3-56, Typical LED Settings for Program, LEDs 12~16

System & Station

Program 20 – Computer and Data Interface Unit Configuration

●

If a PC is connected to the RPCI or PDIU, set the communication mode escape sequences in the PC communication software “Modem Initialization” character sequence. This ensures the escape sequence is restored in case the RPCI Telephone or PDIU is unplugged temporarily.

RPCI and PDIU-DS units that mostly do data switching, can be connected to ports associated with PDKU1 circuits 1~7 only. All PDKU2 circuits, 1~8, support RPCIs and PDIUs. RDSU digital circuits 5~8 support RPCI and PDIUs.

Each PDIU-DS requires a separate digital port.

If a PDIU-DS (Stand-alone Data Interface Unit) is connected to a modem, refer to Modem Setup Recommendations in the PC/Data Communication section of Chapter 10 – Peripheral Installation of the Installation and Maintenance Manual.

See Chapter 10 – Peripheral Installation for additional hardware information and Chapter 2 – DK40i Configuration and Chapter 4 – DK424 Configuration to identify which slots can support RPCIs and DIUs.

Typical LED Settings for Program 20

RCPI-DI/PDIU-DI Connected to a terminal or personal computer—LEDs 01, 02, 05, and 17 ON; all other LEDs OFF.

PDIU-DS Connected to a Printer: LEDs 01, 04, and 17 ON; all other LEDs OFF.

PDIU-DS Connected to a Modem: LEDs 01, 02, 03, 04, and 17 ON; all other LEDs OFF.

LEDs 17~20: Data Security Groups

Data security groups can be set to block data calls between RPCI/DIUs. RPCI/DIUs can only make data calls to RPCI/DIUs in the same security group. LEDs 17~20 assign the RPCI/DIU to the appropriate security group: light LED 17 for Group 1; LED 18, for Group 3; LED 19, for Group 2; and LED 20, for Group 4. If an RPCI-DI is used in the Application Program Interface (TAPI) mode only, and not the Data Switching mode, this option is not applicable.

LEDs 12~16

Not used at this time.

LED 11: RPCI-DI DNIS to PC Option

DNIS Number or NAME tag information that is sent to a telephone can be sent, or blocked, from the telephone’s RPCI-DI, RS-232 output. If DNIS information should be sent from the Telephone’s RPCI-DI to the Personal Computer to which it is connected, turn LED 11 ON; if this information should not be sent to the PC, turn LED 11 OFF.

LED 10: RPCI-DI Caller ID and ANI to PC Option

Caller ID and ANI information that is sent to a telephone can be sent, or blocked, from the telephone’s RPCI-DI, RS-232 output. If Caller ID and ANI information should be sent from the RPCI-DI to the Personal Computer to which it is connected, turn LED 10 ON; if this information should not be sent to the PC, turn LED 10 OFF. This option does not apply to PDIUs because they can not send ANI, Caller ID, or DNIS numbers.

LEDs 07~09

Not used at this time.

3-56	Strata DK Programming 5/99

dk14 specifications

The Toshiba DK14 and DK40I are advanced digital video recorders (DVRs) that have redefined the standard for high-quality video surveillance systems. Designed primarily for security applications, both models boast a suite of impressive features, making them ideal choices for various environments, including commercial, retail, and educational settings.

The Toshiba DK14 stands out with its exceptional recording capabilities. It supports high-definition video capture, ensuring that every detail is captured with crystal clarity. The device can handle multiple camera inputs, allowing users to connect several surveillance cameras simultaneously, depending on the configuration. With its robust storage capacity, the DK14 can accommodate extended recording times, making it suitable for long-term surveillance needs.

One of the key characteristics of the DK14 is its user-friendly interface, which simplifies operation for both novice and experienced users. The system comes equipped with advanced motion detection technology, enabling it to trigger recording only when movement is detected, significantly optimizing storage use. Moreover, it features remote access capabilities, allowing users to monitor live feeds and review recorded footage from virtually anywhere via smartphone or computer.

In comparison, the Toshiba DK40I offers enhanced features targeted towards users requiring higher processing power and larger storage capabilities. This model is equipped with advanced compression technologies such as H.264, which reduces file sizes without compromising video quality. It can support higher-resolution cameras, further enhancing the clarity and detail of recorded footage.

The DK40I also prides itself on its scalability, accommodating numerous input channels, making it suitable for expansive surveillance setups. Another significant feature is its sophisticated alarm management system, which can integrate with various security sensors and alarms, providing users seamless control over their security environment. The device also supports various video outputs, including HDMI and VGA, ensuring compatibility with a wide range of display systems.

Both models utilize Toshiba's commitment to reliability and performance, incorporating high-grade components designed to withstand the rigors of continuous operation. They are engineered for ease of maintenance, with options for firmware updates and technical support, ensuring that users benefit from the latest advancements in surveillance technology.

Overall, Toshiba’s DK14 and DK40I represent cutting-edge solutions in the realm of digital video recording, offering exceptional performance, versatility, and user-friendly features to cater to diverse surveillance needs.

Toshiba dk14 3-56, Typical LED Settings for Program, LEDs 17~20: Data Security Groups, LEDs 12~16

Models: dk14