KR930002584B1 - Electronic mail system with semiconductor memories - Google Patents

Abstract

The voice mail device for improving the life time and the reliability comprises: a controller (10) controlling the system; a subscriber connector (30) matching with the telephone network or the public network; a voice compressing reproducer (30) sending the voice signal to the subscriber through the subscriber connector; a signal processor (40) outputting digital data obtained by decoding the DTMF signal to the controller (10) as well as inputting the tone of various kinds of the private exchange system to the controller (10); a voice guiding section (60) informing the result of contents that the subscriber wants to know.

Description

Voice mail device having voice accumulator of semiconductor memory device

1 is a block diagram of a general voice mail apparatus.

2 is a block diagram of a conventional voice accumulator

3 is a configuration diagram of an audio storage unit of the semiconductor memory device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: control unit 20: interface

30: subscriber connection unit 40: voice compression playback unit

50: signal processing unit 60: voice guidance unit

70: system bus 80: voice accumulator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a voice mail apparatus, and more particularly, to a voice mail apparatus having a large capacity voice accumulator made of a semiconductor memory element.

A voice mail device is a device that compresses a voice signal and stores it in a mass storage device so that it can be reproduced as a voice signal when necessary.

1 is a conventional voice mail apparatus, comprising: a control unit 10 for executing system control by analyzing an input signal from a terminal 90 connected to an interface unit 20 for interfacing a signal with an outside; Subscriber connection unit 30 for matching the signal with the telephone network and the voice signal input through the subscriber connection unit 30 is compressed and output to a predetermined memory unit to record the voice, or to reproduce the input voice data to the subscriber The voice pressure side reproducing unit 40, which executes a reproducing function of giving a voice signal to the subscriber through the connecting unit 30, and decodes DTMF signals inputted through the subscriber connecting unit 30, thereby converting predetermined digit data into the control unit ( 10) and a signal processor 50 which decodes various tones from the local exchange CO or the private exchange PABX and inputs them to the controller 10 during the transmission process. The voice guide unit 60 performs a function of guiding a voice under the control of the control unit 10 so as to effectively use a voice mail device and informing a result of a desired content by the user, and the voice compression reproduction. The portion 40 stores the audio data compressed and reproduced in the section 40, and is mainly composed of an accumulation section 80 made of a Winchester Hard DBR (hereinafter referred to as WHD).

In the configuration of FIG. 1, reference numeral 90 denotes a terminal, which functions to input a command related to the operation of the voice mail apparatus.

2 is a block diagram of the first diagram storage unit 80, which includes a disk controller 81 and a hard disk HC.

First, the process of recording and reproducing general audio information in FIG. 1 and FIG. 2 will be described.

The DTMF signal through the subscriber connection unit 30 connected to the public network or the telephone network is input to the signal processing unit 50, decoded, and then input to the control unit 10. At this time, the controller 10 sends a voice signal for controlling the voice guide unit 60 according to the digit data output from the signal processor 50 to guide the subscriber.

The predetermined digits received by the voice guide unit 60 and output by the subscriber are decoded by the signal processor 50 through the subscriber connection unit 30 and input to the control unit 10 as described above. If the voice mail is to be serviced, i.e., recording a predetermined voice signal, the predetermined control signal is output to the system bus 70 and a predetermined recording control signal is output.

At this time, the general voice information through the subscriber connection unit 30 for connecting a signal through a public switched network or a telephone network is input to the voice compression reproduction unit 40 under the control of the control unit 10. The voice compression / reproducing unit 40 converts and compresses general voice information into a digital signal under the control of the control unit 40 to reduce the amount of information, and then sends it to the storage unit for recording on the hard disk HD by the disk controller 81. Since it is a key, voice information is accumulated and recorded.

When reproducing the voice information stored in the storage unit 80, the corresponding voice information is output to the voice compression regeneration unit 40 under the control of the control unit 10, and the voice compression regeneration unit 40 outputs this signal. Reproduces the general voice information on the telephone line through the subscriber connection (30).

The reason for compressing the voice information is to reduce the capacity of the storage unit 80 for recording the voice information, but the reduction (compression) of the voice information can be varied as necessary.

In implementing a voice mail device, in order to accumulate voice in a memory device, a large capacity memory of about 20-300M Byte is usually required, and the most widely used device is WHD as shown in FIG. In terms of performance ratio, it is known to be the best for voice mail device implementation.

However, the WHD MTBF (Mean Time Between Failure) of the storage unit 80 is about 15,000 to 30000 hours (power on time) in the case of a general commercial device, and corresponds to a time of about 2 to 3 years and has a very short lifespan. There is this. This is because the storage disc (recording medium) must be physically rotated by a motor when recording or reading data.

In addition, since the motor is rotated to rotate the memory disk, a lot of power is required and a lot of power is generated separately. Therefore, the biggest disadvantage of using WHD is that the mechanical movement is required and the service life is very short, thereby reducing the reliability of the entire voice mail system. In particular, the life of the communication system has been a factor of a big problem in that it should be several decades.

Therefore, an object of the present invention is to accumulate memos into DRAM or SRAM, which are semiconductor memory devices.

In this regard, the present invention provides a voice mail device that stably accumulates voice data in a low power and small size.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 is a circuit diagram of an audio accumulator according to the present invention, in which a plurality of storage memories M1-Mn made of DRAM or SRAM are connected in parallel and individually selected by predetermined control, and the bank of the storage memories M1-Mn described above. The first accumulation bank BN1 connected so that Bank is selected at the same time, and the second, third, fourth,..., Connected in the same configuration as the first accumulation bank BN1. The nth accumulation banks BN1-BNn and the direct memory access controller (DMAC) on the system bus 70 or the microprocessor (MPU) of the control unit 10 are the first, second, .... The storage buses M1-Mn + n in the nth accumulation banks BN1-BNn can be accessed individually and bank selected, and the address bus, data bus, System bus matching unit 120, in which control bus signals are matched to accumulation banks (BN1-BNn) and storage memories (M1-Mn + n), power input presence monitoring, switching to backup battery, and power input disconnection. It has a reporting function and is driven by a normal input power, and when the power goes out, it converts to a backup battery and supplies a predetermined power to the first-th n-th accumulation bank (BN1-BNn). do.

The configuration of the system bus matching unit 120 in the configuration of FIG. 3 is configured as follows.

If the number of address lines of the system bus 70 is nA, the maximum memory area that can be directly accessed from the system bus 70 axis is limited to addresses 0 to 2nA- ₁ . Since the accumulated memory capacity is much larger than the memory area directly accessed on the system bus 70, a bank selection address line is latched with an nB bit to delay the latch output. It is configured to select an accumulation bank by directly exiting 2nB = NB accumulation rank selection terminals.

The operation of the circuit configured as described above will be described with reference to the operation of FIG.

The address bits of nA and nC bits under control of the control unit 10 are input to the system bus 70 and compressed data of nD bits output from the voice compression / reproducing unit 40 is outputted to the system bus ( 70), it is input to the system bus matching unit 120.

At this time, the system matching unit 120 latches an nA address bit input through the system bus 70. The system bus matching unit 120 decodes the address of the latched nA bits and outputs NB accumulation bank selection signals BNKS.

If the NB accumulation bank selection signals BNKS access the first accumulation bank BN1, an address of the first accumulation bank BN1 is selected, and the system bus matching unit 120 is selected in the selected address area. The nD bits of data output from are accessed.

Therefore, the address of the above-described system bus matching unit 120. By data matching, it can be seen that voice data is accumulated and recorded in each accumulation bank BN1-BNn.

As described above, the present invention implements an accumulator with an accumulating memory using a semiconductor memory device having an MTBF of hundreds of thousands of hours or more, so that voice data can be accessed corresponding to the access speed of a system bus, thereby increasing the speed of the system and at the same time, a voice mail apparatus There is an advantage to improve the service life and reliability of the.

Claims (1)

A control unit 10 which controls each unit for each subscriber service, performs control of a system using a terminal or the like connected to an external interface unit 20, a subscriber connection unit 30 matching with a public network or a telephone network, and the like. Compression function to compress the voice signal from the subscriber access unit 30 and output it to a predetermined emoticon to record the voice, or to reproduce the input voice data and to play the voice signal to the subscriber through the subscriber connection unit 30. Decode the DTMF signal input through the voice pressure side reproducing unit 40 to be executed and the subscriber connection unit 30 to output predetermined digit data to the control unit 10, and at the same time, during the transmission process, the local exchange CO or the private network. The signal processor 40 which decodes various tones from the PABX and inputs them to the controller 10, and the subscriber (user) can effectively use the voice mail apparatus. In a voice mail apparatus having a voice storage unit of semiconductor memory having a voice guide unit 60 which performs a function of guiding voices under the control of the control unit 10 and informing a subscriber of desired contents. Or a plurality of accumulation decoding M1-Mn made of SRAM are connected in parallel and individually selected by predetermined control, and the first accumulation bank BNl connected so that the banks of the storage memories M1-Mn are simultaneously selected. Second, third, fourth,... Connected in the same configuration as that of the first accumulation bank BN1. Accumulation decoding (M1-Mn +) in the first, second, and n-th accumulation banks (BN1-BNn) of the n-th accumulation banks BN1-BNn and the DMAC on the system bus 70 or the MPU of the control unit 10. n) can be individually accessed and bank selected, and the address bus, data bus, and control bus signals in the system bus 70 are matched to the accumulation banks (BN1-BNn) and the storage memory (M1 + Mn + n). It has a system bus matching unit 120, a power input presence monitoring function, switching to a backup battery, a power input disconnection reporting function, and is usually driven by input power. The control unit comprises a power back unit 130 for supplying a predetermined power to the first-th n-th accumulation banks BN1-BNn, and the voice data compressed and reproduced by the voice compression playback unit 40 and information related thereto. Store in the accumulation memory element of the accumulation bank according to the bank selection control of (10). And a voice accumulating unit for semiconductor memory.

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