KINO-DA750-i2

Mini-ITX SBC supports Socket FS1r2 AMD R-series APU with A75

● Socket FS1r2 supports AMD Embedded R-Series APU
● DDR3 1066/1333/1600 MHz dual-channel SDRAM
● Quad independent display by three HDMI 1.4a and one DVI-D
● 3D micro-architecture enhancement supports DX11, OCL 1.1 and OGL4.2
● Rich media acceleration for hardware decode and encode acceleration
● High-speed I/O interface for USB 3.0, SATA 6Gb/s and CFast
● IEI jumper-less function
● Support IPMI 2.0 via iRIS-2400 module

Spec Item Description
Display Display Four display supported
3 x HDMI
1 x DVI-D (pin header)
System CPU AMD Embedded R-Series APU
Chipset AMDR A75
Memory Max. Two 204-pin 1600/1333MHz dualchannel
DDR3 & DDR3L SDRAM
unbuffered DIMMs
(system max. 16GB)
Storage 6 x SATA 6Gb/s (RAID 0, 1, 5, 10
supported)
1 x SD card slot
1 x CFAST (bottom side)
CPU Socket Socket FS1r2
I/O Interface Ethernet LAN1: Intel® I210-AT PCIe controller
with NCSI support
LAN2: Intel® I211-AT PCIe controller
Digital I/O 8-bit Programmable I/O (8-bit GPIO is for programming I/O)
Audio Realtek ALC892 HD Audio codec
I/O Interface 2 x RS-232
1 x RS-422/485
2 x USB 3.0
6 x USB 2.0
1 x 6-pin header for KB/MS
Power Power consumption 12V@3.45A (AMD R-464L 2.3 GHz CPU
with 8GB (2 x 4GB) 1333MHz DDR3
memory)
Environment Operating Temperature 0°C ~ 60°C (32°F ~ 140°F)
Humidity 5% ~ 95% non-condensing
Option iRIS 1 x iRIS-2400 slot
Expansion Slots Expansion Slots 1 x SIM card socket
1 x PCIe Mini card slot
FSB FSB
Watchdog Timer Watchdog Timer Software programmable and supports 1~255 sec. system reset
CPU Cooler CPU Cooler CF-989B-RS-R11
I/O Interface I/O Interface 1 x RS-422/485
4 x Internal USB 2.0
2 x RS-232
2 x USB 3.0
2 x USB 2.0
Item No. Description
KINO-DA750-i2-R10 Mini-ITX SBC supports Socket FS1 AMD® R-series CPU with A75, thriple HDMI, DVI, Dual PCIe GbE, USB3.0, PCIe mini, SATAIII and Audio, iRIS-2400 and RoHS

1 x KINO-DA750-i2 single board computer
1 x SATA cable with power output cable (P/N: 32801-000100-300-RS)
1 x I/O shielding
1 x Utility CD
1 x QIG