K3RG2G20BM K3RG2G20BM-MGCH 64 Bit Ic Chip Programmer Machine Nand Flash Hard

Name: K3RG2G20BM K3RG2G20BM-MGCH 64 Bit Ic Chip Programmer Machine Nand Flash Hard
Brand: Shenzhen Yuzens Technologies Co. Ltd.
SKU: 1601425284720_1
Price: 2.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

64-Bit IC Programming: Designed to program and test NAND flash memory chips and general-purpose ICs with high precision and speed.
Circuit Board Compatibility: Optimized for seamless integration into PCB assemblies via surface mount technology (SMT), using solder balls for robust electrical connections.

Key features

1. Material Technology

With a rugged metal chassis, ensure long-lasting durability in industrial and commercial environments.

2. Interactive Design

With a user-friendly touchscreen interface and multi-program presets, streamline workflows for quick configuration of NAND flash and general-purpose ICs.

3. Performance Parameters

Deliver programming speeds up to 40% faster than entry-level 32-bit models*, thanks to its 64-bit architecture.

4. Scenario Solutions

Designed for both prototyping and commercial production, this programmer accommodates surface-mount technology (SMT) components, making it ideal for compact devices like smartphones and circuit boards.

5. Certification Standards

Complies with ISO 9001 quality management standards*, ensuring precision and reliability for industrial and medical-grade applications.

Product details

The K3RG2G20BM series is a 64-bit IC chip programmer machine designed for NAND flash programming and circuit board applications. Its compact, square form factor and surface mount solder balls enable seamless integration into space-constrained devices like industrial machines, IoT hardware, and consumer electronics.

Technical specifications

Feature	Specification	Application Scenario
Architecture	64-bit processing	High-performance data processing in embedded systems
Interface	USB 3.0 (10 Gbps)	Rapid firmware updates for industrial machines
Memory Support	NAND Flash (up to 256GB)	Programming large-capacity storage in automotive ECUs
Solder Ball Config	Customizable pitch/density	Adapting to PCB layouts in wearable devices
Thermal Stability	Operating temp: -40°C to +85°C	Reliable operation in harsh industrial environments

Customization guide

Adjust solder ball pitch/density to match PCB design constraints or modify semiconductor material (e.g., thermal-resistant alloys) for extreme-temperature applications.

Get inspired

With its 64-bit architecture and NAND flash compatibility, the K3RG2G20BM series is ideal for innovators developing smart home devices, industrial IoT systems, or next-gen consumer electronics requiring high-speed data programming.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Programming Speed	100 MB/s	+15% (115 MB/s)	+30%* (130 MB/s)
Memory Capacity	1GB	2GB	4GB
Compatibility	Standard NAND	Multi-Flash	Universal (NAND/EEPROM)
Thermal Resistance	IP54	IP67	IP68

Supplier's note

Technical Breakthroughs:
- 64-bit Architecture: Enables 40% faster complex code execution vs. 32-bit competitors.
- Universal Memory Support: Pro model supports simultaneous programming of NAND/EEPROM chips, reducing system integration time by 30%.
- Custom Solder Ball Design: Adjustable pitch (0.4mm–0.8mm) accommodates 90% of PCB layouts in IoT devices.
Version Selection Guide:
- Base Model: Optimal for small-scale prototyping or low-volume production of basic circuit boards.
- Advanced Model: Ideal for mid-tier industrial applications needing multi-flash compatibility (e.g., automotive sensors).
- Pro Model: Engineers developing high-reliability systems (e.g., aerospace, medical devices) benefit from tripled thermal stability and 130 MB/s speed, surpassing industry benchmarks by 25%.

*Pro Model programming speed exceeds the ISO 17164 standard by 30%.

Frequently asked questions

Which K3RG2G20BM model is best for small-scale circuit board programming tasks?
How do I clean the solder balls on the K3RG2G20BM-MGCH to ensure reliable connections?
What material makes the K3RG2G20BM suitable for harsh industrial environments?
Can the K3RG2G20BM be customized for specialized machine applications?
Is the K3RG2G20BM certified for industrial-grade reliability?
What advantages does the 64-bit architecture of the K3RG2G20BM offer over 32-bit models?
Does the K3RG2G20BM support programming for both general-purpose and custom circuit boards?
How does the K3RG2G20BM-MGCH handle high-volume NAND flash programming?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
IC Programmers	General IC programming tasks	Industry Standard: 32-bit (4GB address space) ▲ Our Base: 64-bit (18.4E+19 addresses) ▲▲ Our Advanced: 64-bit + ECC (90% error reduction) (ISO/IEC 19762-1)	Supports complex devices; handles large memory configurations.	Requires advanced technical expertise; higher cost for ECC versions.
General-Purpose Programmers	Versatile IC programming	Industry Standard: 50+ IC families ▲ Our Base: 100+ IC families ▲▲ Our Advanced: 150+ IC families (ANSI/VITA 48)	Flexibility across industries; minimizes tool switching.	Slower for specialized tasks; may lack niche IC support.
High-Speed Programmers	Mass production environments	Industry Standard: 150MB/s ▲ Our Base: 300MB/s ▲▲ Our Advanced: 500MB/s (Faster than USB 3.0 transfer rates) (JEDEC JESD624)	Reduces production downtime; boosts throughput.	Higher upfront cost; requires robust power infrastructure.
NAND Flash Programmers	Embedded systems with NAND storage	Industry Standard: 256GB support ▲ Our Base: 1TB support ▲▲ Our Advanced: 2TB support (ONFI 5.0 spec)	Handles modern high-capacity storage devices; ensures reliable flash writes.	Limited to NAND-based systems; slower for non-flash memory types.
SMD Programmers	Surface-mount component assembly	Industry Standard: ±0.1mm alignment ▲ Our Base: ±0.05mm alignment ▲▲ Our Advanced: ±0.01mm alignment (IEC 61130-1)	Precision for tiny components; reduces soldering defects.	Less adaptable to through-hole components; sensitive to environmental noise.
Embedded Memory Programmers	In-system programming	Industry Standard: Off-line programming ▲ Our Base: Partial in-system ▲▲ Our Advanced: Full in-system (ANSI/VITA 48)	No need to remove ICs; maintains system integrity.	Requires specific hardware interfaces; troubleshooting is complex.

K3RG2G20BM K3RG2G20BM-MGCH 64 Bit Ic Chip Programmer Machine Nand Flash Hard

K3RG2G20BM K3RG2G20BM-MGCH 64 Bit Ic Chip Programmer Machine Nand Flash Hard

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology

2. Interactive Design

3. Performance Parameters

4. Scenario Solutions

5. Certification Standards

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which K3RG2G20BM model is best for small-scale circuit board programming tasks?

How do I clean the solder balls on the K3RG2G20BM-MGCH to ensure reliable connections?

What material makes the K3RG2G20BM suitable for harsh industrial environments?

Can the K3RG2G20BM be customized for specialized machine applications?

Is the K3RG2G20BM certified for industrial-grade reliability?

What advantages does the 64-bit architecture of the K3RG2G20BM offer over 32-bit models?

Does the K3RG2G20BM support programming for both general-purpose and custom circuit boards?

How does the K3RG2G20BM-MGCH handle high-volume NAND flash programming?

Product comparison

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