Achi Ir6500 Software May 2026
| Problem | Likely Cause | Solution |
|---------|--------------|----------|
| "Device not found" | Wrong COM port or driver not installed | Open Device Manager → Ports → Identify ACHI device → Set COM port in software settings |
| Temperature reading erratic | Thermocouple loose or damaged | Check physical connection; replace thermocouple |
| Profile not following curve | PID gains too aggressive | Run Auto-Tune function for that specific PCB |
| Software crashes on start | Corrupted config file | Delete config.ini from installation folder and re-launch |
| Can't save new profiles | Folder write permissions | Run software as Administrator |
The ACHI IR6500 BGA rework station primarily uses IRsoft (often referred to as the PC410 software) to interface with its programmable temperature controller. This software allows you to bypass the hardware's onboard limits—storing only 10 programs with eight steps each—by managing an unlimited number of complex temperature profiles directly from a computer. Key Features of IRsoft
Profile Management: Create and store more complex profiles with more than eight steps on your PC and load them to the device as needed.
Real-time Monitoring: Monitor temperatures and control the upper heater through a live graphical interface.
Safety Controls: Includes an emergency shutdown feature that activates if temperatures drop below a set threshold for a specified time.
Smart Preheating: Define temperature stabilization thresholds for more consistent soldering results. Installation & Compatibility
Versions: Available in self-contained or framework-dependent versions. The framework version requires Microsoft .NET Framework to function.
Connectivity: The device typically connects via USB. While some versions are plug-and-play, older units or specific operating systems may require manual installation of a USB-to-Serial driver (often CH340 or PL2303) before the software can communicate with the station.
Availability: The software is generally free for owners of the device and can often be found on the manufacturer's resource pages or community forums. Best Practices for Use
Profile Testing: Before working on a valuable board, use a scrap PCB to test heating parameters. A complete heating cycle typically ends when solder balls are fully liquefied, usually about 10 seconds before the program finishes.
Board Preparation: Use insulation tape on nearby capacitors to prevent heat damage and ensure the PCB is dry to avoid "popcorning" (internal moisture bursting) during the rework process.
For detailed setup instructions and safety warnings, you can refer to the ACHI IR6500 User Manual provided by Bulcomp-Eng. #95 | IR6500 Rework Station Software (PC410 Controller)
The ACHI IR6500 software is a PC-based control suite designed to monitor and manage the IR6500 infrared BGA rework station.
While the station can function independently via its onboard PC410 temperature controller, the software provides a more user-friendly interface for creating complex rework profiles. 🖥️ Core Capabilities Unlimited Profiles
: Bypasses the 10-profile limit of the onboard hardware; users can save and load infinite rework profiles from a computer. Extended Steps
: Allows for rework profiles with more than the hardware-standard 8 segments for greater precision. Real-time Monitoring
: Provides live temperature tracking and curve visualization for both upper and bottom heaters. Safety Features
: Includes emergency shutdown triggers if temperatures fall below safe thresholds during a run. Smart Preheating
: Features temperature stabilization thresholds to ensure the board is evenly heated before the top reflow begins. ⚙️ Connectivity & Compatibility The software connects to the rework station via a USB interface located on the side or back of the unit. Software Options Original ACHI Software : The standard utility provided by the manufacturer. Rework Pro
: A popular third-party alternative (current version 1.4) often preferred for its improved stability and modern OS support. OS Support & Issues Windows 7/8 : Generally compatible with standard drivers. Windows 10/11
: Often requires manual driver installation or hardware modifications. Technical Hurdle
: The PC410 controller uses RS232 communication; modern PCs often struggle to recognize the USB-to-Serial bridge without specific PL2303 or FT232 drivers. 🛠️ Common Software Challenges Potential Solution COM Port Not Found
Verify driver installation; Windows 11 may require a "MAX 232" hardware mod for stable signaling. Connection Drops
Ensure high-quality, shielded USB cables; the machine's internal electrical noise can disrupt serial data. Driver Signature
Disable "Driver Signature Enforcement" in Windows to install older manufacturer drivers. Antivirus Flags
CD-based drivers are frequently flagged as false positives; it is safer to download verified versions from community forums. 📈 Rework Profile Basics
To use the software effectively, you must define the following segments: #95 | IR6500 Rework Station Software (PC410 Controller)
Once installed, open the software and connect your IR6500 via USB-C or standard USB-A cable (ensure the camera is powered ON).
Installing the ACHI IR6500 software requires administrative privileges.
I can generate a plain-text configuration sheet you can print. Tell me:
Example quick-start barcode to reset to defaults (if you have the manual barcodes):
Scan these in order (standard for many Chinese IR scanners):
Title: The Digital Brain: Understanding the Software of the Achi IR6500 Infrared Rework Station
In the intricate world of electronics repair, the soldering and rework of components on printed circuit boards (PCBs) demand a blend of precision, patience, and control. Among the myriad of tools available to technicians, the Achi IR6500 Infrared Rework Station stands out as a popular choice for mid-level repair work. While its hardware—consisting of infrared heaters and a precise mounting mechanism—provides the physical capability to reflow solder, it is the Achi IR6500 software that serves as the "digital brain" of the operation. This software interface is the critical link between the operator’s intent and the machine’s thermal execution, transforming a raw heating element into a sophisticated instrument capable of handling sensitive modern electronics.
The primary function of the Achi IR6500 software is thermal profile management. In the rework industry, the "profile" is the holy grail of a successful repair. It dictates the specific temperature ramp rates, soak times, and peak temperatures required to melt solder paste without destroying the surrounding PCB substrate or the component itself. The software allows technicians to visualize this process through a graphical user interface (GUI). By setting parameters for the bottom and top heaters independently, the software ensures that the board heats evenly. This control is vital; without the software’s ability to regulate these zones, a technician might apply heat too aggressively, causing warping or "popcorning" of the board. The software essentially codifies the complex chemistry of solder alloys into a manageable, repeatable set of digital instructions.
Furthermore, the software’s real-time monitoring capabilities provide a safety net that manual rework cannot offer. Through the integration of thermocouples, the software constantly reads the actual temperature of the PCB surface and compares it against the programmed profile. This closed-loop feedback system is displayed dynamically on the screen, allowing the operator to see exactly how the board reacts to the infrared energy. If the temperature deviates from the safe zone, the software adjusts the power output to the heaters instantly. This feature mitigates the risk of thermal shock, a common cause of failure in electronics repair, ensuring that delicate ball grid array (BGA) chips are removed and re-balled with a high degree of reliability.
Another significant advantage of the Achi IR6500 software is its capacity for data storage and repeatability. In a professional repair environment, efficiency is paramount. The software allows users to save specific profiles for different types of boards and chipsets. Once a successful profile is created for a specific motherboard—for instance, a profile for reflowing a graphics processing unit (GPU) on a specific laptop model—it can be saved and recalled instantly for future repairs. This eliminates the need to "reinvent the wheel" for every job, reducing the margin for human error and standardizing the quality of repairs across a workshop.
However, the software is not without its challenges and learning curves. For many users, the interface can appear dated or less intuitive compared to modern consumer applications. The translation of technical terms and the sensitivity of the PID (Proportional-Integral-Derivative) settings often require a technician to have a deep understanding of thermodynamics, not just computer skills. Mastering the software involves a period of experimentation, where the user must fine-tune the software’s parameters to match the specific thermal mass of the board they are working on. In this sense, the software is a tool that rewards expertise; it does not automate the repair process entirely but rather empowers a skilled technician to execute complex tasks with greater accuracy.
In conclusion, the Achi IR6500 software is far more than a mere accessory to the rework station; it is the essential component that dictates the machine's effectiveness. By translating complex thermal requirements into visual profiles, providing real-time feedback, and enabling the storage of successful repair parameters, the software elevates the IR6500 from a simple heater to a professional-grade engineering tool. While it demands a level of technical proficiency from its users, its capabilities are what make precise, repeatable, and safe electronics repair possible. In the delicate art of BGA rework, the hardware provides the heat, but the software provides the control.
It was a rain-soaked Tuesday when the first package arrived: a slim, unassuming box stamped with a model number that felt like a secret—IR6500. Inside lay a device that hummed with latent possibility: matte black, industrial curves, and a single port that promised connection to something larger than itself. What followed was less about hardware than about the soft, shifting life that software breathes into machines.
The initial install was ritual: a download from a forum thread threaded with careful warnings, a checksum whispered like a charm, and the slow progress bar that promised transformation. The software for the Achi IR6500 arrived as a bundle of intentions—drivers for its sensors, a compact management utility, firmware updates that read like a lineage of fixes and ambitions. achi ir6500 software
At first the utility was discreetly competent. Menus unfurled with modest clarity. Device health readouts offered gentle telemetry—temperatures, uptime, a log that translated machine events into human-readable narratives. The IR6500’s modes—standby, active scan, scheduled patrol—were toggled with satisfying precision. Updates popped through the interface, each patch a tiny story: latency improved here, a memory leak sealed there, compatibility broadened in quiet increments.
What made the software captivating wasn’t flashy features but the way it learned to fit into routines. Tasks once mechanical became choreographed. Nightly scans, which once seemed like a necessary nuisance, became moments of reassurance, their results synthesized into concise reports that slid into inboxes or dashboards. The alert system, initially terse and technical, acquired a softer voice—prioritizing what mattered, ignoring what did not, so the operator could sleep.
Community shaped this software’s evolution. In forums and issue trackers, users traded anecdotes and snippets: a tweak that reduced false positives in a certain lighting, a config file that enabled smoother integration with legacy systems. Developers listened; releases began to reflect the texture of real-world use. Bugfixes were threaded with gratitude, feature requests were answered with prototypes, and the changelog became a living document of collaboration.
There were lulls—moments when updates stalled and frustration sprouted—but those too were part of the chronicle. A stalled feature request nudged a deeper architectural rethink; a persistent compatibility issue led to clearer documentation and, eventually, a redesign that made the system more resilient. Each setback bent the software toward refinement rather than breaking its spirit.
By the time the IR6500 had been in service long enough to earn its first anniversary, the software felt less like a tool and more like a companion. Logs that once read as raw telemetry now carried a history: seasonal patterns, recurring anomalies, an archive that, when read in aggregate, revealed both the quirks of the environment it served and the ways people relied upon it. Updates no longer arrived as mere technical maintenance; they were milestones marking a maturing relationship between device, software, and user.
The chronicle of the Achi IR6500 software is a modest tale—not of sudden revolutions, but of steady attention. It’s about how small releases knit better habits, how user feedback provokes thoughtful change, and how stability and clarity can be more persuasive than novelty. In the end, what made the IR6500 remarkable wasn’t an extravagant feature or a single brilliant patch, but the cumulative care encoded in its updates and the quiet confidence it granted to those who depended on it.
And on another rain-soaked evening, much like the first, the device blinked its ready light. The software, updated and tempered by time, awaited its next assignment—steady, practiced, and quietly indispensable.
Mastering Your Achi IR6500: A Complete Guide to Software and Connectivity
The Achi IR6500 has long been a staple in the world of electronics repair. Known for its reliability and affordability, this infrared BGA rework station is a go-to for technicians fixing everything from laptop motherboards to game consoles. However, while the hardware is robust, getting the Achi IR6500 software configured correctly is where many users run into a wall.
In this guide, we’ll dive deep into the software ecosystem for the IR6500, how to set it up, and how to optimize your rework profiles for the best results. Why Use Software with the Achi IR6500?
While you can operate the IR6500 manually using the buttons on the Rex-C100 or PC410 temperature controllers, using the PC software offers several distinct advantages:
Visual Temperature Tracking: See real-time graphs of your top and bottom heaters.
Profile Management: Save and load specific temperature profiles for Lead-Free (Pb-free) or Leaded solder.
Precision: It’s much easier to tweak a "soak" time or "reflow" peak on a screen than on a small segment display.
Consistency: Automating the process reduces human error, ensuring you don't overheat a sensitive GPU. Essential Software Options
The Achi IR6500 typically communicates with a PC via a USB-to-RS232 (Serial) bridge. Depending on your specific model and controller, you generally have two main software paths: 1. The Standard Manufacturer Software (Pcxm / Solder007)
Most units ship with a basic utility often referred to as "Pcxm" or simply "BGA Rework Software."
Pros: Lightweight, designed specifically for the RS232 communication protocol of the internal controllers.
Cons: The interface can feel dated, and driver compatibility with Windows 10 or 11 can be finicky. 2. Third-Party Solutions
Some advanced users prefer using general-purpose PID controller software if they have upgraded their internal hardware. However, for 90% of users, the original software provided by Achi (or the seller) is the standard choice. Step-by-Step Software Setup Step 1: Install the USB-to-Serial Driver
The IR6500 uses a serial connection disguised as a USB port. You will likely need the CH340 or PL2303 driver (depending on your unit’s internal chip). Plug the USB cable into your PC. Open Device Manager.
Look for "Ports (COM & LPT)." If you see a yellow exclamation mark, you need to manually install the driver. Step 2: Configure the COM Port
Once the driver is installed, note the COM port number (e.g., COM3). Inside your Achi IR6500 software settings, ensure the COM port matches the one assigned by Windows. Set the Baud Rate (usually 9600) to match the controller’s settings. Step 3: Setting Up Temperature Profiles
This is the most critical part of the software. A standard profile consists of several stages:
Preheat: Slowly bringing the board up to temperature to prevent warping.
Soak: Ensuring the heat is uniform across the BGA chip and the PCB. Reflow: The final spike where the solder actually melts. Cooling: A controlled ramp down to prevent thermal shock. Troubleshooting Common Issues "Communication Error"
This is the most common headache. If the software isn't "seeing" the machine:
Check that the IR6500 is powered on before launching the software.
Try a different USB port (preferably a USB 2.0 port if you are on a modern PC). Verify that your COM port number hasn't changed. Software Crashing on Windows 10/11
The original Achi software was built for Windows XP and 7. To run it on modern systems: Right-click the .exe file. Go to Properties > Compatibility.
Select "Run this program in compatibility mode for Windows 7" and "Run as Administrator." Best Practices for Successful Rework
Always use a thermocouple: Don't rely solely on the software's readout. Place a physical K-type thermocouple near the chip to get an accurate "real-world" reading.
Backup your profiles: Once you find a "sweet spot" profile for Xbox 360s or MacBooks, export that file. It saves hours of trial and error later.
Pre-heat the bottom: Use the software to ensure your bottom plate is at a steady 150°C-180°C before the top heater even starts the reflow cycle. Conclusion
The Achi IR6500 software transforms a manual heat lamp into a precision engineering tool. While the initial setup of drivers and COM ports can be a bit of a hurdle, the level of control it provides over your BGA repairs is well worth the effort.
You're looking for information on the Achi IR6500 software. Here are some potential details:
What is Achi IR6500 software?
The Achi IR6500 is a software designed for industrial control and automation applications. It appears to be a Human-Machine Interface (HMI) software used to monitor, control, and interact with industrial equipment and processes.
Key Features:
Some possible features of the Achi IR6500 software include:
Applications:
The Achi IR6500 software may be used in various industries, such as:
System Requirements:
To run the Achi IR6500 software, you may need:
Support and Resources:
If you're looking for more information or assistance with the Achi IR6500 software, you may want to:
The software for the ACHI IR6500 BGA rework station allows you to bypass the hardware's 10-program limit and create complex thermal profiles with more than eight steps. Primary Software Options
: The official software often included on a CD with the machine. It enables real-time temperature monitoring and profile management via a USB connection. Rework Pro : A third-party alternative from Black Horse Repairs
that simplifies configuration and offers "Smart Preheating" without requiring additional drivers. Black Horse Repairs Key Features & Benefits Extended Profiles
: Store unlimited programs on your PC and upload them to the device as needed. Real-Time Monitoring
: Graph and monitor temperatures for both the upper and lower heaters during the reflow process. Safety Controls
: Includes features like emergency shutdown if temperatures drop unexpectedly, helping prevent board damage. Compatibility
: While traditionally designed for Windows XP/7/8, modern versions may require modifications for Windows 11 compatibility because the underlying PC410 controller uses older RS232 communication standards. Setup Tips Manual & Drivers : If you are missing the original files, you can find the ACHI IR6500 Manual and software resources on the EasyBGA support page Security Note
: Some users have reported antivirus flags on the original software CDs; it is recommended to scan files with tools like VirusTotal or run the setup in a virtual machine for safety. thermal profile recommendation for leaded or lead-free soldering? #95 | IR6500 Rework Station Software (PC410 Controller)
The ACHI IR6500 BGA rework station is a widely used infrared soldering system that relies on software synchronization to manage complex thermal profiles for repairing laptop motherboards, game consoles, and other high-density circuit boards. Core Software Functionality
The primary software used with the ACHI IR6500 is typically referred to as IRSOFT. It connects to the station via a USB interface and significantly expands the unit's native capabilities:
Profile Storage: While the physical device may only store a limited number of profiles (often 10), the software allows for an unlimited library of profiles to be saved on a PC and loaded as needed.
Complex Ramping: The software enables users to program more than the standard 8 segments of temperature rising and constant heat, allowing for more precise control during delicate reflow processes.
Real-Time Monitoring: Users can monitor actual temperatures from the OMEGA K-type thermocouple in real-time, visualizing the thermal curve on their computer screen.
Safety Features: Modern versions of the software (such as v1.4) include emergency shutdown features that trigger if temperatures fall below a specific threshold for too long, preventing board damage. Compatibility and Installation
Installing and running the software can be challenging due to its age and original driver requirements:
Operating Systems: While originally designed for older versions of Windows, newer self-contained versions can run on modern systems, though some may require the .NET Framework to be installed.
Windows 11 Issues: Standard unmodified machines often face driver loading failures on Windows 11. Some users perform a hardware modification (replacing the internal USB module with a MAX 232 converter) to establish a reliable connection.
Antivirus Warnings: It is common for antivirus programs like McAfee to flag the setup.exe on the provided CD as a false positive. Users often recommend installing it on an isolated, offline machine to be safe. Common Use Cases
The software is essential for professional-grade repairs involving:
Lead-Free Rework: Lead-free solder requires higher, more precise temperature curves that are difficult to manage manually.
Delicate Components: Precise dark infrared technology managed by the software allows for the removal of BGAs, QFNs, and plastic sockets without thermal stress or warping.
Consistent Results: By using established profiles for specific boards (like the PS4 or Xbox One), technicians ensure repeatable success across hundreds of cycles. #95 | IR6500 Rework Station Software (PC410 Controller)
The blue glow of the ACHI IR6500 control panel was the only light in Elias’s cramped workshop. On the workbench lay a "dead" launch-day console—a victim of the dreaded "Red Ring"—and Elias was its last hope. He clicked the mouse, and the ACHI IR6500 software
flickered to life on his monitor. To anyone else, the interface was a dry collection of graphs and temperature points, but to Elias, it was a musical score. He loaded the "Lead-Free Reflow" profile, a delicate sequence of thermal stages designed to dance right on the edge of destruction without crossing it. "Stay with me," he whispered.
The machine hummed. On-screen, the red line representing the Top Heater
began its slow, methodical climb. 100°C. 150°C. The software’s real-time monitoring was his only window into the microscopic world beneath the GPU. He watched the Bottom Pre-heater
data bloom in a steady yellow curve, ensuring the motherboard wouldn't warp under the stress. The critical moment arrived: The Liquidus Phase.
The software chirped, signaling the final ramp-up to 235°C. This was the "soak"—the few seconds where the tiny solder balls beneath the chip would turn to liquid. If the software glitched now, or if his profile was off by even five degrees, the chip would "popcorn," rendering the board a high-tech brick.
Elias held his breath, his eyes darting between the rising graph and the physical heat sensor tucked against the chip. The IR6500 pulsed with an intense, invisible energy. On the screen, the timer counted down:
ACHI IR6500 software is designed to provide precision control over the rework station's heating zones, allowing users to program, monitor, and save specific thermal profiles for delicate BGA soldering tasks. While essential for consistent results, the software has a reputation for being finicky with modern operating systems and sometimes difficult to configure initially. Key Software Features Profile Management
: Users can store and load custom thermal profiles (e.g., lead-free or specific chip profiles like "Samsung Exynos") to automate the reflow process. Real-Time Monitoring
: The software displays heating curves and provides data from the machine's IR sensors, typically at 100ms intervals, to ensure temperature accuracy. Multi-Zone Control | Problem | Likely Cause | Solution |
: It enables the management of top, bottom, and side heating zones to ensure even thermal distribution across the PCB. Common Challenges & Tips OS Compatibility
: The original software often struggles with Windows 11 as the COM port may not appear automatically. Some users perform hardware modifications using a converter to ensure stable communication with modern PCs. Security Concerns
: There have been community reports of potential virus flags on the setup files provided on original CDs. Experts on the EEVblog forum
suggest installing it in a virtual machine or on an offline PC for safety. Alternative Options
: For users seeking more robust features, third-party software like Rework Pro
offers upgraded control for top/bottom heaters and community-shared profiles. Initial Setup Best Practices Driver Installation
: Ensure the USB-to-serial drivers are correctly installed before launching the software. Profile Uploading
: To use a specific curve, you must highlight the profile in the "curve set" menu and click before hitting "Run". Manual Calibration
: Always verify the software's readings against a physical thermocouple on the board during your first few runs to ensure the internal sensors are calibrated correctly. within the software?
The ACHI IR6500 software (often referred to as Rework Pro or the PC410 controller software) allows you to bypass the station's built-in 10-program limit and create complex multi-step temperature profiles directly from your PC. 1. Software Installation & Connection
Download & Versions: The software is available in self-contained or framework-dependent versions. If using the framework version, ensure .NET Framework 8 is installed.
USB Connection: Connect the IR6500 to your computer via the USB interface. Drivers:
On standard systems, drivers should install automatically once the device is connected.
For Windows 11, standard drivers may fail to load. A hardware modification involving a MAX 232 converter is often required to ensure stable communication.
Setup: Launch the executable (often setup.exe or ReworkPro.exe). If flagged by antivirus, you may need to run as administrator or use a virtual machine for safety. 2. Creating Temperature Profiles
A professional profile consists of four key stages: Preheat, Soak, Reflow, and Cooling.
Step Settings: In the software, you can define more than the standard eight steps.
Parameters: For each step, set the Target Temperature, Ramp Rate (how fast it heats), and Dwell Time (how long it stays at that heat).
Reflow Target: For lead-free solder, a typical reflow target is approximately 225°C to 245°C.
Monitoring: Use the software's real-time graph to monitor the process value (actual temperature) against your set point. 3. Key Software Features
Smart Preheating: Define a stabilization threshold so the upper heater only starts once the board has reached a consistent base temperature.
Emergency Shutdown: Configure the software to cut power if the temperature falls below a specific threshold for a set time (detecting sensor failure or disconnection).
Unlimited Storage: Unlike the physical controller, the software allows you to save hundreds of unique profiles for different chip types (GPU, Xbox, laptop) on your hard drive. 4. Advanced Calibration
Autotuning: To prevent temperature overshoot, you can run an "Autotune" cycle (usually found in settings as 'ru' set to '1').
Sensor Correction (SC): If your manual thermometer differs from the software display, use the SC (Sensor Correction) setting to input an offset (e.g., -8°C if the software reads too high). #95 | IR6500 Rework Station Software (PC410 Controller)
The ACHI IR6500 software, often called IRsoft, is used to control the station's PC410 temperature controller via a computer. It allows you to create more complex reflow profiles than the 10 programs (8 steps each) stored directly on the machine. 1. Installation & Drivers Getting the software to talk to the can be tricky on modern operating systems:
Official Downloads: Files are traditionally provided via CD, but digital manuals and basic support can often be found through EasyBGA.
Drivers: You must install the USB-to-Serial driver (often PL2303 or CH340 based) so your PC sees the machine as a COM port.
Windows 10/11 Fix: If the software crashes with a C++ exception, you likely need to install or repair the Microsoft Visual C++ Redistributables. Some users report that older hardware may require an internal hardware modification to reliably communicate with Windows 11. 2. Basic Software Usage
Once connected, the software provides a real-time graph of the temperature.
Interface: You can set target temperatures (SV) and monitor actual temperatures (PV) from the top and bottom heaters. Uploading Profiles : You can design a profile on your PC and upload it to the PC410 controller
. This is essential for long, multi-step profiles needed for lead-free BGA rework. 3. Creating a Reflow Profile A standard profile consists of four main stages:
Preheat: Gradually brings the board from room temperature to a stable base (e.g., 150°C) to prevent warping.
Soak: Stabilizes the temperature across the board and activates the flux.
Reflow: The final heat spike (e.g., 220°C–245°C) to melt the solder balls.
Cooling: A controlled ramp down to solidify the joints without causing stress fractures. 4. Better Alternatives: Rework Pro Many users recommend Rework Pro as a modern replacement for the original IRsoft.
Key Features: It simplifies profile management, offers "Smart Preheating," and includes a library of pre-made profiles.
Requirements: It often requires the .NET Framework to be installed on your PC. Hardware Tip Achi IR6500 software
Important: Achi does not always host public downloads on a main website. Obtaining the correct software version depends on your unit’s PCB revision. Try the following sources: Example quick-start barcode to reset to defaults (if