Dusun DSGW-380 Industrial AI Edge Computing Gateway Instruction Manual
- August 21, 2024
- Dusun
Table of Contents
Dusun DSGW-380 Industrial AI Edge Computing Gateway
Product Information
Specifications
Product Name: Industrial AI Edge Computing Gateway
Product Model: DSGW-380
Features:
- Wi-Fi6
- 5G
- RS232
- RS485
- LoRa
- BLE5.2
- Ethernet
Product Description
The DSGW-380 by Hangzhou Roombanker Technology Co., Ltd is an Industrial AI Edge Computing Gateway designed for various applications such as robotics, autonomous delivery vehicles, security systems, and smart infrastructure. It offers stable performance with rich I/O interfaces and is ideal for implementing AI computing capabilities at the edge.
Key Features
- Supports 5G, 4G LTE CAT4 and CAT1
- Supports Wi-Fi 6 (IEEE 802.11ax)
- Powerful computing performance for AI edge computing
- Compatible with industrial equipment protocols
- Ros robot system support
- Deep learning framework software compatibility
- IOT wireless protocols support
- Rugged industrial design for harsh conditions
Hardware Block Diagram
-
Step 1: Installation
Place the DSGW-380 in a well-ventilated area with enough space around it for proper cooling. -
Step 2: Connectivity
Connect the necessary cables and interfaces to the appropriate ports on the device as per your setup requirements. -
Step 3: Power On
After ensuring all connections are secure, power on the DSGW-380 and follow the on-screen prompts for initial setup. -
Step 4: Configuration
Configure the device settings and network connections according to your specific needs and environment.
FAQ
-
Q: What wireless protocols does the DSGW-380 support?
A: The DSGW-380 supports BLE 5.2 and LoRaWAN wireless protocols. -
Q: Can the DSGW-380 be used for deep learning applications?
A: Yes, the DSGW-380 supports a variety of deep learning framework software such as TensorFlow, MXNet, PyTorch, and Caffe.
Product Specification
Product Name : Industrial AI Edge Computing Gateway
Product Model : DSGW-380
Revision History
| Specification | Sect. | Update Description | By |
|---|---|---|---|
| Rev. | Date | ||
| 1.0 | 2023.09.01 | New Version Release | |
Approvals
| Organization | Name | Title | Date |
|---|---|---|---|
Model List
Feature
Model
| Wi-Fi6| 5G| RS232| RS485| LoRa| BLE5.2|
Ethernet
---|---|---|---|---|---|---|---
DSGW-380-1| ●| ●| ●| ●| ●| ●| ●
Product Description
Purpose and Description
- The DSGW-380 is an edge computing gateway designed for AI applications based on the RK3588 chip. This chip features an integrated CPU consisting of a quad-core Cortex-A76 alongside a quadcore Cortex-A55 and is further enhanced by a NEON coprocessor. The gateway is also equipped with an NPU (Neural Processing Unit) capable of hybrid operations with INT4, INT8, INT16, and FP16 and offers a computing capacity of up to 6 TOPS. In addition, the DSGW-380 is highly compatible with various neural network models, supporting a range of frameworks such as TensorFlow, MXNet, PyTorch, and Caffe.
- The rugged design with aluminum alloy structure, active fan cooling, rich I/O interfaces, and stable performance make the DSGW-380 highly suitable for various applications. These include robotics, autonomous delivery vehicles, low-altitude security, intelligent detection systems, and smart infrastructure. It is the optimal choice for implementing AI computing capabilities at the edge in deep learning scenarios.
Product Feature Summary
- Supports 5G, 4G LTE CAT4 and CAT1
- Supports Wi-Fi 6 (IEEE 802.11ax)
- Offers powerful computing performance, providing high-performance processing resources for AI edge computing
- Supports a variety of industrial real-time Ethernet and fieldbus protocols, making it compatible with a wide range of industrial equipment
- Coming with rich I/O interfaces
- Supports ROS robot system
- Supports a variety of deep learning framework software, including TensorFlow, MXNet, PyTorch, and Caffe
- Includes an acceleration SDK based on the open-source YOLOV3 algorithm, which provides a variety of API interfaces
- Supports IoT wireless protocols, including BLE 5.2 and LoRaWAN
- Featuring a fully industrial design, making it rugged and ready for harsh conditions
Hardware Block Diagram
Mechanical Requirement
Drawings and Interface
Interface
Specification
Technical Specification
Technical Specification
CPU| RK3588 Quad-core ARM Cortex-A76 and Quad-core ARM Cortex-A55
System| Debian 11
RAM| 8 GB LPDDR4
Storage| 64 GB eMMC
Power Supply| Input: DC 12V/4A
Indicator LEDs| The Power LED remains GREEN when the device is on. The 5G LED
flashes BLUE when functioning correctly. The Wi-Fi LED flashes BLUE when
operating properly.
The LoRa LED remains BLUE when functioning correctly.
Reset Button| Factory reset button. To reset the Gateway to its original factory settings, press and
hold it for more than 10 seconds
I/O Port| IO1/IO2 DI DO AI
Ethernet| 2 RJ45 Gigabit
SIM Card Slot| 1 SIM Card Slot
Antenna| 1BLE, 4LTE(5G), 1LoRa, 2Wi-Fi(2.4G/5G)
RS232| 1RS232
RS485| 1RS485
CAN| 1
HDMI| 2
USB Port| 2*USB 3.0
OTG 2.0| USB Type C
Installation| DIN-Rail, Wall Mounting
Protection Rating| IP 30
Shell Material| Aluminum alloy
Storage Temperature| -40℃~85℃
Operating Temperature| -25℃~75℃
Ambient Humidity| 5~95%
Performance Requirement
| WLAN Standard:
| IEEE 802.11b/g/n/ax, CSMA/CA
| Frequency Range 2.4~2.4835GHz (2.4GHz ISM Band) Channels Ch1~Ch13 (For
| 20MHz Channels)
| Modulation:
| 802.11b (DSSS): CCK, DQPSK, DBPSK;
| 802.11g (OFDM): BPSK, QPSK, QAM16, QAM64;
| 802.11n (OFDM): BPSK, QPSK, QAM16, QAM64;
| 802.11ax (OFDMA): BPSK, BPSK_DCM, QPSK, QPSK_DCM, QAM16, QAM16_DCM,
| QAM64, QAM256, QAM1024;
| 802.11b: 1, 2, 5.5, 11Mbps;
| 802.11g: 6, 9, 12, 18, 24, 36, 48, 54Mbps;
| 802.11n (HT20): MCS0~MCS7(1T1R_SISO) 6.5~72.2Mbps;
| 802.11n (HT20): MCS8~MCS15(2T2R_MIMO) 13~144.4Mbps;
| 802.11n (HT40): MCS0~MCS7(1T1R) 13.5~150Mbps;
| 802.11n (HT40): MCS8~MCS15(2T2R) 27~300Mbps;
| 802.11ax (HE_MU,26~242RU): MCS0~MCS11(1T1R) 0.4~143.4Mbps;
| 802.11ax (HE_MU,26~242RU): MCS0~MCS11(2T2R) 0.8~286.8Mbps;
| 802.11ax(HE_SU,non-OFDMA20MHz):MCS0~MCS11(1T1R)3.6~143.4Mbps;
| 802.11ax(HE_SU,non-OFDMA20MHz):MCS0~MCS11(2T2R) 7.3~286.8Mbps;
| 802.11ax(HE_SU,non-OFDMA40MHz):MCS0~MCS11(1T1R) 7.3~286.8Mbps;
| 802.11ax(HE_SU,non-OFDMA40MHz):MCS0~MCS11(2T2R)14.6~573.5Mbps;
| Frequency Tolerance:≦±15ppm
| Frequency Range:
| 5.15~5.25GHz; 5.25~5.35GHz; 5.47~5.73GHz;
| 5.735~5.835GHz (5GHz ISM Band)
Wi-Fi Performance| Channels:
| Ch36, Ch40, Ch44, Ch48; Ch52~Ch64
| Ch100~Ch140; Ch149~Ch165 (For 20MHz Channels)
| Modulation:
| 802.11a (OFDM): BPSK, QPSK, QAM16, QAM64;
| 802.11n (OFDM): BPSK, QPSK, QAM16, QAM64;
| 802.11ac (OFDM): BPSK, QPSK, QAM16, QAM64, QAM256;
| 802.11ax (OFDMA): BPSK, BPSK_DCM, QPSK, QPSK_DCM, QAM16, QAM16_DCM,
| QAM64, QAM256, QAM1024;
| Date Rate:
| 802.11a: 6, 9, 12, 18, 24, 36, 48, 54Mbps
| 802.11n (HT20): MCS0~MCS7(1T1R_SISO) 6.5~72.2Mbps
| 802.11n (HT20): MCS8~MCS15(2T2R_MIMO) 13~144.4Mbps
| 802.11n (HT40): MCS0~MCS7(1T1R) 13.5~150Mbps
| 802.11n (HT40): MCS8~MCS15(2T2R) 27~300Mbps
| 802.11ac (VHT20): MCS0~MCS8(1T1R) 6.5~86.7Mbps
802.11ac (VHT20): MCS0~MCS8(2T2R) 13~173.3Mbps
802.11ac (VHT40): MCS0~MCS9(1T1R)13.5~200Mbps
802.11ac (VHT40): MCS0~MCS9(2T2R)27~400Mbps
802.11ac (VHT80): MCS0~MCS9(1T1R)29.3~433.3Mbps
802.11ac (VHT80): MCS0~MCS9(2T2R)58.5~866.7Mbps
802.11ax (HE_MU,26~484RU): MCS0~MCS11(1T1R) 0.4~286.8Mbps
802.11ax (HE_MU,26~484RU): MCS0~MCS11(2T2R) 0.8~573.5Mbps
802.11ax (HE_SU,non-OFDMA 20MHz): MCS0~MCS11(1T1R) 3.6~143.4Mbps
802.11ax (HE_SU,non-OFDMA 20MHz): MCS0~MCS11(2T2R) 7.3~286.8Mbps
802.11ax (HE_SU,non-OFDMA 40MHz): MCS0~MCS11(1T1R) 7.3~286.8Mbps
802.11ax (HE_SU,non-OFDMA40MHz):MCS0~MCS11(2T2R) 14.6~573.5Mbps
802.11ax (HE_SU,non-OFDMA80MHz):MCS0~MCS11(1T1R) 15.3~600.4Mbps
802.11ax (HE_SU,non-OFDMA80MHz): MCS0~MCS11(2T2R) 30.6~1201Mbps
---|---
Bluetooth Performance
| • TX Power: 19.5dBm
• Range: 150 meters minimum, open filed
• Receiving Sensibility: -80dBm@0.1%BER
• Frequency offset: +/-20KHZ
• Frequency Range (MHz):2401.0~2483.5
• Low Frequency (MHz):2400
• High Frequency (MHz):2483.5
• E.i.r.p (Equivalent Isotopically Radiated power) (mW)<10mW
• Bandwidth (MHz):2MHz
• Modulation: GFSK
5G RM500Q-CN/ RM500Q- AE/RM502QAE/ RM505Q-AE
| • 5G SA Sub-6: Max. 2.1Gbps (DL)/ Max. 900Mbps (UL)
• 5G NSA Sub-6: Max. 2.5Gbps (DL)/Max. 525/550Mbps (UL)
• 5G SA Sub-6: Max. 2.1Gbps (DL)/Max. 450Mbps (UL)(RM500Q-AE/ RM505Q- AE); Max. 4.2Gbps (DL)/Max. 450Mbps (UL)(RM502Q-AE)
• 5G NSA Sub-6: Max. 2.5Gbps (DL)/Max. 650Mbps (UL)(RM500Q-AE/ RM505Q- AE); Max. 5.0Gbps (DL)/Max. 650Mbps (UL)(RM502Q-AE)
• LTE-FDD: Max. 1Gbps (DL)/Max. 200Mbps (UL)
• LTE-FDD: Max. 1Gbps (DL)/Max. 200Mbps (UL) (RM500Q-AE/RM505Q-AE)
• LTE-FDD: Max. 2Gbps (DL)/Max. 200Mbps (UL) (RM502Q-AE) 5G NR: n1/n28/n41/n78/n79
• LTE-FDD: B1/B3/B5/B8
• LTE-TDD: B34/B38/B39/B40/B41
• WCDMA: B1/B8
• 5GNR:n1/n2/n3/n5/n7/n8/n12/n20/n25/n28/n38/n40/n41/n48/n66/n71/n77/n 78/n79
• LTE-FDD:
B1/B2/B3/B4/B5/B7/B8/B12(B17)/B13/B14/B18/B19/B20/B25/B26/B28/B29/B30
| /B32/B66/B71
• LTE-TDD: B34/B38/39/B40/B41/B42/B43/B4
---|---
QA Requirement
| Information Description | Standard(Yes) Custom(No) |
|---|---|
| ESD Testing | Yes |
| RF Antenna Analysis | Yes |
| Environmental Testing | Yes |
| Reliability Testing | Yes |
| Certification | FCC, CE, SRRC |
FCC Statement
- This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
- This device may not cause harmful interference.
- This device must accept any interference received, including interference that may cause undesired operation.
- Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
NOTE:
This equipment has been tested and found to comply with the limits for a Class
B digital device, pursuant to Part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates uses and can radiate radio
frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications. However,
there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or more
of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
To comply with RF exposure requirements, a minimum separation distance of 20 cm must be maintained between the user’s body and the device, including the antenna