Abstract:
A microphone sensitivity-changing apparatus used with a tape recorder whose recording or playback mode can be paused and whose microphone has its sensitivity changed in accordance with the object for which said tape recorder is applied, the improvement being that a first switch for instructing the pause mode and a second switch for instructing the changeover of the sensitivity of the microphone are operated interlockingly with each other.

Description:
BACKGROUND OF THE INVENTION 
     This invention relates to a tape recorder whose microphone has its sensitivity made changeable in accordance with the object for which said tape recorder is applied. 
     A midget portable tape recorder is applied mainly for recording by a microphone. The condition under which recording is carried out by a microphone varies with circumstances. Where recording is undertaken with a microphone set apart from a sound source (hereinafter referred to as &#34;off-mike recording&#34;), for example, in a conference, then the microphone is preferred to have a high sensitivity. Where so-called dictation recording is carried out (hereinafter referred to as &#34;on-mike recording&#34;), then the microphone is desired to have a relatively low sensitivity. A tape recorder applied to the above-mentioned off-mike and on-mike recording is generally provided with an automatic level control (ALC) circuit such as an automatic gain control (AGC) unit or limiter. However, the level of an input to a microphone widely varies between, for example, comference recording (off-mike recording) and dictation recording (on-mike recording). Therefore, the ordinary simple low grade ALC circuit can not follow such noticeable variations in the level of an input to a microphone. 
     In other words, a tape recorder should be equipped with a sensitivity-changeable microphone in order to be suitably used not only for conference recording but also for dictation recording. 
     With the conventional portable tape recorder, a pause button for effecting a pause, and a switch for changing the sensitivity of a microphone are independently provided. Therefore, the outside of the known portable tape recorder has to be fitted with at least two switches for the pause mode and sensitivity-changing mode. This arrangement obstructs the miniaturization of an extremely small tape recorder such as a microcassette type. Further, an independent microphone sensitivity-changing switch should be shifted for each object of recording, thus involving troublesome work. 
     SUMMARY OF THE INVENTION 
     This invention has been accomplished in view of the above-mentioned circumstances, and is intended to provide a microphone sensitivity-changing apparatus in which a pause button and microphone sensitivity-changing switch are interlockingly operated to change the sensitivity of a microphone interlockingly with the actuation of a pause button. 
    
    
     BRIEF DESCRIPTION OF THE DRAWING 
     FIG. 1 is a circuit diagram of a microphone sensitivity-changing apparatus embodying this invention; and 
     FIG. 2 is a modification of FIG. 1. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     To avoid duplication of description, the same or similar parts are denoted by the same numerals throughout the drawing, description thereof being omitted. 
     FIG. 1 shows an arrangement of a microphone sensitivity-changing apparatus according to one embodiment. Description is only given of the case where recording is carried out. A recording circuit 12 provided with an ALC circuit 10 is connected to a recording head 14. This recording head 14 is biased by a bias current delivered from a bias oscillator (not shown). The recording circuit 12 is supplied with an output signal from a built-in microphone 18 through a changeover junction of an input jack 16. The microphone 18 is formed of, for example, an electret condenser microphone. One end of the microphone 18 is grounded. The other end of the microphone 18 from which an output is sent forth is connected to a power supply line 20 through a series circuit formed of a resistors R10 and R12. These resistors R10 and R12 act as load resistors for the microphone 18. The sensitivity of the microphone 18 varies with the value of the impedance of said load resistors. 
     The resistors R10 and R12 are connected at their junction to a contactor of a microphone sensitivity-changing switch 22 (a second switch). The first contact of the switch 22 is connected to the other end of the resistor R12. The second contact of the switch 22 is left idle. The switch 22 is operated interlockingly with a pause switch 25 (a first switch). The switches 22, 24 jointly constitute a 2-gang, 2-contacts and 3-positions switch system 25, whose operation is changed over interlockingly with a slider type pause button (not shown). The first and second fixed contacts of the pause switch 24 are connected to the power supply line 20. The movable contact of the pause switch 24 is connected to a motor control circuit 26. This motor control circuit 26 constitutes an electronic governor or servo circuit for controlling the running speed of a motor 28. Said motor control circuit 26 may be formed of, for example, a model TCA 955 manufactured by Siemens Co., West Germany. When the motor control circuit 26 is supplied with power from the power supply line 20, then the motor 28 is driven at a prescribed speed. The power supply line 20 is connected to the positive pole of a battery 34 through a main switch 30 and the changeover contact of an external power supply jack 32. The negative pole of the battery 34 is grounded. 
     Where, as shown in FIG. 1, the microphone sensitivity-changing switch 22 and pause switch 24 respectively have the first contact selectively operated, then the motor control circuit 26 is supplied with power, and the resistor R12 is short-circuited. In this case, the resistor R10 alone acts as a load resistor for the microphone 18, causing the microphone 18 to decrease in sensitivity. This condition is adapted at the time of, for example, dictation recording. Where the pause button is set for the pause mode, then the contactors (movable contacts) of the switches 22, 24 take a neutral position as indicated in a broken line in FIG. 1 in which said contactors do not touch either the first or the second contact fixed. At this time, the motor control circuit 26 ceases to be supplied with power, thereby ensuring the pause mode. As a result, the resistor R12 is released from a short-circuited state, and the load resistance to the microphone 18 is increased to R10+R12, causing the microphone 18 to have a high sensitivity. As described above, during dictation or on-mike recording, the pause button causes the switches 22, 24 respectively to have their conditions changed from the first contact position to the neutral position. 
     In contrast for conference recording or off-mike recording, the pause button causes the switches 22, 24 respectively to have their conditions changed from the neutral position to the second contact position. In this case, the motor control circuit 26 is supplied with power through the second fixed contact of switch 24. The load resistance to the microphone 18 is always set at R10+R12. As a result, the microphone 18 retains a high sensitivity. According to the arrangement shown in FIG. 1, the low and high sensitivity modes of the microphone 18 are selected by the operation of a single pause button. At the pause mode, the microphone 18 always has a high sensitivity. The reason for this is as follows. 
     During dictation or on-mike recording, the recording mode and pause mode frequently take place. The ALC circuit 10 quickly decreases in gain or falls when the microphone 18 is supplied with a large input. Conversely where the microphone 18 receives a small input, the ALC circuit 10 slowly increases in gain or rises. Such different speeds in the rise and fall of the ALC circuit are effectively utilized to save the listener from an unnatural sense of hearing at the subsequent reproduction of the sound recorded in a magnetic tape through the microphone 18. The advantages of letting the microphone retain a high sensitivity at the pause mode are that since the ALC circuit 10 still has a relatively low gain immediately after the microphone condition is shifted from the pause mode to dictation recording, it is possible to suppress mechanical noises or the transient noises of an amplifier system which generally arise right after the pause mode is released; and when recording is commenced, dictated sounds do not lose clearness, making it possible to carry out good dictation recording even after the release of the pause mode. 
     If, conversely from the foregoing description, the microphone 18 is allowed to have a low sensitivity at the pause mode, then the ALC circuit relatively increases in gain, readily obstructing the clearness of recorded sounds, for example, by the above-mentioned transient noises of the amplifier system at the start of recording. 
     Although specific constructions have been illustrated and described herein, it is not intended that the invention be limited to the elements and constructions disclosed. One skilled in the art will recognize that other particular elements or sub-constructions may be used without departing from the scope and spirit of the invention. For example, the switch system 25 may be of a 3-circuit type by also including a switch 23 as shown in FIG. 2. Further, it is possible to couple a low-cut (i.e., high pass) filter 40 to the additional 1-circuit switch 23. The on-mike recording generally tends to muffle sounds, though the extent of said muffling varies with the characteristics of a microphone used. Where, therefore, the low frequency region of an input to a microphone is cut at dictation recording, then sounds can be recorded more clearly. The aforesaid microphone sensitivity-changing switch 22 and pause switch 24 may be replaced by transistor switches.