upstream or downstream, depending on the flow.

How does Nest connect to the rest of the recovery line?

Nest is designed to feed downstream automated test platforms, particularly Revolution. Initialization data, including model, IMEI, battery state, OS version, and deletion confirmation, is captured at the Nest stage and carried forward, so the test platform doesn’t need to re-detect what’s already known.

How many operators do I need to run Nest at scale?
One operator can run two Nest stations in parallel, which together can keep up to ten Revolution testers fed with prepped devices. The touchscreen interface and color-coded LED status keep training time short.

Built to Work With

revolution

Revolution

Automated full-functional testing that uses the device state Nest sets up.

Hydra

Automated cleaning system combining multi-stage processing with continuous flow to deliver uniform results and fit seamlessly into your line-style recovery environment

Atheris

AI-guided label detection and removal that replaces manual scraping with fast, consistent automation designed to protect device cosmetics.

The PSUT

The PSUT platform delivers precise, customizable testing for power supply units, using advanced electronic loads and analytics to ensure reliability, compliance, and performance at scale.

Bujang

Bujang is our proprietary DRAM testing platform engineered for high-volume validation of DDR3/DDR4 modules, delivering early defect detection, real-time performance analytics, and low-cost, high-precision diagnostics at scale.

ICT Tester

The ICT is an automated platform for in-circuit and functional testing of small control boards, enabling rapid changeover via swappable upper and lower test probes.

RCU Tester

Automated remote control testing for IR, Bluetooth, buttons, LEDs, audio, and more — eliminating manual testing with scalable, fast-cycle execution.

Proteus

Our gold standard for HDD and SSD testing and data erasure, featuring ADISA Product Claims Tested erase functionality, flexible configurations (up to 64 test cells), and full audit trails.

Maya

High-speed testing for NAND flash memory (BGA & TSOP) including advanced ECC verification and full protocol support — from SLC to 3D NAND.

Phoenix

An FPGA-based platform that rapidly tests DDR3/DDR4 memory modules in parallel — up to 10 at once — with deep diagnostics and real-time integration.

Rackwipe

End-to-end, fully automated data erasure for data center racks — clearing drives, ports, switches, and sensitive configurations with detailed digital reporting.

Titan

A scalable, automated test platform for customer premises equipment (modems, gateways, etc.) with up to 24 test slots and robotic loading/unloading.

Optiline

AI-powered cosmetic grading that replaces human inspection with consistent, high-speed image recognition to deliver objective, data-driven evaluations at scale.