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SNMP-1000
Intelligent SNMP/HTTP remote system manager
User’s Manual
Copyright
This document is copyrighted, 2003, by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right to make improvements to the products described in this manual at any time without notice.
No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of
Advantech Co., Ltd. Information provided in this manual is intended to be accurate and reliable. However, Advantech Co., Ltd. assumes no responsibility for its use, nor for any infringements upon the rights of third parties which may result from its use.
Part No. 20021000A3
Printed in Taiwan
SNMP-1000 User’s Manual ii
4th. Edition
December 2003
A Message to the Customer
Advantech customer services
Each and every Advantech product is built to the most exacting specifications to ensure reliable performance in the harsh and demanding conditions typical of industrial environments. Whether your new Advantech equipment is destined for the laboratory or the factory floor, you can be assured that your product will provide the reliability and ease of operation for which the name Advantech has come to be known.
Your satisfaction is our primary concern. Here is a guide to
Advantech’s customer services. To ensure you get the full benefit of our services, please follow the instructions below carefully.
Technical support
We want you to get the maximum performance from your products. So if you run into technical difficulties, we are here to help. For the most frequently asked questions, you can easily find answers in your product documentation. These answers are normally a lot more detailed than the ones we can give over the phone.
So please consult this manual first. If you still cannot find the answer, gather all the information or questions that apply to your problem, and with the product close at hand, call your dealer. Our dealers are well trained and ready to give you the support you need to get the most from your Advantech products. In fact, most problems reported are minor and are able to be easily solved over the phone.
In addition, free technical support is available from Advantech engineers every business day. We are always ready to give advice on application requirements or specific information on the installation and operation of any of our products.
iii
Product warranty
Advantech warrants to you, the original purchaser, that each of its products will be free from defects in materials and workmanship for two years from the date of purchase.
This warranty does not apply to any products which have been repaired or altered by persons other than repair personnel authorized by Advantech, or which have been subject to misuse, abuse, accident or improper installation. Advantech assumes no liability under the terms of this warranty as a consequence of such events.
If an Advantech product is defective, it will be repaired or replaced at no charge during the warranty period. For out-of-warranty repairs, you will be billed according to the cost of replacement materials, service time and freight. Please consult your dealer for more details.
If you think you have a defective product, follow these steps:
1.
Collect all the information about the problem encountered. (For example, type of PC, CPU speed, Advantech products used, other hardware and software used, etc.) Note anything abnormal and list any onscreen messages you get when the problem occurs.
2.
Call your dealer and describe the problem. Please have your manual, product, and any helpful information readily available.
3.
If your product is diagnosed as defective, obtain an RMA (return material authorization) number from your dealer. This allows us to process your return more quickly.
4.
Carefully pack the defective product, a fully-completed Repair and
Replacement Order Card and a photocopy proof of purchase date (such as your sales receipt) in a shippable container. A product returned without proof of the purchase date is not eligible for warranty service.
5.
Write the RMA number visibly on the outside of the package and ship it prepaid to your dealer.
SNMP-1000 User’s Manual iv
Initial Inspection
Before you begin installing your card, please make sure materials listed in the packing list have been shipped:
SNMP-1000-00A1:
One SNMP/HTTP system manager kernel board
One SNMP-1000 startup manual
One CD contains utility program, SNMP MIB file and
User's manual (in pdf format)
SNMP-1000-E1A1
One SNMP/HTTP system manager kernel board mounted on a PCI/ISA carrier board
One 6-pin to 8-pin cable for CPU card connection
One 2-pin cable for watchdog timer detection
One spare bracket for use on ISA slot
One SNMP-1000 startup manual
One CD contains utility program, SNMP MIB file and
User's manual (in pdf format)
SNMP-1000-E2A1
One SNMP/HTTP system manager kernel board mounted on a carrier board for chassis
One 6-pin to 8-pin cable for CPU card connection
One 2-pin cable for watchdog timer detection
One 9-pin to 12-pin serial port cable for COM2 of CPU card
One RJ-45 cable with bracket for external LAN connection
One SNMP-1000 startup manual
One CD contains utility program, SNMP MIB file and user's manual (in pdf format)
SNMP-1000-LCD
One message display module
One 8-pin cable for SNMP-1000 connection
v
If any of those items are missing or damaged, contact your distributor or sales representative immediately.
We have carefully inspected the product mechanically and electrically before shipment. It should be free of marks and scratches and in perfect working order upon receipt.
As you unpack the product, check it for signs of shipping damage. (For example, damaged box, scratches, dents, etc.) If it is damaged or it fails to meet the specifications, notify our service department or your local sales representative immediately. Also notify the carrier. Retain the shipping carton and packing material for inspection by the carrier. After inspection, we will make arrangements to repair or replace the unit.
SNMP-1000 User’s Manual vi
Contents
Chapter 1 Introduction ......................................................2
Introduction ....................................................................... 2
Specifications .................................................................... 3
Hardware Specification................................................... 3
Dimension....................................................................... 3
Sensor Input Specification .............................................. 3
Firmware Specification................................................... 4
LCD Message Display Module with Keys ..................... 4
Environmental Specifications ......................................... 5
Chapter 2 Hardware Installation......................................8
Kernel Module Installation................................................ 8
Connecting sensors and I/O ports...................................... 9
External Buzzer (J1) ..................................................... 11
External Power Connector (CN1)................................ 11
10/100-BaseT LAN Connector (CN2 & CN5) ............ 11
Temperature Sensor Connector (CN4 & CN7)............. 11
RS-232 Serial Port (CN8 & CN9) ................................ 13
LCM Message Display Interface (CN10)..................... 13
Kernel Module Interface (CN11 & CN12) ................... 13
Backplane Voltage Connector (CN13) ......................... 13
Digital Input (CN14)..................................................... 13
2.2.10 Digital Output (CN15) .................................................. 13
2.2.11 Alarm Reset Connector (CN17) ................................... 13
2.2.12 LED Connector (CN18)................................................ 14
2.2.13 CPU card Interface (CN19) .......................................... 14
2.2.14 Chassis and Watchdog Timer connectors (CN20, CN26,
2.2.15 Power Fail Signal Input (CN16; CN21 ~ CN24).......... 15
2.2.16 Fan Connectors (FAN1 ~ FAN9) ................................. 15
2.2.17 External Backup Battery (BT1) .................................... 16
Chapter 3 Getting Started ...............................................18
Configuring the SNMP-1000 .......................................... 18
Configuration through the serial port .............................. 19
Agent Configuration ..................................................... 20
Communication through Ethernet ................................... 26
Configuration using Telnet ........................................... 27
Configuration using a Web Browser ............................ 27
Remote access through a phone line............................. 27
Setup using the LCD message display module............. 27
Main Menu.................................................................... 29
1
Agent configuration ...................................................... 30
Setting the IP address.................................................... 31
Enable/Disable BOOTP/HDCP function...................... 31
Agent Information......................................................... 32
3.3.10 Set System Date ............................................................ 32
3.3.11 Set System Time ........................................................... 33
3.3.12 View Active Alarms ..................................................... 33
3.3.13 View System Status ...................................................... 34
3.3.14 View Fan Speed ............................................................ 35
3.3.15 View Temperature Status ............................................. 35
3.3.16 View Voltage Status ..................................................... 36
3.3.17 View Power Supply Status ........................................... 37
3.3.18 View Digital Input Status ............................................. 37
3.3.19 View CPU Card/ Mother Board Healthy Status ........... 38
3.3.20 View Watchdog Timer Status....................................... 38
Chapter 4 Programming the SNMP-1000......................42
Introduction ..................................................................... 42
Entering the pass through command mode ..................... 42
Syntax of command and response................................... 44
List of Device Code and Device Sub-Code .................... 46
Summary of Command Set ............................................. 48
Temperature .................................................................. 50
Voltage.......................................................................... 52
CPU Card...................................................................... 55
Digital Input.................................................................. 63
WDT ............................................................................. 64
Appendix A Connector Pin Assignments ..........................68
External Buzzer (J1)........................................................ 68
Auxiliary external power input (CN1) ............................ 68
LAN Connector (CN2).................................................... 69
System SM Bus Connector (CN3) ................................. 69
Temperature Sensor (LM75) Connector (CN4, CN7) .... 70
RS-232 Connector (CN8, CN9) ...................................... 70
LCM Display Board Connector (CN10) ......................... 71
Kernel Board Connector (CN11) .................................... 71
Kernel Board Connector (CN12) .................................... 73
Backplane Voltage Input Connector (CN13) .................. 74
Digital Input (CN14) ....................................................... 75
Digital Output (CN15) .................................................... 76
Alarm RESET (CN17) .................................................... 76
LED Indicator Interface (CN18) ..................................... 77
CPU Card Interface (CN19)............................................ 78
Chassis and Watchdog Timer Connector (CN20; CN26,
PCA-6184 User’s Manual 2
Power Good Input CN16; CN21, CN22, CN23, CN24) . 79
Auxiliary VCC In (CN25)............................................... 80
FAN Connectors (FAN1 ~ FAN9).................................. 80
3
PCA-6184 User’s Manual 4
Introduction
1
1
Chapter 1 Introduction
1.1 Introduction
Introduction
The SNMP-1000 is a platform independent server and PC-system management controller that can detect the system operating conditions and notify the user to take necessary action to avert system failure. The
SNMP-1000 is web-enabled and supports multiple communication protocols. It provides a simple way to manage a number of remote servers, and also adds a dimension of reliability to critical applications such as computer telephony.
Powerful yet Easy to Use
The SNMP-1000 can detect a wide variety of internal system conditions, including temperature, voltage, fan rotation, power supply or CPU operations such as watchdog timer output. Through its I2C interface it can monitor CPU temperature and voltages of Advantech's full-sized CPU cards. Depending on the alarm severity or user setup, it can generate several different alarm outputs, including SNMP trap, e-mail, pager message, acoustic signal, system reset, or digital signal output. Through the easy to use web-based user interface users can set the alarm criteria and select alarm outputs of each sense input independently to meet user requirements. The board's battery backup enables the SNMP-1000 to perform its alarm function even during total system power failure.
Web-enabled, No Driver Needed
The on-board 10/100 Mbps fast Ethernet adapter enables the SNMP-1000 to be connected to your existing network. It supports multiple network protocols such as TCP/IP, SNMP, HTTP and Telnet, you can manage your systems simply using a web browser. Since it works standalone, no software driver is needed, thus eliminating the compatibility issues with different operating systems.
On-line Upgrade and Batch Setup
You can upgrade the firmware on-line by using the setup utility. There is no need to go to remote site, disassemble the chassis to collect each
SNMP-1000 module for firmware upgrade. The setup utility also supports "batch setup" function, which allows you to save a configuration and duplicate it to other modules. This function saves your time when you setup a number of SNMP-1000 modules.
SNMP-1000 User’s Manual 2
Flexible Modular Hardware Design
The modular design makes the SNMP-1000 hardware to be easy for customization to fit into any application. The ultra compact kernel module is only 40.5 mm wide and 93 mm long. It can be mounted on standard or customized carrier boards to meet different needs of I/O extension. It can also be easily integrated into customer's system due to its compact size.
1.2 Specifications
1.2.1 Hardware Specification
• CPU: 80188 compatible 20 MHz
• On-board 512KB Flash ROM and 512KB SRAM
• On-board 10/100 Mbps Ethernet adapter
• 1 RS-232 serial port up to 9600 baud rate
• 1 SM bus interface for PC system healthy status monitoring
• 1 SM bus interface for up to 8 external temperature sensors
• 9 fan tachometer inputs (7 for SNMP-1000-E2A1)
• 1 on-board temperature sensor
• 1 LCM message display interface
• Detect time-out signal of system watchdog timer
• 4 power good signals (1 for SNMP-1000-E2A1)
• 8 digital inputs (SNMP-1000-E1A1 only)
• 4 digital outputs (3 for SNMP-1000-E2A1)
• Buzzer support
1.2.2 Dimension
• Kernel module: 40.5 mm X 93 mm
• PCI/ISA carrier module: 175 mm X 107 mm
• Carrier board for chassis: 55 X 115 mm
1.2.3 Sensor Input Specification
Voltage Inputs:
+5VDC, -5VDC, 5VSB, +3.3VDC, +12VDC, -12VDC
Temperature Sensors:
LM75 digital temperature sensor, I2C interface, -30 ~ +125°C (-22 ~
+257°F)
3
Fan Speed Monitor:
Up to 9 fans, 700 ~ 10000 RPM
Power Good / Digital Input: .
High: > 2.4VDC
Low: < 0.8VDC
1.2.4 Firmware Specification
System Status Monitoring and Management
• Real-time healthy status monitoring: Provides real-time status display in HTTP/Java graphical format
• History log graphic display and data down load
• Alarm event log
Alarm Notification
• E-mail: Can set up to 4 addresses to receive e-mails
• Alarm message display on the optional LCD display module
• SNMP trap: Notify up to 8 SNMP administrators
• Pager notification: Dial out through external modem to send message to up to 8 pagers.
• Audible alarm sound
Supported Protocols
TCP, UDP, IP, ICMP, DHCP, BOOTP, ARP, SNMP, HTTP, Telnet
Management Function
• Web-based remote configure, control and monitor
• Remote reset, power down and power up.
• Remote digital output signal control
• Remote message display control
• Firmware upgrade from serial port and Ethernet port
• Modem dial in (console mode only)
1.2.5 LCD Message Display Module with Keys
• LCD module: 2 rows, 16 characters, with backlight
• Dimension: 147 mm (W) X 42 mm (H) X 158 mm (L), fits into a 5.25" drive bay and can carry a 3.5" HDD
• 5 Keys: Up, down, enter, escape, alarm sound off
SNMP-1000 User’s Manual 4
Optional backup battery:
• Charge time: 24 hr
• Battery type: Ni-MH, 3.6 V
• Battery capacity: 1500 mA-H (full charged, for 15~20 minutes operation, depends on the output used)
• Battery life: 6 years@20°C, 80% capacity after 1000 cycles of charge and discharge
Power Consumption
• 5V @ 550 mA
1.2.6 Environmental Specifications
Storage temperature: -20 ~ 70°C (4°F ~ 158°F)
Operating temperature: 0 ~ 60°C (32°F ~ 140°F)
Relative humidity: 5 ~ 95% RH non-condensing
5
SNMP-1000 User’s Manual 6
Hardware Installation
2
7
Chapter 2 Hardware Installation
2.1 Kernel Module Installation
The SNMP-1000 modular design eases the I/O connection. The kernel module is to be mounted on an I/O extension/carrier module. There are several available extension modules designed for specific application needs. If your extension module is not identical as the one depicted in this section, please refer to the user's note of your extension module for the detail.
The kernel module has two 32-pin connectors, named as CN1 and CN2.
The extension module has two 32-pin connectors, named as CN11 and
CN12. CN1 of kernel module is to be mounted on CN 11 of extension module, and CN2 of kernel module is to be mounted on CN12 of extension module. After mounting the kernel module, secure it to the extension module with stud and screws
Figure 2.1: Installing the kernel module and battery to the extension module
SNMP-1000 User’s Manual 8
Figure 2.2: Location of the connectors on the kernel module
J1: Restores the username and password to default. It is used when users forget their username and password. It should be left open under normal operation.
Operation procedure:
1. Fully turn SNMP-1000 off, remove the backup battery.
2. Short J1 by a jumper
3. Power up SNMP-1000 and wait until it is ready to work.
4. Power it off.
5. Remove J1. The username and password is restored to "admin" and
"advantech".
CN1 and CN2: Sensor and I/O interface (Please refer to Appendix B for the pin assignments)
2.2 Connecting sensors and I/O ports
This section illustrates how to connect sensors and I/O ports using PCI/
ISA full-function extension board as an example. Your extension board may not have all the I/O functions.
The PCI/ISA extension module is designed to have an ISA edge and a
PCI edge. It can be inserted to an ISA bus slot or a PCI bus slot to detect the bus voltages. However, the SNMP-1000 does not communicate with the system through the ISA or PCI bus, therefore no driver is required.
9
Figure 2.3: Connector locations of PCI/ISA I/O extension board
Figure 2.4: Connector locations of carrier board for IPC chassis
SNMP-1000 User’s Manual 10
2.2.1 External Buzzer (J1)
This connector connects to an external buzzer.
2.2.2 External Power Connector (CN1)
This connector is used to provide auxiliary power input to SNMP-1000.
This connector is only needed when the extension board is not plugged in the PCI or ISA slot.
2.2.3 10/100-BaseT LAN Connector (CN2 & CN5)
CN5 is a standard RJ-45 connector for Ethernet connection. A box header (CN2) is also available for internal connection.
The chassis carrier board comes with a special cable (P/N 1703120900).
This cable has a box header at one end and an RJ-45 at the other end. An adaptor bracket allows users to fix the RJ-45 at chassis by using an existing DB-9 COM port opening.
2.2.4 Temperature Sensor Connector (CN4 & CN7)
These connectors interface with LM75 digital temperature sensors through SM bus. Up to 9 temperatures can be monitored by SNMP-1000.
One sensor located on the kernel module is designated as Temp. 0, and up to 8 external sensors can be connected. The external temperature sensor and cable are available from Advantech. Sensors can be connected in series in any order to either connectors, but each sensor has to be set to a unique ID ranging 1 ~ 8 by setting the DIP switch located at the sensor board.
Sensor ID
Temp. 1
1-3 of DIP switch
Off Off Off
3
4
1
2
O
N
Temp. 2 Off Off On
3
4
1
2
O
N
Temp. 3 Off On Off
3
4
1
2
O
N
11
Temp. 4
Temp. 5
Temp. 6
Temp. 7
Temp. 8
Off On On
1
2
3
4
O
N
3
4
1
2
O
N
3
4
1
2
O
N
3
4
1
2
O
N
1
2
3
4
O
N
On Off Off
On Off On
On On Off
On On On
The last digit (4) of this DIP switch is used to enable or disable this temperature sensor.
1
2
3
4
O
N
Enable
3
4
1
2
O
N
Disable
SNMP-1000 User’s Manual 12
2.2.5 RS-232 Serial Port (CN8 & CN9)
The serial port can be used as a console port or connected to an external modem for phone line connection. CN8 is a standard DB-9 connector for external wiring; CN9 is a box header for internal wiring.
Notice: A special "null modem" cable is required to connect its serial port to a PC's serial port. Please make sure that the cable has reversed Tx & Rx signals at one end, and only pin 2, 3, & 5 are connected. This cable is available from Advantech. (Part number: 1700091801). If other pins are connected, the SNMP-1000 will detect your
RS-232 connection as a modem so it will stop immediately.
2.2.6 LCM Message Display Interface (CN10)
An optional LCM message display module is available for message display. The input key on the LCM module can be used for on-site setup.
CN10 is the interface to the LCM module.
2.2.7 Kernel Module Interface (CN11 & CN12)
CN11 & CN12 are used to piggyback the kernel module.
2.2.8 Backplane Voltage Connector (CN13)
This connector is used in detecting the voltages on the backplane. An 8pin connector on Advantech's backplane can be cabled to CN13 directly to simplify the wiring.
2.2.9 Digital Input (CN14)
Up to 8 TTL-level digital signals can be monitored by SNMP-1000. You can use these digital inputs to detect external devices or other healthy status such as chassis intrusion.
This connector is not available on the carrier board for chassis.
2.2.10 Digital Output (CN15)
Four digital output signals can be triggered by any of the alarm event independently. They can be used to control external devices to recover the system health or notify users about the alarm. This connector is not available on the carrier board for chassis.
2.2.11 Alarm Reset Connector (CN17)
13
This connector is used to reset the alarm sound when an alarm occurs. It can be connected to an auto-recovery push button (momentary on while being pushed).
2.2.12 LED Connector (CN18)
System status can be shown through LED indicators. CN18 is connected to a LED indicator board. Please refer to Appendix B for the pin assignments.
2.2.13 CPU card Interface (CN19)
This connector monitors the CPU card health status. Use the 8-pin to 6pin cable enclosed in the SNMP-1000 package to connect to CPU card.
CN19
CN21 CN18
CN19 CN29
CPU Card
SNMP-1000
Figure 2.5: Connect SNMP-1000 to a CPU card
Note: Only Advantech's new full-sized CPU cards can be monitored, including PCA-6002, PCA-6003,
PCA-6004, PCA-6005, PCA-6181, PCA-6183,
PCA-6184, PCA-6185, PCA-6186, PCA-6277
(rev. B), and newer. The Following CPU cards cannot be monitored: PCA-6155V, PCA-6168,
PCA-6175, PCA-6176, PCA-6178, PCA-6179,
PCA-6180, PCA-6275, PCA-6276, PCA-6277
(rev. A), PCA-6278, PCA-6359, and earlier.
2.2.14 Chassis and Watchdog Timer connectors (CN20,
CN26, CN27, CN28)
CN26 (or pin 1 and pin 2 of CN20) connects to chassis ATX power on/off button.
CN27 (or pin 3, and pin 4 of CN20) connects to chassis reset button.
SNMP-1000 User’s Manual 14
CN28 (or pin 5 and pin 6 of CN20) connects to the watchdog timer output pins of CPU card (J2). The SNMP-1000 can detect the output signal of the watchdog timer when there is a time-out signal. A cable (part number1703020558) is shipped with the SNMP-1000 to connect to the
Watchdog timer output. Connect CN28 to pin 1 & pin 2 of J2 to generate an interrupt to the CPU card when there is a time-out, or connect to Pin.2
& pin 3 of J2 to reset the CPU card.
J2
1
CPU Card
SNMP-1000
CN26
CN27
CN28 or
1
3
5
CN20
2
4
6
Figure 2.6: Connect the watchdog timer signal to "interrupt"
J2
1
CPU Card
SNMP-1000
CN26
CN27
CN28 or
1
3
5
CN20
2
4
6
Figure 2.7: Connect the watchdog timer signal to "reset"
2.2.15 Power Fail Signal Input (CN16; CN21 ~ CN24)
Up to four power fail signals can be detected. The SNMP-1000 can detect the power good or power fail signal if the power supply unit provides this output signal to be detected.
2.2.16 Fan Connectors (FAN1 ~ FAN9)
These connectors provide +12 V power to fans and receive tachometer signals from fans. Notice that the SNMP-1000 can only detect fans with tachometer output. This kind of fan generates two pulses per revolution.
15
2.2.17 External Backup Battery (BT1)
SNMP-1000 supports an external backup battery to allow the alarm notification under a total system power failure.
SNMP-1000 User’s Manual 16
Getting Started
3
17
Chapter 3 Getting Started
3.1 Configuring the SNMP-1000
Before using your SNMP-1000 SNMP/HTTP intelligent system manager, you will need to configure it. Configuration can be done through a PC serial port with terminal emulator software such as Hyperterminal of
Windows 98/NT. You can also configure it from the Ethernet port by using Telnet or using a browser such as Netscape Communicator or
Microsoft Internet Explorer. Due to security reasons, some parameters can only be set through the serial port.
A setup software utility can be found in the utility CD-ROM shipped with the SNMP-1000. It will help you to setup a number for the SNMP-1000 system managers with same configuration. You can save current configuration to a file and copy it to other modules.
Before you can configure your SNMP-1000 module, you need to first install your SNMP-1000 and power it up. Please refer to Chapter 2 for installation instruction. You can connect it to a network through its LAN port, or connect its serial port to a PC's serial port. Due to security reason, the administrator name and password can be changed only with direct serial port connection to a PC.
Note: A special "null modem" cable is required to connect its serial port to a PC's serial port.
Please make sure that the cable has reversed
Tx & Rx signals at one end, and only pin 2, 3, &
5 are connected. This cable is available from
Advantech. (Part number: 1700091801). If other pins are connected, the SNMP-1000 will detect your RS-232 connection as a modem so it will stop immediately.
When all the cables are well connected, you can power up the SNMP-
1000. A green LED on the kernel module indicates that 5V power is supplied to SNMP-1000. Then it starts a self-testing procedure. It takes around 5 seconds, then it is ready to work.
SNMP-1000 User’s Manual 18
3.2 Configuration through the serial port
Take the following Hyperterminal of Windows (95, 98, Me, NT, 2000 or
XP) as an example.
1.
Start Hyperterminal by clicking on "Accessories" program group.
2.
Enter a name and choose an icon for the connection.
3.
In the "Connect using" box, select "Direct to COMx". Here x is the number of COM port you are using to connect to the SNMP-1000.
4.
Set the serial port of your PC to be 9600 bps, 8 data bits, no parity,
1 stop bit with no flow control.
5.
Press "Enter" key of your PC then the SNMP-1000 will prompt you for entering administrator user name and password. The default administrator user name is "advantech" and password is "admin".
Note: Access through Telnet or serial port is permitted only with the "Admin User Name" and "Admin
User Password" set in Control Group.
After entering password, you can choose one of following items:
19
3.2.1 Agent Configuration
Select "1" to enter the Agent Configuration function.
3.2.1.1 Agent group:
The following items can be set under this command:
• SNMP Agent Model Name: The model name of the SNMP controller.
Default value is SNMP-1000. It is advisable not to change the default model name.
• IP Address: The IP address of the SNMP-1000.
• Gateway Address: The network default gateway address.
• Network Mask: The sub-net mask setting
• SNMP Agent Date: The internal date of SNMP-1000. Format: mm/dd/ yyyy
• SNMP Agent Time: The internal time of SNMP-1000. Format: hh:mm:ss
SNMP-1000 User’s Manual 20
Enter the number you desire to change and follow the instruction to enter the changed value
3.2.1.2 Control Group:
The following items can be set under this command:
• Admin User Name: The user name of SNMP-1000 administrator. Only the administrator is allowed to enter the console mode. Default user name is "advantech".
• Admin User Password: The administrator password. With this password a user is allowed to read and write to SNMP-1000. Default password is "admin".
• Community Read-Only: A general password for read-only access.
Default read only password is "public".
• BOOTP/DHCP Control: Enables/disables the BOOTP/DHCP protocol.
• Telnet Control: Enables/Disables the Telnet protocol.
• TFTP Upgrade Control: Enables/disables the TFTP protocol for firmware upgrade through the local network
21
• HTTP Security Control: Enables/disables the HTTP login password request.
3.2.1.3 Parameter Group:
The following items can be set under this command:
• sysDescription: A description to this system. This is an alphanumeric string up to 31 bytes. Default is empty.
• sysContact: The contact information of the entity that manages the system. This is an alphanumeric string up to 15 bytes. Default is empty.
• sysName: The name of this system. This is an alphanumeric string up to
15 bytes. Default name is "Advantech".
• sysLocation: The location of this system. This is an alphanumeric string up to 15 bytes. Default is empty.
3.2.1.4 Access Control Table
This table allows you to set restrictions to some IP addresses to access the
SNMP-1000. You can add IP addresses and set an access control. Available choices are: NotAccess, Read Only, or Read/Write. A workstation will not be able to display any information when its IP address is set as
"NotAccess".
SNMP-1000 User’s Manual 22
Press "1" to modify a line in the table. Press "2" to delete data on a line.
Note this table is used for the access using SNMP and HTTP. Access through Telnet or serial port is permitted only with the "Admin User
Name" and "Admin User Password" in Control Group.
3.2.1.5 Trap Receiver Table
The SNMP-1000 can be managed by an SNMP compatible software from a remote server connected to the network. The IP addresses of SNMP trap receivers can be added in this list if SNMP compatible management software is available at these addresses.
Press "1" to modify a line in the table. Press "2" to delete data on a line.
23
The "Severity Level" allow you to specify an alarm level. Trap will not be sent if the alarm severity is lower than specified level.
3.2.1.6 E-mail Notification Menu
The SNMP-1000 can send e-mail to specified mail addresses daily at a fixed time or upon an alarm.
Under this menu you can set the following items:
• DNS Address: The IP address of the network domain name server in dotted format.
SNMP-1000 User’s Manual 24
• Mail Server: The IP address of the mail server in dotted format.
• Mail Account: The account name for the SNMP-1000 to log into the mail server.
• Mail Status Daily at: By pressing 5, users can specify the time for the
SNMP-1000 to send out daily log in e-mail to the specified accounts.
25
• Mail Receivers Table: Press 6, users can set the e-mail addresses under this entry.
Mail condition: The condition to send e-mail. Choices are:
• Alarm: Send e-mail when there is an alarm.
• Daily Logs: Send daily log at specified time.
• Alarm and Log: Send both alarm notification and daily log.
• Alarm Level: The severity to send alarm notification. This item is useful when the Mail Condition is set as "Alarm" or "Alarm and Log"
• Status: The status of this mail address. You can set it as Disable when this address is temporarily not in use.
3.3 Communication through Ethernet
To communicate with the SNMP-1000 through Ethernet, you need a computer with an Ethernet and a TCP/IP network installed.
You need to know the IP address of the SNMP-1000 before you can communicate with it through the Ethernet.
SNMP-1000 User’s Manual 26
You have four ways to know current IP address:
A. The default IP address is 172.20.x.x, where x.x comes from last four digits of the Ethernet MAC address. The MAC address is labeled on the kernel module. For example, if the MAC address is 00 E0 d8 03 15 36
(hexadecimal), the IP address is then 172.20.21.54.
B. You can read the IP address in the console mode under "Agent Configuration" as described in 3.2.1.1 and chapter 5.
C. You can read the IP address through the LCM display if your SNMP-
1000 is connected to the LCM display module.
D. You can find out all SNMP-1000s connected in the same network by using the setup utility.
3.3.1 Configuration using Telnet
Configuration using Telnet is basically same as using serial port connection. First make sure your computer has a TCP/IP network and a web browser installed. In the address line type in " xxx.xxx.xxx.xxx", here xxx.xxx.xxx.xxx is the IP address of the SNMP-1000. Then the SNMP-
1000 will prompt you for entering user name and password, same as described in section 3.2.
3.3.2 Configuration using a Web Browser
Using a web browser is the easiest way to configure the SNMP-1000.
Type in the URL "http://xxx.xxx.xxx.xxx", here xxx.xxx.xxx.xxx is the
IP address of the SNMP-1000. Then the SNMP-1000 will prompt you for entering user name and password.
3.3.3 Remote access through a phone line
SNMP-1000's command mode can be accessed remotely through a phone line. The SNMP-1000 has to be connected to a phone line through a modem. And your PC has to be connected to a phone line through a modem, too.
You can use HyperTerminal of Windows system or other dialing software tools. Please refer to the user's manual of your dialing program for the setting details.
3.3.4 Setup using the LCD message display module
The LCD message display module is equipped with 5 buttons. It can be used for on-site service without a PC with network connection.
The up-arrow key
↑
and the down-arrow key
↓
on the LCD display panel allow users to scroll up and down in the configuration setup menu. The
↵
icon represents enter or OK and the ESC icon stands for escape or cancel.
27
When users make changes of the settings and/or would like to go to the lower level of the menu, they need to press ENTER to confirm it. If users press ESC, the system won't save any changes made and will go back to a higher level of the menu. When an alarm is detected and the buzzer release warning sounds, users may press the alarm reset button to stop the audible alarm.
Table 1: Function Keys of LCD Display Module
Keys Function
Scroll Up
Scroll Down
ESC
Enter
Escape
Alarm Reset
The next pages show the flow chart of each function. Please notice that not all settings are available from the LCD module. Some parameters can be set only under command mode or through the web page.
SNMP-1000 User’s Manual 28
3.3.5 Main Menu
SNMP-1000 SYSTEM
Enter
ESC
↓
↑
Main Menu
Agent Config
↓ ↑
↑
Main Menu
Agent Info
↓ ↑
Main Menu
Active Alarm: 0
↓ ↑
Main Menu
Cpumb Status
↓ ↑
Main Menu
System Status
↓ ↑
Main Menu
Display Status
↓
Enter
ESC
Enter
ESC
ESC
Enter
ESC
Enter
ESC
Enter
ESC
Enter
29
3.3.6 Agent configuration
Main Menu
Agent Config
Enter
IP Addr
192.168.1.1
↓ ↑
Gateway Addr
0.0.0.0
↓
Subnet Mask
255.255.0.0
↑
↓
BOOTP/DHCP
Disable
↑
Enter
ESC
Enter
ESC
Enter
ESC
Enter
ESC
SNMP-1000 User’s Manual 30
3.3.7 Setting the IP address
Cancel //
IP Addr
192.168.1.1
Enter
IP Addr?
192.168. 1. 1
↓ ↑
IP Addr?
292.168. 1. 1
↓
↑
Enter
ESC
ESC
IP Addr?
192.168. 1. 1
↓ ↑
IP Addr?
1 2.168. 1. 1
↓ ↑
IP Addr?
102.168. 1. 1
↑
Enter
//
ESC
Agent IP? OK
192.168. 1. 1
Enter
ESC
3.3.8 Enable/Disable BOOTP/HDCP function
BOOTP/HDCP
Disable
Enter
BOOTP/HDCP? OK
Disable
↓ ↑
Cancel
Enter
ESC
BOOTP/HDCP? OK
Enable
Enter
ESC
31
3.3.9 Agent Information
Main Menu
Agent Info
Enter
↑
Model Name
SNMP-1000
↓ ↑
F/W Version
V0.95
↓
System Date
01/31/2001
↑
↓ ↑
System Time
13:00
↓ ↑
System Up Time
9999Day 14:25:30
↓
Enter
ESC
Enter
ESC
Enter
ESC
Enter
ESC
Enter
ESC
3.3.10 Set System Date
Cancel //
System Date
01/01/2002
Enter
Set Date?
01/01/2002
↓ ↑
Set Date?
11/01/2002
↓
↑
Enter
ESC
ESC
Set Date?
01/01/2002
↓ ↑
Set Date?
02/01/2002
↓ ↑
Enter
//
ESC
Date? OK
01/01/2002
Enter
ESC
SNMP-1000 User’s Manual 32
3.3.11 Set System Time
Cancel //
System Time
13:00
Enter
Set Time?
13:00
↓ ↑
Set Time?
23:00
↓
↑
Enter
ESC
ESC
Set Time?
13:00
↓ ↑
Set Time?
14:00
↓ ↑
Enter
//
ESC
Time? OK
13:00
Enter
ESC
3.3.12 View Active Alarms
Main Menu
Active Alarm: 3
Enter
ALM1:Critical
Power0 Fail
↓ ↑
ALM2:Major
CPU2 Vcore Low
↓
ALM3: Minor
CPU2 Fan Low
↑
Enter
ESC
Enter
ESC
Enter
ESC
ALM1:Power0 Fail
01/31 13:00:30
ALM2: 1.25V
01/31 13:00:30
ALM3: 12000 rpm
01/31 13:00:30
33
3.3.13 View System Status
Main Menu
System Status
Enter
↑
System Status
Fan Speed
↓ ↑
System Status
Temperature
↓ ↑
System Status
Voltage
Enter
ESC
Enter
ESC
Enter
ESC
↓ ↑
System Status
Power Supply
↓ ↑
System Status
Digital Input
↑
↓
↓ ↑
Enter
ESC
Enter
ESC
System Status
Watchdog Timer
↓
Enter
ESC
SNMP-1000 User’s Manual 34
3.3.14 View Fan Speed
System Status
Fan Speed
Enter
↓ ↑
Fan 1: Norm
12000 RPM
↓ ↑
Fan 2: Low
1000 RPM
↓ ↑
3.3.15 View Temperature Status
Enter
ESC
Enter
ESC
System Status
Temperature
Enter
↓ ↑
Temp.1
118.4 deg. F: Nor
↓ ↑
Temp.2
116.6 deg. F: Hig
↓ ↑
Enter
ESC
Enter
ESC
35
3.3.16 View Voltage Status
System Status
Voltage
Enter
↓ ↑
3.3V
3.32 V: Norm
↓ ↑
5 V
5.80 V: High
//
↓
12V
10V: Low
↓
↑
//
↑
Enter
ESC
Enter
ESC
Enter
ESC
Enter
-12V
-11.92 V: Norm
↓ ↑
ESC
SNMP-1000 User’s Manual 36
3.3.17 View Power Supply Status
System Status
Power Supply
Enter
↓
Power1
Good
↓
Power2
Fail
↓
↑
↑
↑
Enter
ESC
Enter
ESC
3.3.18 View Digital Input Status
System Status
Digital Input
Enter
↓ ↑
DI1
High: Norm
↓ ↑
DI2
Low: Alarm
↓ ↑
Enter
ESC
Enter
ESC
37
3.3.19 View CPU Card/ Mother Board Healthy Status
Main Menu
Cpumb Status
Enter
Cpumb Status
Fan Speed
↑
↓ ↑
Cpumb Status
Temperature
↓
Cpumb Status
Voltage
↓
↑
Enter
ESC
Enter
ESC
Enter
ESC
3.3.20 View Watchdog Timer Status
System Status
Watchdog Timer
Enter
Watchdog Timer
Timeout
Enter
ESC
SNMP-1000 User’s Manual 38
39
SNMP-1000 User’s Manual 40
Programming the
SNMP-1000
4
41 Chapter 4
Chapter 4 Programming the SNMP-1000
4.1 Introduction
The SNMP-1000 can be accessed and controlled by direct command input. With this function, SNMP-1000 can be easily controlled and integrated into user's system by user's program.
4.2 Entering the pass through command mode
Before you can program the SNMP-1000 you need first to set up a connection from the host computer to the SNMP-1000 through serial port or
Telnet. Follow below steps to enter the pass through command mode.
1.
Turn on SNMP-1000 then SNMP-1000 will send identify string
"\nAdvantech v0.xx (SNxxxxxx) Ready \n" to the host computer through COM port.
2.
On host computer side, send a carriage return (enter, or \r).
3.
SNMP-1000 will response by sending main menu title and a message to request for entering user name.
"\n\n
+==============================================+
|[ SNMP Agent Configuration Utility Main Menu ] |
+==============================================+
\n
Enter User Name:"
4.
On host computer side, send user name \r then SNMP-1000 will response user name \n\n and request for entering password:.
Host computer sends:
"advantech\r"
SNMP-1000 responses:
"advantech\n\n Enter Password:"
SNMP-1000 User’s Manual 42
5.
On host computer side send password \r then SNMP-1000 will response password \n\n\n and main menu.
EX.
Host computer side sends:
"admin\r"
SNMP-1000 responds:
“ *****\n\n
+==============================================+
|[ SNMP Agent Configuration Utility Main Menu ]|
+==============================================+
1. Agent Configuration
2. Remote Control
3. Restart Agent
4. Reset Configuration To Default
5. Access Agent Command
0. Exit
Please Enter Your Choice => "
6.
On host computer side send 5\r then SNMP-1000 responses 5\n\n and SNMP-1000 will enter pass through command mode.
Host computer side sends
"5\r"
SNMP-1000 responses
"5\n
Command :"
Now you've entered pass through command mode and SNMP-1000 is ready to receive command.
43 Chapter 4
4.3 Syntax of command and response
The format of command and response is shown as follows: a.
Write command: w!!&xxx b.
Read command: r!!& c.
Response: [repeat received command]\n Response: xxx\n
Command:
w : write command r : read command
!!: device code
&: device sub-code xxx: value in ASCII code, it could be "Done" or "Invalid" in the response from SNMP-1000.
Examples:
1.
Write low limit of Fan 0 to "1000" rpm
EX.
Host computer side sends
"w1011000\r"
SNMP-1000: responds
"w1011000\n Response: Done\n Command:"
2.
Read low limit of Fan 0
EX.
Host computer side sends
"r101\r"
SNMP-1000: responds
"r101\n Response: 1000\n Command:"
3.
If input command is incorrect then SNMP-1000 will response invalid message.
EX.
Host computer side sends
"r905\r"
Here the sub-device code is over range.
SNMP-1000 User’s Manual 44
SNMP-1000: responds:
"r905\n Response: Invalid\n Command:"
45 Chapter 4
4.4 List of Device Code and Device Sub-Code
Device Code
Code 10
Device Fan
0
11
Fan
1
12
Fan
2
13
Fan
3
14
Fan
4
15
Fan
5
16
Fan
6
17
Fan
7
18
Fan
8
Code
Device
20
Temp
0
21
Temp
1
22
Temp
2
23
Temp
3
24
Temp
4
25
Temp
5
26
Temp
6
27
Temp
7
28
Temp
8
Code
Device
30
3.3 V
31
5 V
32
-5 V
33
5 Vsb
34
12 V
35
-12 V
36 37 38
Code
Device
40
CPU
Fan1
41
CPU
Fan2
Code
Device
50
CPU
Temp
1
51
CPU
Temp
2
Code
Device
60
CPU
1
Vcore
61
CPU 2
Vcore
62
VI/O
63 64
5 V -5 V
65
12 V
66
-12 V
67 68
Code
Device
70
Power
0
71
Power
1
72
Power
2
73
Power
3
Code 80 81
SNMP-1000 User’s Manual
82 83 84 85 86 87
46
Device DI 0 DI 1 DI 2 DI 3 DI 4 DI 5 DI 6 DI 7
Code
Device
90
WDT
Device Sub-Code
Device
Code
1
Fan
Temp.
Low
Limit
High
Limit
Voltage
Power
DI
WDT
2
High
Limit
Normal
Level
Normal
Level
Alarm
Level
Alarm
Level
High
Alarm
Level
Low
Limit
Alarm
Level
Alarm
Level
Event
Output
3 4 5 6
Event
Out
High
Event
Output
Alarm
Level
Event
Output
Event
Output
Current
Status
Current
Speed
Low
Limit
Event
Out
Current
Status
Current
Status
Low
Alarm
Level
Current
Voltage
Low
Event
Output
7
Current
Temp.
47 Chapter 4
4.5 Summary of Command Set
4.5.1 Fan Read
Command r183 r104 r114
~ r184 r182 r103 r113
~ r101 r111
~ r181 r102 r112
~
Device
Fan 8
Fan 0
Fan 1
~
Fan 8
Fan 0
Fan 1
~
Fan 8
Fan 0
Fan 1
~
Fan 8
Fan 0
Fan 1
~
Device Code
18
10
11
~
18
18
10
11
~
18
10
11
~
10
11
~
Device Sub-Item
Low Limit
Alarm Level
Event Output
Current Speed
Device Sub-Code
1
2
3
4
SNMP-1000 User’s Manual 48
Command Device
Fan 7
Fan 8
Fan 0
Fan 1
~
Fan 6
Fan 7
Fan 8
Fan 0
Fan 1
~
Fan 8
Fan 0
Fan 1
~ w172x w182x w103x w113x
~ w163x w173x w183x w101xxxx w111xxxx
~ w181xxxx w102x w112x
~
10
11
~
16
11
~
17
18
17
18
11
~
18
10
Device
Code
10
Device
Sub-Item
Low Limit
Alarm
Level
Event
Output
Device
Sub-Code
1
Value(xxxx)
1000~9999
Remark
RPM in
ASCII code
2
3
2
3
4
5
1
2
3
4
5
6
No Alarm
Critical
Major
Minor
None
Power Off
DO 0
DO 1
DO 2
DO 3
49 Chapter 4
4.5.2 Temperature
~ r283 r204 r214
~ r282 r203 r213
Command r201 r211
~ r281 r202 r212
~ r285 r206 r216
~ r284 r205 r215
~ r286
~
Temp. 8
Temp. 0
Temp. 1
~
Temp. 8
Temp. 0
Temp. 1
Device
Temp. 0
Temp. 1
~
Temp. 8
Temp. 0
Temp. 1
~
Temp. 8
Temp. 0
Temp. 1
~
Temp. 8
Temp. 0
Temp. 1
~
Temp. 8
~
28
20
21
~
28
20
21
~
28
20
21
Device Code
20
21
~
28
20
21
~
28
20
21
~
28
Device Sub-Item
High Limit
High Alarm Level
High Event Output
Low Limit
Low Alarm Level
2
3
4
5
Device Sub-Code
1
Low Event Output 6
SNMP-1000 User’s Manual 50
Command r207 r217
~ r287
Device
Temp. 0
Temp. 1
~
Temp. 8
Device Code
20
21
~
28
Device Sub-Item
Current Temp.
Device Sub-Code
7
Command Device w201xxxxx w211xxxxx
~ w281xxxxx
Temp. 0
Temp. 1
~
Temp. 8
Temp. 6
Temp. 7
Temp. 8
Temp. 0
Temp. 1
~
Temp. 8
Temp. 0
Temp. 1
~
Temp. 7
Temp. 8
Temp. 0
Temp. 1
~ w202x w212x
~ w272x w282x w203x w213x
~ w263x w273x w283x w204xxxxx w214xxxxx
~ w284xxxxx
21
~
28
26
27
28
20
28
20
21
~
20
21
~
27
Device
Code
20
21
~
28
Device
Sub-Item
High Limit
High
Alarm
Level
High
Event
Output
Low Limit
Device
Sub-Code
1
Value(xxxx)
2
3
4
Remark
2
3
5
1
1
2
-55~125 (°C) or
-67 ~ 257 (°F)
Temperature value in
ASCII, degree
C or F depends on system setting, max. 5 characters, incl. "-", "."
Not used
No Alarm
3 Critical
4 Major
Minor
None
Power Off
DO 0
4
5
6
-55~125 (°C) or
-67 ~ 257 (°F)
DO 1
DO 2
DO 3
Temperature value in
ASCII, degree
C or F depends on system setting, max. 5 characters, incl. "-", "."
51 Chapter 4
w205x w215x
~ w275x w285x w206x w216x
~ w266x w276x w286x
Command Device
Temp. 0
Temp. 1
~
Temp. 7
Temp. 8
Temp. 0
Temp. 1
~
Temp. 6
Temp. 7
Temp. 8
20
21
~
26
27
28
21
~
27
28
Device
Code
20
Device
Sub-Item
Low
Alarm
Level
Low Event
Output
6
Device
Sub-Code
5
Value(xxxx)
1
2
4
5
1
2
3
5
6
3
4
Remark
DO 0
DO 1
DO 2
DO 3
Not used
No Alarm
Critical
Major
Minor
None
Power Off
4.5.3 Voltage
r312 r322 r332 r342 r352 r331 r341 r351 r302
Command r301 r311 r321
Device
3.3V
5V
-5V
5VSB
12V
-12V
3.3V
5V
-5V
5VSB
12V
-12V
SNMP-1000 User’s Manual
31
32
33
34
35
33
34
35
30
Device Code Device Sub-Item
30 High Limit
31
32
Low Limit
Device Sub-Code
1
2
52
-12V
3.3V
5V
-5V
5VSB
12V
-12V
3.3V
5V
-5V
5VSB
12V
-12V
Device
3.3V
5V
-5V
5VSB
12V r334 r344 r354 r305 r353 r304 r314 r324 r315 r325 r335 r345 r355
Command r303 r313 r323 r333 r343
33
34
35
30
35
30
31
32
31
32
33
34
35
Device Code Device Sub-Item
30 Alarm Level
31
32
33
34
Event Output
Current Voltage
Device Sub-Code
3
4
5
Command w301xxxxxx w311xxxxxx w321xxxxxx w331xxxxxx w341xxxxxx w351xxxxxx
Device
3.3V
5V
-5V
5VSB
12V
-12V
Device
Code
30
31
32
33
34
35
Device
Sub-Item
High Limit
Device
Sub-
Code
1
Value(xxxx)
-15.0 ~15.0
Remark
Voltage value in ASCII code, max. 6 characters, incl. "-
", "."ex.:
03.53-12.55-
13
53 Chapter 4
Command w313x w323x w333x w343x w353x w304x w314x w324x w302xxxxxx w312xxxxxx w322xxxxxx w332xxxxxx w342xxxxxx w352xxxxxx w303x w334x w344x w354x
Device Device
Code
Device
Sub-Item
Low Limit
Device
Sub-
Code
2
Value(xxxx)
-15.0 ~15.0
Remark
-12V
3.3V
5V
-5V
5V
-5V
5VSB
12V
3.3V
5V
-5V
5VSB
12V
-12V
3.3V
5Vsb
12V
-12V
35
30
31
32
31
32
33
34
33
34
35
33
34
35
30
30
31
32
Alarm
Level
Event Output
3
4
3
4
5
1
2
3
4
5
6
Critical
DO 0
DO 1
DO 2
DO 3
Major
Minor
None
Power Off
SNMP-1000 User’s Manual 54
4.5.4 CPU Card
r514 r505 r515 r506 r516 r507 r517 r512 r503 r513 r504 r414 r501 r511 r502 r412 r403 r413 r404
Command r401 r411 r402
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
Device
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
51
50
51
51
50
51
50
51
50
51
50
41
50
51
50
41
40
41
40
Device Code Device Sub-Item Device Sub-Code
40 Low Limit 1
41
40 Alarm Level 2
Event Output
Current Speed
3
4
High Limit
High Alarm
Level
High Event Output
Low Limit
1
2
3
4
Low Alarm Level
Low Event Output
Current Temp.
5
6
7
55 Chapter 4
Device
CPU 1 Vcore
CPU 2 Vcore
CPU VI/O
CPU card +5V
CPU card -5V
CPU card +12V
CPU card -12V
CPU 1 Vcore
CPU 2 Vcore
CPU VI/O
CPU card +5V
CPU card -5V
CPU card +12V
CPU card -12V
CPU 1 Vcore
CPU 2 Vcore
CPU VI/O
CPU card +5V
CPU card -5V
CPU card +12V
CPU card -12V r613 r623 r633 r643 r653 r663 r642 r652 r662 r603 r602 r612 r622 r632 r631 r641 r651 r661
Command r601 r611 r621
61
62
63
64
65
66
64
65
66
60
60
61
62
63
63
64
65
66
Device Code
60
61
62
Device Sub-Item
High Limit
Low Limit
Alarm Level
Device Sub-Code
1
2
3
SNMP-1000 User’s Manual 56
r625 r635 r645 r655 r665 r654 r664 r605 r615
Command r604 r614 r624 r634 r644
Device
CPU 1 Vcore
CPU 2 Vcore
CPU VI/O
CPU card +5V
CPU card -5V
CPU card +12V
CPU card -12V
CPU 1 Vcore
CPU 2 Vcore
CPU VI/O
CPU card +5V
CPU card -5V
CPU card +12V
CPU card -12V
62
63
64
65
66
65
66
60
61
Device Code
60
61
62
63
64
Device Sub-Item
Event Output
Current Voltage
Device Sub-Code
4
5
Command Device w401xxxx w411xxxx w402x
CPU 1
CPU 2
CPU 1 w412x CPU 2
Device
Code
40
41
40
Device
Sub-Item
Low Limit
Alarm
Level
Device
Sub-Code
1
Value(xxxx)
1000~9999
2
41 3
4
1
2
5
Remark
RPM in
ASCII
Not used
No Alarm
Critical
Major
Minor
57 Chapter 4
Command w403x w413x
Device
CPU 1
CPU 2
Device
Code
40
Device
Sub-Item
Event
Output
41
Device
Sub-Code
3
Value(xxxx)
4
5
6
1
2
3
Remark
None
Power Off
DO 0
DO 1
DO 2
DO 3
Command Device w501xxxxx w511xxxxx
CPU 1
CPU 2 w502x w512x w503x w513x w504xxxxx w514xxxxx
CPU 1
CPU 2
CPU 1
CPU 2
CPU 1
CPU 2
Device
Code
50
51
Device
Sub-Item
High
Limit
Device
Sub-Code
1
50 High
Alarm
Level
2
Value(xxxx) Remark
-55~125 (°C) or
-67~257 (°F)
1
Temperature value in ASCII, degree C or F depends on system setting, max. 5 characters, incl. "-", "."
Not used
51
50
51
50
51
High
Event
Output
Low Limit
3
4
4
5
2
3
3 Critical
4 Major
5 Minor
1 None
6
-55~125 (°C) or
-67~257 (°F)
Power Off
DO 0
DO 1
DO 2
DO 3
Temperature value in ASCII, degree C or F depends on system setting max.
5 characters, incl. "-", "."
SNMP-1000 User’s Manual 58
Command Device w505x CPU 1 w515x w506x w516x
CPU 2
CPU 1
CPU 2
Device
Code
50
Device
Sub-Item
Low
Alarm
Level
51
Device
Sub-Code
5
50
51
High
Event
Output
6
Value(xxxx) Remark
1 Not used
3
4
1
2
5
6
3 Critical
4 Major
5 Minor
None
Power Off
DO 0
DO 1
DO 2
DO 3
59 Chapter 4
Command Device w601xxxxxx w611xxxxxx w621xxxxxx w631xxxxxx w641xxxxxx w651xxxxxx w661xxxxxx w602xxxxxx w612xxxxxx w622xxxxxx w632xxxxxx w642xxxxxx w652xxxxxx w662xxxxxx
CPU 1
Vcore
CPU 2
Vcore
CPU VI/O
CPU card
+5V
CPU card
-5V
CPU card
+12V
-12V
CPU 1
Vcore
CPU 2
Vcore
CPU VI/O
CPU card
+5V
CPU card
-5V
CPU card
+12V
CPU card
-12V
61
62
63
64
65
66
60
61
62
63
64
65
66
Device
Code
60
Device
Sub-Item
High Limit
Low Limit 2
Device
Sub-Code
1
Value(xxxx)
-15 ~ 15
Remark
Voltage value in
ASCII code, max. 6 characters, incl.
"-", "."
SNMP-1000 User’s Manual 60
w653x w663x w604x w614x w624x w634x w644x w654x w664x
Command w603x w613x w623x w633x w643x
Device
CPU 1
Vcore
CPU 2
Vcore
CPU VI/O
CPU card
+5V
CPU card
-5V
CPU card
+12V
CPU card
-12V
CPU 1
Vcore
CPU 2
Vcore
CPU VI/O
CPU card
+5V
CPU card
-5V
CPU card
+12V
CPU card
-12V
65
66
60
61
62
63
64
65
66
Device
Code
60
Device
Sub-Item
Alarm
Level
61
Event
Output
4
Device
Sub-Code
3
Value(xxxx)
1
Remark
Not used
3
4 Major
5 Minor
1
2
3
4
5
6
Critical
None
Power Off
DO 0
DO 1
DO 2
DO 3
Command r701 r711 r721 r731
Device
Power 1
Power 2
Power 3
Power 4
Device Code
70
71
72
73
Device Sub-Item
Normal Level
Device Sub-Code
1
61 Chapter 4
r713 r723 r733 r704 r714 r724 r734
Command r702 r712 r722 r732 r703
Power 2
Power 3
Power 4
Power 1
Power 2
Power 3
Power 4
Device
Power 1
Power 2
Power 3
Power 4
Power 1
71
72
73
71
72
73
70
Device Code
70
71
72
73
70
Device Sub-Item
Alarm Level
Event Output
Current Status
Device Sub-Code
2
3
4
Command Device w701x w711x w721x w731x w702x w712x w722x w732x
Power 1
Power 2
Power 3
Power 4
Power 1
Power 2
Power 3
Power 4
72
73
70
71
Device
Code
70
71
72
73
Device
Sub-Item
Normal
Level
Device
Sub-Code
1
Value (x)
1
Remark
High
2 Low
Alarm
Level
2 1
2
3
4
Not used
No Alarm
Critical
Major
5 Minor
SNMP-1000 User’s Manual 62
Command Device w703x w713x w723x w733x
Power 1
Power 2
Power 3
Power 4
71
72
73
Device
Code
70
Device
Sub-Item
Event
Output
Device
Sub-Code
3
Value (x)
1
2
3
4
5
Remark
None
DO 0
DO 1
DO 2
DO 3
4.5.5 Digital Input
r873 r804 r814
~ r874 r872 r803 r813
~ r871 r802 r812
~
Command r801 r811
~
DI 7
DI 1
DI 2
~
DI 7
DI 7
DI 1
DI 2
~
DI 7
DI 1
DI 2
~
Device
DI 1
DI 2
~
87
80
81
~
87
87
80
81
~
87
80
81
~
Device Code
80
81
~
Device Sub-Item
Normal Level
Device Sub-Code
1
Alarm Level
Event Output
2
3
Current Status 4
63 Chapter 4
Command Device w862x w872x w803x w813x
~ w843x w853x w863x w873x w801x w811x
~ w871x w802x w812x
~
~
DI 4
DI 5
DI 6
DI 7
DI 6
DI 7
DI 1
DI 2
DI 1
DI 2
~
DI 7
DI 1
DI 2
~
80
81
~
84
81
~
86
87
85
86
87
81
~
87
80
Device
Code
80
Device
Sub-Item
Normal
Level
Alarm
Level
Event
Output
Device
Sub-Code
1
Value(x)
1
2
3
2
1
1
2
4
5
Remark
High
Low
2 No Alarm
3 Critical
3
4
5
6
7
Not used
Major
Minor
None
Reset
Power Off
DO 0
DO 1
DO 2
DO 3
4.5.6 WDT
Command r901 r902 r903
Device
WDT
Device Code
90
Device Sub-Item
Alarm Level
Event Output
Current Status
Device Sub-Code
1
2
3
SNMP-1000 User’s Manual 64
Command Device w901x WDT w902x WDT
Device
Code
90
90
Device
Sub-Item
Alarm
Level
Device
Sub-Code
1
Value(x)
1
Event
Output
2
Remark
Not used
3
4
1
2
5
6
3 Critical
4 Major
5 Minor
None
Power Off
DO 0
DO 1
DO 2
DO 3
65 Chapter 4
SNMP-1000 User’s Manual 66
Connector Pin Assignments
A
67 Appendix A
Appendix A Connector Pin Assignments
A.1 External Buzzer (J1)
1
2
Pin Signal
Buzzer
VCC
A.2 Auxiliary external power input (CN1)
4 3 2 1
3
4
1
2
Pin Signal
+12 V (2 A max.)
GND
GND
+5 V (2 A max.)
SNMP-1000 User’s Manual 68
A.3 LAN Connector (CN2)
5
7
1
3
9
11
2
4
6
8
10
12
5
7
1
3
9
11
Pin Signal
SPLED (LAN speed LED) 2
RX+ 4
GND
TX+
6
8
LILED (LAN link LED)
N.A.
10
12
Pin Signal
TERMPLANE
RX-
GND
TX-
TERMPLANE
NC
A.4 System SM Bus Connector (CN3)
Pin
1
2
Signal
B_SCLK (I2C bus clock)
B_SDAT (I2C bus data)
69 Appendix A
A.5 Temperature Sensor (LM75) Connector (CN4, CN7)
4 3 2 1
3
4
1
2
Pin Signal
+5 V
T_SCLK
T_SDAT
GND
A.6 RS-232 Connector (CN8, CN9)
1
3
5
7
9
11
2
4
6
8
10
12
Pin
5
7
1
3
9
11
SNMP-1000 User’s Manual
DCD
TX
GND
RTS
RI
NC
Signal
70
6
8
2
4
10
12
Pin
RX
DTR
DSR
CTS
NC
NA
Signal
A.7 LCM Display Board Connector (CN10)
8 7 6 5 4 3 2 1
19
21
9
11
13
15
17
5
7
1
3
Pin
5
7
1
3
Pin Signal
LCM I2C bus data
+12 V
+5 V
Alarm LED
6
8
2
4
Pin
A.8 Kernel Board Connector (CN11)
Signal
LCM I2C bus clock
GND
+5 V
GND
Signal
SIN
CTS#
RTS#
DSR#
ATX ON
GND
Watchdog IN
Watchdog OUT
SPLED (LAN speed LED)
LILED (LAN link
LED)
GND
10
12
14
16
18
6
8
2
4
20
22
Pin
71
Signal
DO 4
DO 3
DO 2
DO 1
DI 1
SOUT
DCD#
DTR#
Alarm reset
DI 2
DI 3
Appendix A
23
25
27
29
31
Pin Signal
TX+ (LAN)
TX- (LAN)
RX+ (LAN)
RX- (LAN)
TERMPLANE
24
26
28
30
32
Pin
DI 4
DI 5
DI 6
DI 7
DI 8
Signal
SNMP-1000 User’s Manual 72
27
29
9
11
13
15
5
7
1
3
17
19
21
23
25
31
Pin
A.9 Kernel Board Connector (CN12)
Signal
VCC
BEEP
5VSB
-5V
+5V
GND
GND
VCC
VCC
Select 1
Power Good A
Power Good C
Alarm LED
10
12
14
16
6
8
2
4
18
20
22
24
26
Pin
+3.3V
-12V
+12V
28
30
32
Signal
Select 2
Power Good B
Power Good D
FAN 1
FAN 2
FAN 3
FAN 4
FAN 5
FAN 6
FAN 7
FAN 8
FAN 9
B_SCLK (Clock of I2C bus to system)
B_SDAT (Data of I2C bus to system)
T_SCLK (Clock of I2C bus to sensor)
T_SDAT (Data of I2C bus to sensor)
73 Appendix A
A.10 Backplane Voltage Input Connector (CN13)
8 7 6 5 4 3 2 1
5
7
1
3
Pin Signal
+5 VSB
GND
+5 V
-12 V
6
8
2
4
Pin Signal
GND
-5 V
+3.3 V
+12 V
SNMP-1000 User’s Manual 74
A.11 Digital Input (CN14)
15 13
16 14
3 1
4 2
9
11
13
15
5
7
1
3
Pin
DI 5
DI 6
DI 7
DI 8
DI 1
DI 2
DI 3
DI 4
Signal
10
12
14
16
6
8
2
4
Pin
GND
GND
GND
GND
GND
GND
GND
GND
Signal
75 Appendix A
A.12 Digital Output (CN15)
7 5
3 1
8 6 4 2
5
7
1
3
Pin
DO 1
DO 2
DO 3
DO 4
Signal
6
8
2
4
Pin
GND
GND
GND
GND
Signal
A.13 Alarm RESET (CN17)
1 2
1
2
Pin Signal
GND
ARM_RESET
SNMP-1000 User’s Manual 76
A.14 LED Indicator Interface (CN18)
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
9
11
13
15
5
7
1
3
Pin Signal
GND
PG +12V
PG-12V
PG_LED
TG_LED
FG_LED
TF_LED
PG 5VSB
10
12
14
6
8
2
4
Pin Signal
PG +5V
PG -5V
HDD_1
PF_LED# (DO 1)
TF_LED# (DO 2)
FF_LED# (DO 3)
PG +3.3V
Notice: The SNMP-1000 uses the digital output DO1,
DO2 and DO3 as the power fail LED
(PF_LED#), over themperature LED
(TF_LED#) and fan fail LED (FF_LED#), respectively. Users need to enable the alarm of power, temperature and fan and select the event output as DO1, DO2 and DO 3 in the
"Alarm Configuration" of the SNMP-1000 web page.
77 Appendix A
A.15 CPU Card Interface (CN19)
1
3
5
2
4
6
1
3
5
Pin Signal
HDD Active
B_SCLK
B_SDAT
2
4
6
Pin Signal
ATX IN
ATX OUT
SYSTEM
RESET
A.16 Chassis and Watchdog Timer Connector (CN20;
CN26, CN27, CN28)
1
3
5
2
4
6
1
3
5
Pin Signal
ATX IN
GND
Watch Dog Input 6
2
4
Pin Signal
ATX OUT
System Reset
System Reset
SNMP-1000 User’s Manual 78
1 2
CN26
CN27
CN28
1
1
1
Pin Signal
ATX IN
GND
Watch Dog Input
2
2
2
Pin Signal
ATX OUT
System Reset
System Reset
A.17 Power Good Input CN16; CN21, CN22, CN23,
CN24)
1 2
CN16
CN21
CN22
CN23
CN24
1
1
1
1
Pin Signal
Power Good A
Power Good B
Power Good C
Power Good D
2
2
2
2
Pin
GND
Signal
GND
GND
GND
79 Appendix A
A.18 Auxiliary VCC In (CN25)
1 2
1
2
Pin
Vin
VCC
Signal
A.19 FAN Connectors (FAN1 ~ FAN9)
3 2 1
1
2
3
Pin Signal
GND
+12 V
FAN Speed
SNMP-1000 User’s Manual 80
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