D430P/E DE430P/E Hardware Manual
- Chapter 1 Overview
- Chapter 2 Hardware Installation
- Chapter 3 Reference Table of Contents
1. (a) The D430P/E DE430P/E is subject to specific national safety regulations during application.
2. Turn off the power before installing the D430P/E DE430P/E.
3. To prevent damage to the board from electrostatic induction, snap the card stopper to the PC with screws
on the PC for grounding purposes.
4. the electrostatic ring is essential during installation.
5. Please follow the instruction steps.
Chapter 1 Overview
1.1 D430P/E DE430P/E Introduction
The D430P/E DE430P/E is an upgraded version of the D410P/E DE410P/E product.The D430P/E DE430P/E is the most advanced 4-port T1/E1/J1 PCI interface voice card available in the open source community and offers the highest quality voice calls. The product’s advanced innovations not only ensure that users can reduce system CPU usage by up to 70% after adjusting the interrupt frequency, but also modify the product interrupt number to avoid interrupt number sharing or conflicts.The DE430 consists of the D430 and a hardware echo cancellation module based on the Octasic® chip. T1, E1 and J1 modes can be freely selected for each card and even for each physical port. The Octasic® chip-based hardware echo cancellation module can eliminate echo tails up to 128ms or 1024taps on 128 channels in E1 mode or 96 channels in T1/J1 mode. the module takes full advantage of the Octasic® voice quality improvement feature to ensure perfect sound quality on every call. The D430P/E DE430P/E supports industry standard telephone line and data protocols, including PRI ISDN (North American and European standards) protocols, PPP, Cisco, HDLC and Frame Relay data modes, as well as line and trunk interfaces.
The D430P/E DE430P/E supports open source project applications such as Asterisk®, Issabel, FreeSWITCH™, Yate™ and other IPPBX/IVR.
- High performance ISDN BRI voice boards
- VoIP services
- IVR Applications
- “Meet-Me” Conference Bridge
- Calling Card Platform
- VoIP gateways (SIP, H.323, and IAX support)
- Traditional PBX/IVR services
- Voice and data routers
Chapter 2 Hardware Installation
2.1 Channel Type Setting
Each DIP switch controls the mode of a channel. By setting the DIP switch, the channel can be set to E1 or T1 mode. When DIP1 is set to ON, it means channel one is E1 mode, and when DIP1 is set to OFF, it means channel one is T1 mode.
2.2 Card ID Setting
CardID This knob controls the card number on the same machine, if there is only one card on your machine, then the value corresponding to the knob should be set to 0; if two D430P/E or DE430P/E are installed at the same time, which means that two identical cards are installed, the CardID of the card closest to the CPU should be set to “0 “, the more distant card should be set to “1”, and so on. The default state of the knob is 0.
D430P/DE430P is compatible with industry standard 32-bit 5.0V, 64-bit 3.3V and 64-bit 5.0V PCI slots, not compatible with any type of PCI-E slots. Users first need to confirm the slot type and insert the D430P/DE430P vertically into any of the above PCI slots. The following figure depicts the four slot shapes.
D430E/DE430E is compatible with industry standard PCI-E ×1, PCI-E ×2, PCI-E ×4, PCI-E ×8, and PCI-E ×16 slots, and is not compatible with any type of PCI slot. Users first need to confirm the slot type and insert the D430E DE430E vertically into any of the above PCI-E slots. The following figure depicts the four slot shapes.
Figure 1 PCI and PCI-E slots
2.4 Clock Lines
If the user has only one card, then all the channels on this card run at the same clock frequency, at this point, no clock lines are needed. If the user installs multiple cards on a machine at the same time, clock lines can provide many benefits. If clock lines are not used, each card runs at its own clock frequency to send and receive data, at which point accuracy is compromised. In voice data, this problem is negligible, but in data transmission such as fax and modem, it can lead to incalculable impact. Data loss will cause communication interruptions or even crashes. Clock lines allow all cards to operate under the same clock source, sending and receiving data at the same rate, without data loss.
If the user can find J914 (input) and J915 (output) interface on the card, it means this card supports clock line.
Users can run the command “ cat /proc/interrupts “ to see if the D430P/E DE430P/E has independent interrupts, which can cause some problems if the D430P/E DE430P/E shares interrupts with other devices.The D430P/E DE430P/E supports changing interrupt pin numbers during firmware upgrades to avoid conflicts. You can check if the EC module is working by using the following command.
2.4 EC module identification and its enable
After completing the installation and configuration by referring to the corresponding board software installation manual, execute the command “dmesg | grep VPM” to check if the EC module is present
[[email protected] ~]# dmesg | grep VPM
VPM450: echo cancellation for 128 channels
opvxd115 0000:20:00.0: VPM450: hardware DTMF disabled.
opvxd115 0000:20:00.0: VPM450: Present and operational
servicing 2 span(s)
Chapter 3 Reference List
Users who encounter any problems during installation and use, please find answers and leave comments on OpenVox forum or wiki.
Appendix A Hardware Specifications
– Weight, Size
Weight: 98g(D430E) 20g(EC2032)
Size: 2U Form Factor: 12×6.4×1.6cm 3
PCI 3.3V or 5V PCI 2.2 or higher
PCI-E PCI-E ×1, PCI-E ×2, PCI-E ×4, PCI-E ×8 and PCI-E ×16 slots
Storage temperature: -65 ~ 125°C (D130P) -40 ~ 75°C (EC2032)
Operating temperature: 0 ~ 50°C
Humidity: 10 ~ 90% non-condensing
– Power Consumption
Voltage: 3.3V, 5V
Power loss: 2.6W (min) 3.9W (max)
-Hard and software configuration requirements
RAM 128+ MB
Linux kernel 2.4.X or 2.6.X
CPU 800+ MHz
Appendix B Hardware Breakdown Diagram
The D430P/DE430P hardware disassembly diagram is similar to the D430E/DE430E, and the D430E/DE430E disassembly diagram is shown below.
Leave a Comment