Moxa Technologies VPort 351 Installation guide

MOXA Industrial Video Encoder

VPort 351 Series

Quick Installation Guide

Third Edition, May 2007

Moxa Networking Co., Ltd.

Tel: +886-2-8919-1230

Fax: +886-2-8919-1231 www.moxa.com

[email protected] (Worldwide) [email protected] (The Americas)

P/N: 1802003510112

Overview

The VPort 351 is a high performance, 1-channel industrial video encoder that provides up to full D1 (720 x 480) @ 30 FPS video performance. The VPort

351 is designed to support multi-codecs, including MJPEG and MPEG4 algorithms. In addition, a continuous video pre/post event-trigger video record function is supported to enhance video surveillance systems.

The VPort 351 has many of the same industrial-grade features as other MOXA products, including DIN-rail mounting, 24 VAC/VDC redundant power inputs,

-40 to 75°C operating temperature (“-T” models), and IP30 protection for industrial mission-critical applications. But most importantly, the VPort 351 meets critical industrial safety standards and approvals, such as UL508, and

Class 1, Div.2, making the encoder especially well suited for transportation, utility, and manufacturing systems.

Package Checklist

The MOXA VPort 351 is shipped with the following items. If any of these items are missing or damaged, please contact your customer service representative for assistance. y 1 × VPort 351 y 1 × 6-pin terminal block for one power input and 2 DIs y 1 × 8-pin terminal block for the other power input and 2 relay outputs y 1 × 5-pin terminal block for RS-232/422/485 PTZ control port y Quick Installation Guide y Document & Software CD (includes User’s Manual, Quick Installation

Guide, MOXA IVN Solution Datasheet, and VPort Utility) y Warranty Statement

NOTE Please check the model name on the VPort’s side label to verify that the model name is correct for your order.

NOTE This product must be installed in compliance with your local laws and regulations.

Features

High Performance Video/Audio Networking Solution y Works with NTSC/PAL analog video cameras y Supports MPEG4/MJPEG video compression technology y 1 BNC video input and 1 BNC video output with 75Ω resistance y 1 audio input and 1 audio output for 2-way voice communication y Standard RTSP (real-time streaming protocol) for easy integration y Multicast (IGMP) protocols for efficient network transmission y QoS (TOS) for priority transmission y PPPoE and DDNS for xDSL connection y Supports SNMP V3 for network management y Built-in web server and RS-232 console for remote access & configuration y 1 auto-sensing 10/100BaseT(X) Ethernet port or 100baseFX (SC connector)

— 1 —

y TCP, UDP, and HTTP network transmission modes y Allows simultaneous access of up to 10 clients y Set video quality to CBR (constant bit rate) or VBR (variable bit rate) y Full D1, 4CIF, VGA, QVGA, and CIF video resolution supported y Timestamp and text overlay supported y RS-232/RS-422/RS-485 COM port for controlling PTZ (PAN/TILT/ZOOM) motorized camera y UPnP and IP filtering supported

Industrial Rugged Design y Two 12/24 VDC and 24 VAC redundant power inputs with LED indicators y -40 to 75°C operating temperature for critical industrial environments (“-T” models) y 35 mm DIN-rail mounting or panel mounting installation (with optional accessories) y IP30 protection y Class 1, Div.2 hazardous certification for critical environments (pending)

Intelligent Alarm Trigger y Built-in Video Motion Detection (VMD) y Equipped with 2 DIs and 2 relays (DO) for external sensors and alarms y Recorded video provided for pre/post alarm y Snapshot images provided for pre, trigger, and post alarm y Sequential snapshot images supported y Messages with snapshot images can be sent via FTP or Email y Configure alarm activation schedule

Video Management and Control y MOXA SoftDVR™ Lite IP Surveillance Software for viewing and recording bundled free y Free MOXA IVN SDK supported with flexible interface and sample codes for customized applications or system integration

NOTE MJPEG, PPPoE, DDNS, QoS, and SNMP will be supported starting with the release of V2.0 firmware. Please check MOXA’s website for updates about new firmware releases.

NOTE A version of SoftDVR Lite that supports the VPort 351 will be released on MOXA’s website soon. Please check MOXA’s website for updates about new firmware releases.

NOTE If you are interested in the MOXA IVN SDK, please go to

MOXA’s website to download the software, or contact a MOXA sales representative for more information.

— 2 —

9

10

11

VPort 351 Panel Layout

VPort 351

Front Panel View

VPort 351-M-SC

Front Panel View

8

7

12

13

14

15

18

16

4

Top Panel View

V1, V2: 12-32 VDC

12-30 VAC

RS-232

CONSOLE

1

2

6

5

3

19

20

19

Rear Panel View

17

1. Grounding screw

2. RS-232 console port

3. Hardware reset button

4. 6-pin terminal block for DI 1, DI 2, power input 2 (PWR2)

5. 8-pin terminal block for Relay 1, Relay

2, power input 1 (PWR1)

6. Heat dissipation orifices

7. LEDs for STAT, PWR1, PWR2, FAULT

8. LEDs for VIDEO, AUDIO TEST, PTZ

9. AUDIO OUTPUT port for external speaker

10. AUDIO INPUT port for mic-in and line-in connection

11. 5-pin terminal block for RS-232/422/

485 connection

12. BNC port for video input

13. AUDIO TEST DIP switch for testing audio input signal (default is off)

14. 75Ω DIP switch for analog video signal transmission with 75Ω resistance

(default is on)

15. BNC port for loop-through video output

16. RJ45 10/100BaseTX Ethernet Port with

10 Mbps, 100 Mbps LEDs

17. 100BaseFX Fiber optic port with 100

Mbps LED

18. Model name

19. Screw hole for wall mounting kit

20. DIN-Rail mounting kit

— 3 —

First-Time Installation and

Configuration

Before installing the VPort 351 video encoder, check to make sure that all items in the Package Checklist are in the box. In addition, you will need to use a notebook or PC equipped with an Ethernet port.

Step 1: Select the Power Source

The VPort 351 can be powered by a DC power input from 12 to 32 VDC, or an

AC power input from 18 to 30 VAC. Two power inputs are provided for redundancy. Users can check the LED status located on the front panel to see if the power inputs are connected appropriately. If one of the power inputs fails, the FAULT LED will illuminate in red.

NOTE The VPort 351 has 2 power inputs for redundancy. Each power input supports 12 to 32 VDC for a 12/24 VDC power input, or 18 to 30 VAC for a 24 VAC power input. This differs from MOXA’s

EDS switches, which support a 12 to 45 VDC power input.

Step 2: Connect the VPort 351 to the Network

The VPort 351 has an auto-sensing 10/100 Mbps RJ45 Ethernet port, or 100

Mbps fiber optic port (multi mode or single mode) for network connectivity.

Both the RJ45 port and fiber optic port have separate LEDs for 10 Mbps and

100 Mbps connection activity.

Step 3: Connect the VPort 351 to a camera and an audio source

The VPort 351 has a VIDEO INPUT port and a loop-through VIDEO

OUTPUT port with a 75Ω resistance dip switch. Users should use the BNC connector and coaxial cable to connect the video camera to the VPort to input analog video signals, and connect the monitor or DVR with the VPort to output analog signals (note that the 75Ω resistance should be turned to off when the video output is enabled).

The VPort 351 has 1 audio input and 1 audio output. A microphone or an amplifier can be plugged directly into the AUDIO INPUT port; a speaker can be plugged into the AUDIO OUTPUT port.

NOTE A VIDEO LED is located on the front panel to indicate the video signal transmission status for the video input. Users can check the

LED status to see if the video is working properly.

Step 4: Connecting the VPort 351 to a motorized PTZ camera/device

If you are using a PTZ camera or device, you need to connect the PTZ control cable to the VPort 351’s PTZ port. The PTZ port is a 5-pin terminal block for

RS-232/422/485 serial connection. The pin assignments are shown below.

PIN RS-422/485 RS-232

1 GND Ground GND

Ground

2 R- Rx- ---

N/A

3 R+ Rx+ RxD

RxD

5 T+\D+

---

TxD

N/A

TxD

To enable PTZ control, configure the PTZ control protocol in the web-based manager.

— 4 —

NOTE The PTZ control protocol is not standardized. To use a particular

PTZ control protocol, the video server must support the driver for that protocol. Currently, the VPort 351 supports PTZ control protocol drivers for:

1. Pelco D

2. DynaColor SmartDome (supported by V2.0 firmware)

If you need to use a protocol that is not on the list, you will need to contact the manufacturer of the camera to get the PTZ control commands, and then program its PTZ control in the VPort 351’s

Custom Camera function.

NOTE The VPort 351 comes with a PTZ driver upload function for implementing new PTZ drivers. Please contact a MOXA sales representative if you need assistance from MOXA’s R&D department to create a new PTZ driver.

Step 5: Configure the VPort 351’s IP address

After powering on the VPort 351, wait a few seconds for the POST (Power On

Self Test) to run. The STAT LED turns green to indicate that the POST process has completed. The IP address will be assigned when the 10 or 100 Mbps

NETWORK LED blinks. The IP address assigned after the POST is completed depends on the network environment.

Network Environment with DHCP Server

In this case, the IP address of the VPort 351 is assigned by a DHCP Server.

Use the DHCP Server’s IP address table, or use the MOXA VPort utility to determine the IP address that was assigned by the DHCP Server.

NOTE After powering on the VPort 351, wait a few seconds for the POST

(Power On Self Test) to run. The IP address will be assigned when the 10 or 100 Mbps NETWORK LED blinks.

Using the VPort Utility

1. Run the VPort_Utility.exe program to search for the VPort . After the

VPort Utility window opens, you may also click on the Search button to initiate a search.

— 5 —

2. When the search has finished, the Model Name, IP address, MAC address,

Serial (i.e., serial number), and HTTP Port of the VPort will be listed in the VPort Utility window.

NOTE Serial refers to the production serial number of this VPort, and the

HTTP Port number is the http port used by this VPort.

3. Double click on the selected VPort, or use the IE web browser to access the VPort’s web-based manager (web server).

Network Environment without DHCP Server

If your VPort 351 is connected to a network that does not have a DHCP server, then you will need to configure the IP address manually. The default IP address of the VPort 351 is 192.168.127.100 and the default subnet mask is

255.255.255.0. Note that you may need to change your computer’s IP address and subnet mask so that the computer is on the same subnet as the VPort.

To change the IP address of VPort manually, access the VPort’s web server, and then navigate to the System Configuration Æ Network Æ General page to configure the IP address and other network settings. Checkmark Use fixed

IP address to ensure that the IP address you assign is not deleted each time the

VPort is restarted.

Step 6: Logging in to the VPort 351 web-based manager

Type the IP address in the web browser’s address input box and then press enter.

Step 7: Installing the ActiveX Control Plug-in

A security warning message will appear the first time you access the VPort’s web-based manager. The message is related to installing the VPort AcitveX

Control component to your PC or notebook. Click on Yes to install this plug-in to enable the IE web browser for viewing video images.

— 6 —

NOTE For Windows XP SP2 or above operating systems, the ActiveX

Control component will be blocked for system security reasons. In this case, the VPort’s security warning message window may not appear. Users should unblock the ActiveX control function or disable the security configuration to enable the installation of

VPort’s ActiveX Control component.

Step 8: Accessing the Homepage of the VPort 351’s web-based manager

After installing the ActiveX Control component, the homepage of the VPort

351’s web-based manager will appear. Check the following items to make sure the system was installed properly:

1. Video Images

2. Audio Sound (make sure your PC’s or notebook’s sound is turned on)

3. Video Information

— 7 —

Step 9: Accessing VPort’s System Configuration

Click on System Configuration to access the overview of the system configuration to change the configuration. Model Name, Server Name, IP

Address, MAC Address, Firmware Version, and LED Status appear in the green bar near the top of the page. Use this information to check the system information and installation.

For details of each configuration, check the User’s Manual on the software CD.

NOTE After accessing the VPort 351’s web-based manager, administrators should access System Configuration Æ System Æ

Account to set up the administrator’s password and enable the authentication function. The administrator account name is admin.

An authentication window will pop up requesting the account name and password each time the VPort 351 is accessed.

— 8 —

Mounting Dimensions

9.00

30.00

40.00

13.10

15.10

25.40

DlN-Rail

DlN-Rail Kit

105.00

Side View

13 18 13

10

10

5

6

Front View

3.5

6

7.75

30.50

7.75

DlN-Rail Kit

13.9

18.2

13.9

Wall Mounting Kit Rear View

DIN-Rail Mounting

The aluminum DIN-Rail attachment plate should already be attached to the back panel of the VPort 351 when you take it out of the box. If you need to reattach the DIN-Rail attachment plate to the VPort 351, make sure the stiff metal spring is situated towards the top, as shown in the figures below .

STEP 1:

Insert the top of the DIN-Rail into the slot just below the stiff metal spring. metal spring

STEP 2:

The DIN-Rail attachment unit will snap into place as shown below.

metal spring

DIN-Rail

DIN-Rail

Reverse Steps 1 and 2 above to remove the VPort 351 from the DIN-Rail.

— 9 —

Wall Mounting (Optional)

Follow the steps below to mount the VPort 351 on a wall or panel.

STEP 1:

Remove the aluminum DIN-Rail attachment plate from the VPort 351, and then attach the wall mount plates, as shown in the diagrams below.

Top plate

Bottom plate

STEP 2:

Mounting the VPort 351 on the wall requires 4 screws. Use the VPort 351, with wall mount plates attached, as a guide to mark the correct locations of the 4 screws. The heads of the screws should be less than 6.0 mm in diameter, and the shafts should be less than 3.5 mm in diameter, as shown in the figure at the right.

Do not screw the screws in all the way—leave a space of about 2 mm to allow room for sliding the wall mount panel between the wall and the screws.

6.0 mm

3.5 mm

NOTE Test the screw head and shank size by inserting the screw into one of the keyhole shaped apertures of the Wall Mounting Plates, before it is screwed into the wall.

STEP 3:

Once the screws are fixed in the wall, insert the four screw heads through the large parts of the keyhole-shaped apertures, and then slide

VPort 351 downwards, as indicated in the figure. Tighten the four screws for added stability.

Wiring Requirements

ATTENTION

Safety First!

Be sure to disconnect the power cord before installing and/or wiring your MOXA VPort 351.

Calculate the maximum possible current in each power wire and common wire. Observe all electrical codes dictating the maximum current allowable for each wire size.

If the current goes above the maximum ratings, the wiring could overheat, causing serious damage to your equipment.

— 10 —

You should also pay attention to the following: y Use separate paths to route wiring for power and devices. If power wiring and device wiring paths must cross, make sure the wires are perpendicular at the intersection point.

NOTE: Do not run signal or communications wiring and power wiring in the same wire conduit. To avoid interference, wires with different signal characteristics should be routed separately. y You can use the type of signal transmitted through a wire to determine which wires should be kept separate. The rule of thumb is that wiring that shares similar electrical characteristics can be bundled together. y Keep input wiring and output wiring separated. y It is strongly advised that you label wiring to all devices in the system when necessary.

Grounding the VPort 351

Grounding and wire routing help limit the effects of noise due to electromagnetic interference (EMI). Run the ground connection from the ground screw to the grounding surface prior to connecting devices.

ATTENTION

This product is intended to be mounted to a well-grounded mounting surface such as a metal panel.

Wiring the Redundant Power Inputs

The VPort 351 has two power inputs, labeled PWR1 and PWR2, on the 6-pin and 8-pin terminal block connectors. Top and front views of the terminal block connectors are shown in the following figures.

V1- V1+ V2- V2+

PWR1

V1- V1+

PWR1

PWR2

V2- V2+

PWR2

STEP 1: Insert the negative/positive

DC or AC wires into the V-/V+ terminals.

STEP 2: To keep the DC or AC wires from pulling loose, use a small flat-blade screwdriver to tighten the wire-clamp screws on the front of the terminal block connector.

STEP 3: Insert the plastic terminal block connector prongs into the terminal block receptor, which is located on VPort 351’s top panel.

ATTENTION

The power for this product is intended to be supplied by a Listed

Power Unit, with output marked LPS, and rated to deliver 12 to 32

VDC at a maximum of 740 mA, or 18 to 30 VAC at a maximum of

890 mA.

— 11 —

Wiring the Relay Output

The VPor 351 has two sets of relay

Normal Open

Common

Normal Close outputs, labeled RELAY 1 and

RELAY 2, located on the 8-pin terminal block connector. Each relay output uses 3 of the contacts on the

8-pin terminal block. The terminal block is located on the VPor 351’s top panel.

The relay output can be configured for:

1. System alarm: power failure or disconnected network

2. Event alarm: VMD (Video Motion Detection), video loss, and Digital

Inputs

ATTENTION

The maximum current and power capacity of the relay output is 24

VDC @ 1A. Please be careful not to exceed this power specification.

ATTENTION

Before connecting the VPort to the DC/AC power inputs, make sure the DC power source voltage is stable.

Wiring the Digital Inputs

The VPort 351 has two digital inputs, labeled DI1 and DI2. Each DI consists of two contacts of the 6-pin terminal block connector located on the VPort’s top panel. Top and front views of one of the terminal block connectors are shown here.

I1 I2 STEP 1: Insert the negative

(ground)/positive DI wires into the ┴

/I1 terminals.

I1 I2

STEP 2: To keep the DI wires from pulling loose, use a small flat-blade screwdriver to tighten the wire-clamp screws on the front of the terminal block connector.

STEP 3: Insert the plastic terminal block connector prongs into the terminal block receptor, which is located on the VPort 351’s top panel.

Communication Connections

VPort 351 models have one RJ45 console port (RS-232 interface), and 1

10/100BaseT(X) Ethernet port or 1 100BaseFX (SC-type connector) fiber port.

RS-232 Connection

VPort 351 has one RS-232 (10-pin RJ45) console port, located on the top panel.

Use either an RJ45-to-DB9 or RJ45-to-DB25 cable (see the cable following wiring diagrams) to connect VPort 351’s console port to your PC’s COM port.

— 12 —

You may then use a console terminal program, such as MOXA PComm

Terminal Emulator, to access VPort 351’s console configuration utility.

RJ45 (10-pin) Console Port Pinouts

Pin Description

1 ------

2 DSR

1

3 ------

4 GND

5 TxD

6 RxD

7 GND

8 ------

9 DTR

10 ------

RJ45 (10-pin) to DB9 (F) Cable Wiring

Moxa

EtherDevice

Server

RJ45 Plug Pin 1

RJ45

Connector Cable Wiring

DCD

DSR

RTS

GND

TxD

RxD

CTS

DTR

1

2

3

4/7

8

9

5

6

RJ45 (10-pin) to DB25 (F) Cable Wiring

1

6

7

5

8

4

3

2

10

COM Port

Female DB9

Connector

DCD

DTR

CTS

GND

RxD

TxD

RTS

DSR

Moxa

EtherDevice

Server

COM Port

RJ45 Plug Pin 1

RJ45

Connector Cable Wiring

Female DB25

Connector

DCD

DSR

RTS

GND

TxD

RxD

CTS

DTR

5

6

8

9

3

4/7

1

2

2

3

5

20

4

7

8

6

DCD

DTR

CTS

GND

RxD

TxD

RTS

DSR

10/100BaseT(X) Ethernet Port Connection

The 10/100BaseT(X) port located on the VPort 351’s front panel is used to connect to Ethernet-enabled devices.

The following table shows pinouts for both MDI (NIC-type) ports and MDI-X

(HUB/Switch-type) ports. We also show cable wiring diagrams for straight-through and cross-over Ethernet cables.

— 13 —

MDI Port Pinouts MDI-X Port Pinouts

Pin Signal Pin Signal

1 Tx+ 1 Rx+

2 Tx- 2 Rx-

3 Rx+ 3 Tx+

6 Rx- 6 Tx-

8-pin RJ45

1 8

RJ45 (8-pin) to RJ45 (8-pin) Straight-Through Cable Wiring

Straight-Through Cable

Switch Port

RJ45

Connector

RJ45 Plug Pin 1

Cable Wiring

VPort Ethernet

Port

RJ45

Connector

Tx+

Tx-

Rx+

Rx-

1

2

3

6

3

6

1

2

Rx+

Rx-

Tx+

Tx-

RJ45 (8-pin) to RJ45 (8-pin) Cross-Over Cable Wiring

Cross-Over Cable

NIC Port

RJ45

Connector

RJ45 Plug Pin 1

Cable Wiring

VPort Ethernet

Port

RJ45

Connector

(Rx+)

(Rx-)

(Tx+)

(Tx-)

Tx+

Tx-

Rx+

Rx-

3

6

1

2

1

2

3

6

Rx+

Rx-

Tx+

Tx-

(Tx+)

(Tx-)

(Rx+)

(Rx-)

100BaseFX Ethernet Port Connection

The concept behind the SC port and cable is easy to understand. Since optical signals do not require a circuit to transmit data, one cable is used to transmit data and one cable is used to receive data, providing full-duplex transmission.

Remember to connect the Tx (transmit) port of device I to the Rx (receive) port of device II, and the Rx (receive) port of device I to the Tx (transmit) port of device II. If you make your own cable, we suggest labeling the two sides of the same line with the same letter (A-to-A and B-to-B, as shown below, or

A1-to-A2 and B1-to-B2).

SC-Port Pinouts SC-Port to SC-Port Cable Wiring

A A

Tx

B B

Cable Wiring

Rx

A

B

A

B

PTZ Port

A PTZ port is located on the VPort 351’s front panel. The port is used to connect to a PTZ motorized camera or device, so that the camera or device can be controlled from the VPort over the IP network. The PTZ port supports

RS-232 or RS-422/485 signals through the terminal block. The PTZ port pin assignments are shown in the following table.

— 14 —

1

2

3

4

5

Pin Assignment

PIN RS-422/485 RS-232

1 GND GND

2 R- ---

3

4

5

R+

T-\D-

T+\D+

RxD

---

TxD

LED Indicators

Several LED indicators are located on the front panel of the VPort 351. The function of each LED is described in the table below.

LED Color

STAT

RED

GREEN

State

ON

Description

Hardware initialization

FLASH Software initialization

ON System boot-up

FLASH Firmware upgrade proceeding

PWR1 AMBER

On

Off

Power is being supplied to power input PWR1

Power is not being supplied to power input PWR1

PWR2

FAULT

VIDEO GREEN

AUDIO

TEST

AMBER

RED

GREEN

On

Off

On

Off

On

Off

On

Off

Power is being supplied to power input PWR2

Power is not being supplied to power input PWR2

Three conditions could cause the

LED to light up:

1. One of the 2 power inputs is disconnected.

2. Video loss

3. Network disconnected

Users can modify the settings on the system configuration system alarm page.

Both power inputs are connected and working, or there is no video loss, or the network disconnected alarm is silent (if it is activated).

Video signal is detected

Video signal is not detected

Audio input signal is looped-back directly to the audio output phone jack for audio installation test

(AUDIO TEST DIP switch on the front panel must be switched to

ON)

Playback the remote client audio to audio output phone jack

— 15 —

PTZ GREEN

On

Off

RS-232 or RS-485 signals are being transmitted

RS-232 or RS-485 signals are not being transmitted or have not been detected

Hardware Reset

A recessed RESET button is provided for restoring the system to the factory default settings. When the system fails to install properly, or operates abnormally, push the RESET button located on the top panel of the VPort 351 to restore the factory defaults.

To restore the VPort 351 to the factory default settings, use a pointed object, such as a straightened paper clip or toothpick, to press the reset button continuously. When the STAT LED blinks in red, release the reset button. At this point, the POST process will run, and the VPort will reboot. The STAT

LED will light in green when the VPort has finished rebooting.

Specifications

Video

Video Compression MPEG4, MJPEG*

Video Input

Video Output

(*MJPEG will be supported after the release of the V2.0 firmware)

1, BNC Connector

1, Loop-through BNC Connector

NTSC/PAL Auto-sensing or Manual

Video Resolution and FPS (Frames per second):

NTSC PAL

Size

QVGA 320 x 240

Max. FPS

30

Size

320 x 288

Max. FPS

25

CIF

VGA

352 x 240

640 x 480

30 352 x 288

30 640 x 480

25

25

4CIF* 704 x 480

Full D1 720 x 480

25

25

* 4CIF will be supported after the release of the V2.0 firmware.

Video Viewing

Audio

Audio Input

Audio Output

Network

Protocols y Adjustable image size and quality y Timestamp and text overlay

1 Line-in or MIC-in, 3.5 mm phone jack

1 Line-out, 3.5 mm phone jack

TCP, UDP, HTTP, SMTP, FTP, Telnet, NTP,

DNS, DHCP, UPnP, RTP, RTSP, ICMP,

IGMPv3, SNMPv3*, PPPoE*, DDNS*

(SNMP, PPPoE, and DDNS will be supported after the release of the V2.0 firmware)

Ethernet

30 704 x 576

30 720 x 576

1 10/100BaseT(X) auto negotiating RJ45 port, or

1 100BaseFX fiber port (SC connector)

— 16 —

Serial Port

PTZ port

Console port

GPIO

Digital Inputs

Relay Outputs

LED Indicators

STAT

1 RS-232 or RS-422/485 Terminal Block connector; Max. speed of 115.2 Kbps

1 RS-232 RJ45 port

2, max. 8 mA

“High”: +13V to +30V

“Low”: -30V to +3V

2 (max. 24 VDC @ 1A)

Indicates if the system booted properly

FAULT

VIDEO

AUDIO TEST

PTZ

Power

Inputs

Can be configured to correspond to system alarm, power failure, video loss, or disconnected network

Video input signal active

Audio input signal in test mode

PTZ control signal active

Two 12/ 24 VDC or 24 VAC for redundancy

Mechanical

Casing IP30 protection, metal case

Dimensions (W x D x H) 52.98 x 135 x 105 mm (2.09 x 5.31 x 4.13 in)

Installation

Environmental

DIN-Rail or wall mounting

Operating Temperature 0 to 60°C (32 to 140°F)

-40 to 75°C (-40 to 167°F) for -T models

Storage Temperature -40 to 85°C (-40 to 185°F)

Ambient Relative 5 to 95% (non-condensing)

Humidity

Regulatory Approvals

Safety UL 508 (Pending)

Hazardous Location UL/cUL Class I, Division 2, Groups A, B, C and

D (Pending), ATEX Class I, Zone 2, EEx nC IIC

(Pending)

EMI

EMS

FCC Part 15, CISPR (EN55022) class A

EN61000-4-2 (ESD), Level 2

EN61000-4-3 (RS), Level 3

EN61000-4-4 (EFT), Level 3

EN61000-4-5 (Surge), Level 3

EN61000-4-6 (CS), Level 3

EN61000-4-8

EN61000-4-11

EN61000-4-12

Shock IEC60068-2-27

Freefall IEC60068-2-32

Vibration IEC60068-2-6

— 17 —

Alarm Features y Pre/Post alarm video recording (9 MB memory) y Video motion detection with sensitivity tuning y Daily repeat timing schedule y JPEG snapshots for pre/trigger/post alarm images y Automatic transfer of stored images by email or FTP with event-triggered actions

PAN/TILT/ZOOM y PTZ camera control through RS-232/422/485 y Supported devices and protocols:

Dynacolor SmartDOME (supported by V2.0 firmware), Pelco D-protocol,

Custom Camera y PTZ driver upload

Security y User level password protection y IP address filtering

Recommended System Requirements y Pentium 4, 2.4 GHz or above y 512 MB memory or above y Windows XP/2000 with SP4 or above y Internet Explorer 6.x or above y DirectX 9.0c or above

Software Bundled Free

MOXA SoftDVR Lite 1- to 4-ch IP Surveillance Software for viewing & recording (please check the release information on Moxa’s website)

MOXA Internet Services

Customer satisfaction is our number one concern. To ensure that customers receive the full benefit of our products, Moxa has set up on-line support services to provide technical support, driver updates, product information, and user’s manual updates.

E-mail for technical support: [email protected]

(Worldwide) [email protected]

(The

Website for up-to-date product information: www.moxa.com

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