Memory_edited.jpg

MEMORIES

1x1 Greenliant 500px.jpg

Reliable and Secure Storage

Macnica ATD Europe ATD Electronique Memories Memory Card Greenliant

Featured Products

NANDrive™ Embedded SSDs

The award-winning NANDrive™ 85 Series offers a wide range of ball grid array (BGA) form factor solid state drives (SSDs) for long-life, energy-efficient embedded applications. NANDrive™ SSDs have the same pin-out accross all capacities in each family (PATA, SATA, eMMC), giving customers flexibility and simplifying board design. Industrial temperature (-40 to +85°C) NANDrive™ is offered with 2-bits-per-cell (MLC) or 1-bit-per-cell (SLC) NAND to meet varying customer requirements for lifespan, endurance and performance. 

picture 2_edited.png

Greenliant's SLC NAND-based, industrial grade NANDrive™ products offer 10x the lifetime compared to typical MLC NAND SSDs and are qualified for the most demanding applications. NANDrive™ is an ideal data storage solution for automotive and industrial products, medical devices, networking systems and enterprise equipment requiring small size, reliability, ruggedness and low power consumption.

 
 

ArmourDrive™ SSDs

Built in industry standard M.2, mSATA, CFAST, 2.5" and SD/microSD form factors, Greenliants ArmourDrive™ SSD portfolio is ideal for demanding industrial, networking, datacenter, video and imaging applications that require reliable removable data storage. Tested for shock and vibration, and operating at industrial temperatures (-40 to +85°C), ArmourDrive™ is able to withstand extreme environments. ArmourDrive™ SSDs are offered in a variety of interfaces (NVMe PCle, SATA, SD) and NAND configurations (SLC, MLC, TLC) to meet different customer requirements for performance, endurance and lifespan.

Macnica ATD Europe ATD Electronique Memories Memory Card Greenliant

In addition to robust power interrupt data protection, ArmourDrive™ SSDs' advanced features include hardware encryption, secure erase and lifespan monitoring. Available in a wide range of capacities, from 8GByte to 4TByte, ArmourDrive™ products surpass traditional storage with their superior functionality and reliability. In addition to 3D MLC based MX Series and 3D TLC based PX Series, Greeliant offers ArmourDrive™ EX Series with industry leading EnduroSLC™ Technology for ultra-robust data retention and ultra-high endurance, from 50K and 100K to market leading 250K+ program-erase cycles (endurance of 300K and above is available upon request).

NAND Controllers

Macnica ATD Europe ATD Electronique Memories Memory Card Greenliant

Comprising the heart of NAND-based storage solutions, Greenliant's 55 Series NAND Controllers are built upon more than two decades of controller design expertise. They intelligently manage the inherent deficiencies of NAND flash, taking this burden off the host system and making the designer's job easier. Greeliant's NAND Controllers utilize advanced wear-leveling technology coupled with robust error correction and data integrity protection during power interrupts, making them ideal for NAND flash-based modules and solid state drives that require long product life and high reliability.

 
 

Specialty Flash Memory

Greenliant's Specialty Flash Memory portfolio includes the CSF™ (Concurrent SuperFlash™), Many-Time Programmable and SSF™ (Small-Sector Flash™) product families. The multi-bank architecture and Read-while-Write operations of the Concurrent SuperFlash™ 36 Series make it well-suited for automotive, communications and industrial applications. The Many-Time Programmable 27 and 37 Series products combine the erase capability of flash cost effectiveness of EPROM/OTP memory, while the Small-Sector Flash™ 29 Series is ideal for applications requiring fine data granularity. These products provide high performance, superior reliability of more than 100 years data retention, low power consumption and a small footprint, making them well-suited for code storage applications and space-constrained systems.

Macnica ATD Europe ATD Electronique Memories Memory Card Greenliant
 
GigaDevice

FLASH Memory

NOR or NAND flash memory is the critical non-volatile memory device that stores digital device’s configuration data. GigaDevice has a large flash memory product portfolio that is specifically designed to meet the different needs in various electronic applications, in term of density, performance, reliability and security, while providing the smallest packages and low power consumption.

 

SPI Flash Memory Interface

Serial Peripheral Interface (SPI) is the most popular bus protocol for accessing the flash memory. It requires only 6 signals to communication between the controller and the memory, thus reduces the design complexity and offers reduction in board space, power consumption and total system cost. The small 8-pin package is ideal to meet the compact design requirement for modern electronics.

Their flash memory portfolio offers the following features:

  • Density: 512Kb (64KB) ~ 8Gb (1GB)

  • Performance: 52MB/s ~ 104MB/s (with Quad SPI), 400MB/s (with Xccela™)

  • Reliability: 100,000 P/E Cycles, 20-year Data Retention

  • Security: UID, Array Protection, OTP area, RPMC

  • Package: WLCSP, USON, WSON, SOIC, TFBGA

  • Power Consumption: 0.1uA DPD, 1uA Standby, 10mA Active

SPI NOR FLASH

GigaDevice SPI NOR Flash delivers the high-performance and security features necessary to meet the diverse design requirements of today’s applications.

Key Features

  • Available in 1.8V, 2.5V, 3.0V and wide voltage ranges

  • Single, Dual and Quad mode I/O data transfer rates in excess of 600Mbit/s

  • Quad-SPI data transfer of up to 532MHz outperforms many asynchronous parallel Flash memories

  • Flexible memory architecture (sector size: 4K Bytes, block size: 32/64K Bytes)

  • Other benefits include faster code execution, simpler interface and lower pin count

PARALLEL NAND FLASH

GigaDevice GD9F Parallel NAND Flash offers the high-capacity storage and performance necessary for multimedia data storage applications on mobile devices, set-top boxes, data cards, TVs and more.

Key Features

  • Power Supply: 1.8V (1.7V ~ 1.95V) or 3.0V (2.7V ~ 3.6V)

  • Page Size: 2048 + 128 Byte or 2048 + 64 Byte

  • ONFi Compatible Specification

  • Package Type: TSOP-48, FBGA-63, FBGA-48

  • Density: 1Gb to 8Gb

  • High Reliability: 10-year Data Retention & up to 100,000 Program/Erase cycles

  • Wide Operating Temperature range: -40°C ~ 85°C / -40°C ~ 105°C

  • High Performance Feature: Cache Read/Program operation

  • Security Features: OTP, UID and Array Protection

Microcontrollers

Their GD32™ family of high-performance, low-power, and cost-effective universal microcontrollers are available powered by the ARM® Cortex®-M3 or Cortex-M4 cores. The product family incorporates GigaDevice’s advanced patented gFlash memory technology, providing extended functionality and design flexibility.

The GigaDevice GD32™ family is well-suited for a wide range of applications, including industrial control, user interfaces, motor drives, power monitors and alarm systems, consumer and handheld equipment, solar photovoltaic controls, touch panels, PC peripherals and more.

 

GD32 ARM Cortex-M3 Microcontrollers

GD32 ARM Cortex-M3 Microcontrollers.png

GD32® is a new 32-bit high performance, low power consumption universal microcontroller family powered by the ARM® Cortex®-M3 RISC core, which targeted at various MCU application areas. GD32® family integrates features to simplify system design and provide customers wide range of comprehensive and superior cost effective MCU portfolios with proven technology and great innovation. Building on GigaDevice advanced patented “gFlash” memory technology and mass production experiences, it provides new form of MCUs which offers customer high functionality and quality. GD32® family includes entry line, performance line and connectivity line currently.

GD32® MCU incorporates the 32-bit ARM® Cortex®-M3 processor core operating at 108 MHz max frequency with Flash accesses zero wait states to obtain maximum efficiency. It provides up to 3024 KB on-chip Flash memory and up to 96 KB SRAM memory. An extensive range of enhanced I/Os and peripherals connected to two APB buses. The device offers up to three 12-bit 1MSPS ADCs, up to ten general-purpose 16-bit timers plus one PWM advanced timer, as well as standard and advanced communication interfaces: up to three SPIs, two I2Cs, five USARTs, an USB 2.0 OTG FS and two CANs. The device operates from a 2.6 to 3.6 V power supply and available in –40 to +85 °C temperature range. Three power saving modes provide the flexibility for maximum optimization between wakeup latency and power consumption, an especially important consideration in low power applications.

GD32® series of MCUs also bring much advantage to the end-user. The max speed of GD32® MCU has increased 50% than the market competing products. Code execution efficiency of the same frequency has enhanced 30%-40%. Current consumption of the same frequency has reduced 20%-30%. These performances provide maximum capability and bandwidth options for various market requirements.

The above features make the GD32® MCUs suitable for a wide range of applications. It is ideal for use in industrial control, user interface, motor drives, power monitor and alarm systems, consumer and handheld equipment, solar photovoltaic control, touch panel, PC peripherals and so on.

Features:

  • Flexible memory configurations, with up to 3024 KB on-chip Flash memory and up to 96 KB SRAM memory

  • Extensive range of enhanced I/Os and peripherals connected to two APB buses

  • Wide range of standard and advanced communication interfaces,
    including SPI, I2C, USART, USB 2.0 OTG FS and CAN

  • Up to three 12-bit 1Msps ADCs, up to ten general-purpose 16-bit timers, and one PWM advanced timer

  • Three power saving modes for maximum optimization between wakeup latency and energy consumption for low-power applications

GD32 ARM Cortex-M4 Microcontrollers

GD32 ARM Cortex-M4 Microcontrollers.png

The GD32F4 device belongs to the performance line of GD32 MCU Family. It is a new 32-bit general-purpose microcontroller based on the ARM® Cortex®-M4 RISC core with best cost-performance ratio in terms of enhanced processing capacity, reduced power consumption and peripheral set.

The Cortex®-M4 core features a Floating Point Unit (FPU) that accelerates single precision floating point math operations and supports all ARM® single precision instructions and data types. It implements a full set of DSP instructions to address digital signal control markets that demand an efficient, easy-to-use blend of control and signal processing capabilities. It also provides a Memory Protection Unit (MPU) and powerful trace technology for enhanced application security and advanced debug support.

GD32F4 devices suitable for a wide range of interconnection and advanced applications, especially in areas such as industrial control, consumer and handheld equipment, embedded modules, human machine interface, security and alarm systems, graphic display, automotive navigation, drone, IoT and so on.

Features:

  • Flexible memory configurations, with up to 3024 KB on-chip Flash memory and up to 96 KB SRAM memory

  • Extensive range of enhanced I/Os and peripherals connected to two APB buses

  • Wide range of standard and advanced communication interfaces,
    including SPI, I2C, USART, USB 2.0 OTG FS and CAN

  • Up to three 12-bit 1Msps ADCs, up to ten general-purpose 16-bit timers, and one PWM advanced timer

  • Three power saving modes for maximum optimization between wakeup latency and energy consumption for low-power applications

GD32 ARM Cortex-M23 Microcontrollers

The GD32E23x device belongs to the value line of GD32 MCU family. It is a new 32-bit general-purpose microcontroller based on the ARM® Cortex®-M23 core. The Cortex-M23 processor is an energy-efficient processor with a very low gate count. It is intended to be used for microcontroller and deeply embedded applications that require an area-optimized processor. The processor delivers high energy efficiency through a small but powerful instruction set and extensively optimized design, providing high-end processing hardware including a single-cycle multiplier and a 17-cycle divider.

The GD32E23x device incorporates the ARM® Cortex®-M23 32-bit processor core operating at up to 72 MHz frequency with Flash accesses of 0~2 wait states to obtain maximum efficiency. It provides up to 64 KB embedded Flash memory and up to 8 KB SRAM memory. An extensive range of enhanced I/Os and peripherals are connected to two APB buses. The devices offer one 12-bit ADC and one comparator, up to five general 16-bit timers, a basic timer, a PWM advanced timer, as well as standard and advanced communication interfaces: up to two SPIs, two I2Cs, two USARTs, and an I2S.

The device operates from a 1.8 to 3.6 V power supply and is available in -40 to +85°C temperature range. Several power saving modes offer maximum optimization between wakeup latency and power consumption, which is an important consideration for low power applications. The above features make the GD32E23x devices suitable for a wide range of applications, especially in areas such as industrial control, motor drives, user-interface, power monitor and alarm systems, consumer and handheld equipment, gaming and GPS, E-bike and so on.

Features:

  • Flexible memory configurations, with up to 3024 KB on-chip Flash memory and up to 96 KB SRAM memory

  • Extensive range of enhanced I/Os and peripherals connected to two APB buses

  • Wide range of standard and advanced communication interfaces,
    including SPI, I2C, USART, USB 2.0 OTG FS and CAN

  • Up to three 12-bit 1Msps ADCs, up to ten general-purpose 16-bit timers, and one PWM advanced timer

  • Three power saving modes for maximum optimization between wakeup latency and energy consumption for low-power applications

GD32 ARM Cortex-M33 Microcontrollers

The GD32E5 series is based on the Arm® Cortex®-M33 core from the latest Armv8-M architecture. System frequency supports up to 180MHz, includes a built-in hardware multiplier/divider, DSP instruction set and single-precision floating-point unit (FPU).

It is also equipped with a new hardware trigonometric math unit (TMU) that supports vector, sine and cosine, exponent, square root, common logarithm and other mathematical trigonometric operations, reducing the burden on the CPU and improving the processing efficiency. Additionally, it has a built-in memory protection unit (MPU) for task isolation, improving system’s reliability.

The devices operate from a 1.7V to 3.6 V power supply, the I/O port can support 5V voltage levels and are available in –40°C to +85°C temperature range. Several power saving modes provide the flexibility for maximum optimization between wakeup latency and power consumption, an especially important consideration in low power applications.

The above features make the GD32E50x devices suitable for a wide range of interconnection applications, especially in areas such as switching power supplies, advanced data processing, motor control, power management and other industrial applications.

Features:

  • Flexible memory configurations, with up to 512KB on-chip Flash memory and up to 128KB SRAM memory

  • Super High-Resolution Timer (SHRTimer) with 5 independent counters

  • USB 2.0 OTG dual-function controller, including 480Mbps high-speed (HS) mode and 12Mbps full-speed (FS) mode

  • Wide range of standard and advanced communication interfaces,
    including SPI, I2C, USART, I2S, CAN FD, SDIO, Ethernet, Ultra-fast Comparators, External Memory Controller and TMU

  • Thee 12-bit 2.5Msps ADC with 16 channels, two 12-bit DAC

  • Five power saving modes for maximum optimization between wakeup latency and energy consumption for low-power applications

GD32 RISC-V Microcontrollers   

The GD32VF103 device is a 32-bit general-purpose microcontroller based on the RISC-V core with an impressive balance of processing power, reduced power consumption and peripheral set.

The GD32VF103 device incorporates the RISC-V 32-bit processor core operating at 108 MHz frequency with Flash accesses zero wait states to obtain maximum efficiency. It provides up to 128 KB on-chip Flash memory and 32 KB SRAM memory. An extensive range of enhanced I/Os and peripherals are connected to two APB buses. The device offers up to two 12-bit ADCs, two 12-bit DACs, four general 16-bit timers, two basic timers plus a PWM advanced timer, as well as standard and advanced communication interfaces: up to three SPIs, two I2Cs, three USARTs, two UARTs, two I2Ss, two CANs, an USBFS. The RISC-V processor core is also tightly coupled with an Enhancement Core-Local Interrupt Controller (ECLIC), SysTick timer and advanced debug support.

The devices operate from a 2.6V to 3.6V power supply and they are available in –40°C to +85 °C temperature range. Several power saving modes provide the flexibility for maximum optimization between wakeup latency and power consumption, which is an essential consideration for designing low power applications.

The above features make the GD32VF103 devices suitable for a wide range of interconnected applications, especially in areas such as industrial control, motor drives, power monitor and alarm systems, consumer and handheld equipment, POS, vehicle GPS, LED display and so on.

Features:

  • Flexible memory configurations with up to 128KB on-chip Flash memory and up to 32KB SRAM memory

  • Extensive range of enhanced I/Os and peripherals connected to two APB buses

  • Wide range of standard and advanced communication interfaces,
    including SPI, I2C, USART and I2S

  • Two 12-bit 1Msps ADC with 16 channels, up to four general-purpose 16-bit timers and one PWM advanced timer

  • Three power saving modes for maximum optimization between wakeup latency and energy consumption for low-power applications

Hagiwara
 

eSD

  • SD interface

No need to install any special controllers, because most of micro computers have SD interface.

  • Longer suppling period than eMMC

Unlike the current eMMC, this product has SLC NAND Flash which allows to have longer life time and longer suppling durations.

  • Faster, but lower cost than NOR

Because this products are based on NAND flash memory, it allows to have faster transfer speed than NOR flash memory.
Moreover, the enhanced capacities can be possible due to the lower cost compared by NOR flash.

 

  • Original NAND controller equipped

This product allows to have appropriate memory management for industrial devices possible without being aware of host side by our original NAND controller that has been used successfully in our industrial grade SDs.
 

  • Active Refresh

This function allows to do a refresh before data error is occurred, because data error (read disturb) becomes a problem when storing the read main data such as boot loader and kernel.

  • Life prediction tool is available

Allows to access the information to decide the device’s condition.
- Life prediction software for Windows
- API (Windows and Linux)
- Command to access to SMART data.

  • Ideal for replacement of NOR as a boot memory.

Replacing from NOR reduces mounting area and cost since this product can be used as a memory for storing data as well.Also, this product has the bigger advantage in terms of the reliability such as data retention capacity when compared to eMMC which mainly equips with MLC/TLC NAND flash memory.

 

SSD

SATA

SSD SATA.png

This SATA 6.0Gbps SSD features a proprietary page mapping system to achieve high random write speeds while maintaining reliability.

PATA

SSD PATA.png

This flash storage boasts the high level of reliability that comes from manufacture in Japan under exacting quality control standards.

 

SD

 

SD Card

SD card.jpg

With a memory management scheme optimized for random-access, this is a highly reliable SD memory card that ensures consistent performance even after repeated use.

Micro SD Card

micro SD card.jpg

This is a microSD card designed to be integrated in industrial epuipments which allows easy diagnosis of the product lifespan.

Memory Module

High quality and reliability for stable operation required by memory module for industrial.
memory module.png
By maintaining thorough quality control and using fixed BOM, Hagiwara memory modules has high quality and compatibility.
 

USB

usb.jpg
 

High level of reliability and stability by using the fixed BOM for all parts. A reliable USB Flash Drive for industrial devices. 

TLC is used as a NAND implementation to achieve high capacity/low prices on the market. Such USB is uneasy to use in industrial devices.

Our USB Flash drives for Industrial devices adopt the "MLC/SLC", a highly reliable NAND flash memory.

Products that use the fixed BOM to be compatible with stable operation and are reliable enough for long-term use in industrial devices.

Offline Security

For industrial devices where periodic virus checks with a virus check tool are difficult, complete antivirus will be available.
offline security.png
While offline terminals and implemented control systems constit ute a part of the important business process, conventional antivirus was difficult because of the isolation from the network or the limited number of resources. Even if the virus infection from the network is shut off, there remains a concern over the serious impact on services caused by the virus infection via USB Flsh Drive if the devices are used to update programs or for log recovery.
The introduction of Vaccine USB3 with antivirus and the Anti-Virus USB Flash Drive will greatly decrease virus infection risks on the industrial devices.