KR100207826B1 - Voice mail system using single processor - Google Patents

Abstract

The present invention relates to a voice mail system. SUMMARY OF THE INVENTION The present invention relates to a voice mail system having a processor and a data bus connected thereto to transmit predetermined signals, the voice mail system being connected to the processor for converting an external voice signal into a serial signal; A time slot section connected to each of the codecs to provide the necessary time slots to each of the codecs, a ROM unit connected to the data bus to boot the system, and a data bus connected to the data bus. And a RAM unit for executing a program and processing data, and a controller connected to an auxiliary storage device and a data bus to communicate with the processor through the data bus in parallel to write or read information into the auxiliary storage device. Multiplex the voice signal It characterized by Sikkim directly input to the processor.

Description

Voice mail system using a single processor

The present invention relates to a voice mail system using a single processor, and more particularly, to a voice mail system capable of directly controlling an auxiliary memory device and a line connection using one processor when implementing a small capacity voice mail system.

In general, a conventional speech processing system is constructed as follows. 1 is a block diagram showing a speech processing system according to an embodiment of the prior art. Referring to FIG. 1, the main controller 10 not only performs overall control of the system but also implements various functions. A board for controlling the auxiliary memory device 30, for example, the auxiliary memory controller 20 is used because these auxiliary memory devices are connected to a dedicated standard bus and used. Auxiliary storage control unit 20 for controlling such auxiliary storage devices, for example, a hard disk driver (HDD) and a floppy disk driver (FDD), is connected to a dedicated standard bus, that is, a system bus. The line connection unit 40 is connected to the system bus to perform the conversion of voice signals, detection of ring signals, detection of various tone signals, and the like. These boards are also connected to each other by a system bus. 2 is a block diagram showing a message transmission and a connection relationship between two general processors. Referring to FIG. 2, a first processor 50 and a second processor 70 interconnected to a common memory 60, and an adjusting circuit 80 connected to the common memory 60 and connected to the first processor 50 and the second processor 70, respectively. It consists of. Message transmission between the boards in FIG. 1 uses a common memory scheme using the common memory 60 described above. In this case, the common memory system includes a common memory 60 that can be shared between two processors, for example, the first processor 50 and the second processor 70, for example, a random access memory (RAM). Both connected processors 50 and 70 are accessible. At this time, the coordination circuit 80 is used to prevent collisions between processors due to bidirectional access. Therefore, when the voice mail system is implemented in this configuration, even a small system of 16 lines or less should be used as a basic processing device, so that the system becomes large and thus causes a material cost increase.

SUMMARY OF THE INVENTION An object of the present invention is to provide a voice mail system capable of transmitting and receiving a voice signal through a highway using a processor capable of voice transmission and reception (for PCM signals).

Another object of the present invention is to provide a voice mail system for multiplexing a voice signal using a controller to directly control the processor.

1 is a block diagram showing a speech processing system according to an embodiment of the prior art.

2 is a block diagram showing a message transmission and a connection relationship between two typical processors.

3 is a block diagram illustrating a voice mail system according to an embodiment of the present invention.

According to the technical idea of the present invention for achieving the above object, in the voice mail system having a processor and a data bus for transmitting predetermined signals, the voice mail system is connected to the processor to receive a voice signal from the outside Cordual parts for converting into serial signals, a time slot part connected to the processor and a data bus and connected to each of the cocu parts to provide necessary time slots to each of the co-bucks, and connected to the data bus to boot a system. A ROM unit connected to the data bus, a RAM unit for executing a program and processing data, and connected to an auxiliary memory device and a data bus to write or read information into the auxiliary memory device in parallel. Cones for communicating with the processor through Provided with a roller multiplexing the speech signal and has features Sikkim directly input to the processor.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings.

3 is a block diagram illustrating a voice mail system according to an embodiment of the present invention. Referring to FIG. 3, a processor 100 connected to a system bus, for example, a data bus, a digital signal processor (DSP) 800 connected to the processor 100 and a data bus, and a memory unit connected to the digital signal processor 800. 900, a time slot unit 200 connected to the data bus, a ROM unit 300 connected to the data bus, a RAM unit 400 connected to the data bus, and the data bus. A SCSI controller 500 connected to the controller, an auxiliary storage device 600 connected to the SCSI controller 500, a time slot unit 200 connected at one side to the data bus and connected at the other end to codecs 701 to 705, and the processor. Two lines are connected between 100 and the digital signal processor 800, each having channels 0 to 31 and connected to the time slot unit 200. It is made. The time slot unit 200 is connected to the processor 100, which is a central processing unit, as a data bus, and is used to provide necessary time slots from Codack 0 to Codack 31. The Pulse Code Modulation (PCM) rate of voice signals is 8 kilobytes × 1 byte / sec (64 kbps), which can accommodate 32 channels at a highway speed of 2.048 MHz. Thus, one highway can accommodate 32 voice channels. Kodak 0 to Kodak 31 (701 to 705) perform the conversion of voice signals. The ROM unit 300 is a memory for booting the system. The RAM unit 400 is used for program execution and data processing. The SCSI controller 500 uses a chip that supports SCSI-2, making it easy to use hard disk drivers, floppy disk drivers, and so on. The central processing unit, for example the processor, all the memory and peripherals are connected by a data bus and the voice channel is connected by highway. For example, upon detection of a ring signal on channel 0, the processor 100 hooks off the corresponding line and reads the voice announcement in the auxiliary storage device 600 and converts the voice signal from the codec 1 to the voice signal (analog signal) through the highway. The caller hears the prompt. The subscriber presses the desired button according to the guide sequence. At this time, the dual frequency (MFMF) signal of the pressed button is detected by the digital signal processor 800 and transmitted to the processor 100. The processor 100 performs an appropriate operation (SVC) based on the detected signal. If you are recording audio, the codecs convert the pulse-coded serial signal and then the processor in parallel to the SCSI controller and then to a secondary storage device, such as a hard disk. During playback, they are read in parallel by the processor from the hard disk through the SCSI controller, then converted back into serial input and input into the codec input. Here the subscriber converts the analog signal and listens.

According to the present invention described above, the use of a single processor can reduce space, cost, and labor and reduce the number of parts compared to multiprocessing in a general voice mail system. There is an effect to be improved.

Although the present invention described above has been limited to, for example, the drawings, the same will be apparent to those skilled in the art that various changes and modifications can be made without departing from the technical spirit of the present invention.

Claims (1)

A voice mail system having a processor and a data bus connected thereto for transmitting predetermined signals, Corde parts connected to the processor for converting a voice signal from the outside into a serial signal, A time slot portion connected to the processor and a data bus and connected to each of the codecs to provide the necessary time slots to the codecs; A ROM unit connected to the data bus to boot a system; A RAM unit connected to the data bus for performing a program and processing data; A controller is connected to an auxiliary memory device and a data bus, and has a controller for interacting with the processor via the data bus in parallel to write or read information into the auxiliary memory device. A voice mail system characterized by the above.

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