What is the MAB-T660D?

The MAB-T660D is a compact medical-grade AI PC / data gateway built on 12/13/14th Gen Intel Core i3/i5/i7/i9 processors (up to 65W) and the Intel H610E chipset, with dual DDR5 SO-DIMM (up to 64GB), a PCIe Gen4 x16 slot via riser, and IEC/EN 60601-1 compliance.

Is the MAB-T660D medically certified?

It is designed for IEC/EN 60601-1 compliance with an optional medical 180W adapter, suiting clinical and hospital deployment.

How does the MAB-T660D differ from the MAB-T690?

The MAB-T660D is a compact 65W H610E system with dual SO-DIMM (up to 64GB) and one PCIe Gen4 x16 via riser, whereas the MAB-T690 is a larger 125W R680E workstation with 4 UDIMM (up to 192GB), PCIe Gen5, and bigger GPU support.

Which processors does the MAB-T660D support?

12th/13th/14th Generation Intel Core i3/i5/i7/i9 with a maximum 65W TDP.

How much memory does the MAB-T660D support?

Two DDR5 5600MHz SO-DIMM sockets up to 64GB (non-ECC, CPU dependent).

Can the MAB-T660D take a GPU?

Yes, it has one PCIe Gen4 x16 slot (via a 1-to-1 riser card) for an add-in GPU or accelerator.

What storage does the MAB-T660D offer?

An M.2 M-Key NVMe slot (PCIe x4 + SATA III) plus one internal 2.5" drive bay.

What networking does the MAB-T660D provide?

One Intel i225LM 2.5GbE port and one Intel I219-V Gigabit Ethernet port.

Does the MAB-T660D include hardware security?

Yes, dTPM 2.0 and Intel iAMT for hardware key storage and remote manageability.

What display outputs does the MAB-T660D support?

1x DisplayPort 1.4a up to 4096x2304 @ 60Hz and 1x HDMI 1.4b up to 3840x2160 @ 30Hz.

What power input does the MAB-T660D use?

A wide 12~24V DC input via a 4-pin DC jack, with an external 180W adapter (optional medical 180W adapter).

Which operating systems does the MAB-T660D support?

Windows 10, Windows 11, and Linux.

What are the MAB-T660D's dimensions and weight?

315 x 273 x 92 mm and approximately 4.8 kg — a compact footprint for clinical spaces.

What applications is the MAB-T660D best suited for?

Compact healthcare edge-AI and data-gateway roles — bedside/room data aggregation, light inferencing, and clinical connectivity requiring a 60601-1-compliant unit.

What are medical box PCs and what are their typical applications?

Medical box PCs are high-performance, compact computers designed for use in healthcare environments. They are used in medical imaging, diagnostics, telemedicine, patient monitoring, and hospital automation.

What are the advantages of using a medical box PC?

Medical box PCs offer robust performance, medical-grade safety certifications, long lifecycle support, and are designed for reliability in demanding healthcare settings.

What certifications should a medical box PC have?

Look for certifications such as ANSI AAMI ES60601-1, IEC 60601-1, EN 60601-1, and ISO 14971 for compliance with medical safety standards.

What processors are supported by medical box PCs?

Medical box PCs typically support the latest Intel® Core™ processors, with options for ECC memory and advanced graphics for medical imaging.

What are the display capabilities of medical box PCs?

They support multiple independent displays, often with 4K or 8K resolution, via HDMI, DP++, and other interfaces.

What networking features are available?

Medical box PCs offer multiple high-speed LAN ports (including 2.5GbE), Wi-Fi, and expansion options for connectivity in hospital networks.

What is the typical power supply for a medical box PC?

They use medical-grade ATX power supplies, typically 400W or 500W, with wide AC input support.

How do I install a medical box PC in a healthcare environment?

Follow manufacturer guidelines for mounting, ensure proper ventilation, and connect to certified power sources. Use ESD protection and avoid exposure to moisture or contaminants.

What operating systems are supported?

Most medical box PCs support Windows 10, Windows 11, and Linux. Check the product datasheet for details.

How do I connect peripherals and expansion cards?

Use the available PCIe, M.2, and USB ports for expansion. Ensure all connections are secure and compatible with medical standards.

What should I do if the medical box PC does not power on?

Check the AC power input, power supply unit, and all cable connections. Ensure the power switch is set correctly and test with a known-good power source.

How can I resolve display issues?

Verify cable connections, monitor input selection, and supported resolutions. Update drivers and check BIOS settings if needed.

What steps should I take if there are network connectivity problems?

Check LAN cable connections, update network drivers, verify IP configuration, and test with alternate cables or ports.

How do I update the BIOS or firmware?

Refer to the product manual for update procedures. Use only manufacturer-approved firmware and follow ESD precautions.

Avalue · Intelligent Healthcare

MAB-T660D

Data Sheet

*Price on request. Contact us for a quote.

Manufacturer: Avalue

Highlights

12/13/14th Gen Intel Core i9/i7/i5/i3 (up to 65W TDP), Intel H610E chipset
2 x DDR5 SO-DIMM up to 64GB (non-ECC, CPU dependent)
1 x PCIe Gen4 x16 (via riser card)
M.2 M-Key NVMe + M.2 E-Key CNVi (Wi-Fi)
1 x Intel GbE + 1 x Intel 2.5GbE LAN
Internal 2.5" SSD bay, USB 3.2 Gen1 + USB 2.0 (front & rear)
DP 1.4a + HDMI, dTPM 2.0, iAMT
Wide 12~24V DC input (optional medical 180W adapter), IEC/EN 60601-1
Windows 10/11 / Linux

Product Description

The Avalue MAB-T660D is a compact medical-grade AI PC / data gateway built on 12/13/14th Generation Intel Core i3/i5/i7/i9 processors (up to 65W TDP) and the Intel H610E chipset, designed as a space-efficient edge-AI node for healthcare data aggregation and inferencing.

With dual DDR5 SO-DIMM (up to 64GB), a PCIe Gen4 x16 slot via riser, and IEC/EN 60601-1 compliance, it brings GPU-ready compute into a clinically certified compact chassis.

Connectivity includes 1x GbE + 1x 2.5GbE Intel LAN, M.2 M-Key NVMe and M.2 E-Key CNVi, an internal 2.5" SSD bay, USB 3.2/2.0 front and rear, DP 1.4a and HDMI, a wide 12~24V DC input with an optional medical 180W adapter, dTPM 2.0 and iAMT, running Windows 10/11 or Linux.

Technical Specifications

Processor

12th Gen Alder Lake/ 13th Gen Raptor Lake/ 14th Gen Raptor Lake Refresh Intel® Core™ i3/i5/i7/i9 Processors. Max TDP 65W

Platform Controller Hub

Intel® H610E Chipset

System Memory

2 x SODIMM sockets support DDR5 5600MHz up to 64GB (Non-ECC) (CPU dependent)

I/O Chipset

Nuvoton NCT6126D (eSPI super IO)

BIOS

AMI uEFI BIOS, 256Mbit SPI Flash ROM

Watchdog Timer

H/W Reset, 5~255 seconds/5~255 minutes

H/W Status Monitor

CPU temperature monitoring, Voltages monitoring, CPU fan speed control

TPM

dTPM2.0

iAMT

Yes

SBC

MX610HD

M.2

1 x M.2 M-Key 2242/2280 NVMe (PCIe x4 + SATA III)

1 x M.2 E-Key 2230 CNVi (PCIe x1 + USB 2.0)

PCIe

1 x Gen 4 PCIe x16

M.2

1 x M.2 Key-M 2242/2280 NVMe (PCIex4, SATA3)

Storage

1 x Internal 2.5”Drive Bay

Power Button

1 x PWR Button

LED Indicator

1 x Power on/off LED

USB

2 x USB 2.0

USB

2 x USB 2.0 (Type A)

2 x USB 3.2 (Type A)

LAN Port

2 x RJ45

Audio

Line-out, Mic-in

DP

1 x DP

HDMI

1 x HDMI

AC/DC Input

DC-In

Graphic Chipset

Intel® Integrated UHD Graphic with Xe Architecture (CPU Dependent)

Spec. & Resolution

1 x DP 1.4a 4096 x 2304@60Hz

1 x HDMI 1.4b 3840 x 2160 @30Hz

Audio Codec

Realtek HD Audio Codec

Audio Amplifier

TI TPA3005 Stereo Class-D 3W4Ω

Voltage Input Spec

12V-24V Wide Range DC-In

Voltage Input Conn.

4-pin DC Jack

ACPI

Single power ATX support S0, S3, S4, S5

Power Mode

AT / ATX mode (Default ATX)

Adapter

External 180W adapter (Optional medical 180W adapter)

LAN Chipset

1 x Intel® i225LM 2.5 Gigabit Controller

1 x Intel® I219-V Gigabit Ethernet PHY

Data Rate Per Port

2.5GbE (I225-LM)

1GbE (I219-V)

OS

Win 10, Win 11, Linux

Certification Information

IT CE/FCC

SATA Signal

2 x SATA III

SATA PWR

1 x 15-pin SATA Power Connector (2 Devices)

GPIO

1 x 8-bit GPIO Header

USB Port

1 x 2 x 5 pin, pitch 2.54mm connector for 2 x USB 2.0 (USB78)

1 x 2 x 10 pin, pitch 2.00mm connector for 2 x USB 3.2 Gen 1x1 (USB56)

COM Port

COM1~COM2:

• 2 x RS232/422/485 ports, selectable via BIOS

• Connector: 2 x 5-pin header (2.00mm pitch)

• Pin 9: No power output

• Power selection (Pin 9) available via jumper (JCOMPWR1~2): +5V / +12V / RI (Ring Indicator)

COM3:

• 1 x RS232 port

• Connector: 2 x 5-pin header (2.00mm pitch)

• Pin 9: No power output

• Power configuration via jumper (JCOMPWR3): +5V / +12V / RI

AT/ATX Selector

1 x 1 x 3 pin, pitch 2.00mm connector for AT/ATX jumper (JPSON1)

RTC Battery

1 x 2 Pin, pitch 1.25mm horizontal type battery connector (SMD Type)

Audio

1 x 2 x 5 pin, pitch 2.54mm connector for front panel audio (FP_AUDIO1)

DC-Input

1 x 4 pin, pitch 2.50mm Mini-Fit Jr DC Jack at IO (DC_IN1)

Buzzer

Onboard

CPU/System FAN

65W cooler fan; N/A

AC/DC Input Conn.

1 x 2 x 2 pin, pitch 2.40mm for 12V ATX power (ATX12V1)

Operating Temp.

0°C ~ 40°C (32°F ~ 104°F) with 0.5m/s air flow (turbo mode off)

Drop Test

Package drop test:One corner, three edges, six faces

ISTA 2A, IEC-60068-2-32

Shock Test

With SSD : 10 Grms, IEC 60068-2-27, half sine, 11ms

Vibration Test

Operating with SSD : 0.5 Grms, IEC 60068-2-64, 5 ~ 500Hz, 0.5hr/axis

Weight

4.8 kg

Dimension (W x L x H)

315 * 273 * 92 mm

Operating Humidity

40°C @ 95% Relative Humidity, Non-condensing

Storage Temp.

-20°C ~ 60°C(-4°F ~ 140°F)

What is MAB-T660D?

The MAB-T660D is a intelligent healthcare manufactured by Avalue, designed specifically for ai-pc-and-data-gateway applications. The Avalue MAB-T660D is a compact medical-grade AI PC / data gateway built on 12/13/14th Generation Intel Core i3/i5/i7/i9 processors (up to 65W TDP) and the Intel H610E chipset, designed as a space-efficient edge-AI node for healthcare data aggregation and inferencing. With dual DDR5 SO-DIMM (up to 64GB), a PCIe Gen4 x16 slot via riser, and IEC/EN 60601-1 compliance, it brings GPU-ready compute into a clinically certified compact chassis. Connectivity includes 1x GbE + 1x 2.5GbE Intel LAN, M.2 M-Key NVMe and M.2 E-Key CNVi, an internal 2.5" SSD bay, USB 3.2/2.0 front and rear, DP 1.4a and HDMI, a wide 12~24V DC input with an optional medical 180W adapter, dTPM 2.0 and iAMT, running Windows 10/11 or Linux.

Key Features & Benefits

12/13/14th Gen Intel Core i9/i7/i5/i3 (up to 65W TDP), Intel H610E chipset
2 x DDR5 SO-DIMM up to 64GB (non-ECC, CPU dependent)
1 x PCIe Gen4 x16 (via riser card)
M.2 M-Key NVMe + M.2 E-Key CNVi (Wi-Fi)
1 x Intel GbE + 1 x Intel 2.5GbE LAN
Internal 2.5" SSD bay, USB 3.2 Gen1 + USB 2.0 (front & rear)
DP 1.4a + HDMI, dTPM 2.0, iAMT
Wide 12~24V DC input (optional medical 180W adapter), IEC/EN 60601-1
Windows 10/11 / Linux

Applications & Use Cases

The MAB-T660D is ideal for various industrial automation applications:

DC-powered industrial installations and mobile applications
Wireless connectivity and remote monitoring applications
Medical device integration and healthcare applications
High-performance computing and data processing tasks
Networked industrial systems and data communication
Peripheral device connectivity and data transfer
Memory-intensive applications and multitasking
Data logging and storage-intensive operations

Highlights

Product Description

Technical Specifications

System Information

Processor

Platform Controller Hub

System Memory

I/O Chipset

BIOS

Watchdog Timer

H/W Status Monitor

TPM

iAMT

SBC

Expansion

M.2

PCIe

Storage

M.2

Storage

Front I/O

Power Button

LED Indicator

USB

Rear I/O

USB

LAN Port

Audio

DP

HDMI

AC/DC Input

Display

Graphic Chipset

Spec. & Resolution

Audio

Audio Codec

Audio Amplifier

Power Requirement

Voltage Input Spec

Voltage Input Conn.

ACPI

Power Mode

Adapter

Ethernet

LAN Chipset

Data Rate Per Port

Software Support

OS

Certification

Certification Information

Internal I/O

SATA Signal

SATA PWR

GPIO

USB Port

COM Port

AT/ATX Selector

RTC Battery

Audio

DC-Input

Buzzer

CPU/System FAN

AC/DC Input Conn.

Mechanical & Environmental

Operating Temp.

Drop Test

Shock Test

Vibration Test

Weight

Dimension (W x L x H)

Operating Humidity

Storage Temp.

What is MAB-T660D?

Key Features & Benefits

Applications & Use Cases

Frequently Asked Questions