FR2552287A1 - Connection device between a telephone responder and a tape recorder - Google Patents

Abstract

Cassette interface to ensure the connection between a device of the telephone responder type and a tape recorder, characterised, on the one hand, in that it comprises: a. a recording circuit composed: - of an IC inverter 5 amplifying the signal output by the responder, and driving a divider bridge R 46 R 47; - a resistor-capacitor network R 48, C 39 following the divider bridge R 46, R 47; b. a reading circuit composed of: - an operational amplifier IC 41 mounted as a band-pass filter; - a plurality of variable threshold triggers IC 40 following the operational amplifier IC 41, one operating on the positive half cycles of the signal, the other on the negative half cycles; - and means IC 42, IC 5 for recreating a correct signal.

Description

 The present invention relates to an interface called cassette player interface or cassette interface to provide the connection between a device of the telephone answering machine type and a tape recorder.

 Interfaces of this type are already known but they are generally designed or adapted for a specific type of tape recorder.

 The object of the present invention is to provide a cassette player interface the most universal possible.

That is to say that by simply connecting a tape recorder without special characteristics, it is possible to replay a file recorded on magnetic tape. This electronics must be designed to be virtually independent of the level of the signal from the reader (even if it is modulated in amplitude by radiation of the transformer on the reading head of the tape recorder).

The cassette interface must provide a dual function
- Playback of files recorded on tape,
- Backup of files on tape, and its imposed characteristics are mainly
- Recording mode used of type "pulse width modulation"
- Autoadaptation to the unwinding speed of the tape
- Autoadaptation to the J form of the returned signals (Inversion introduced by some cassette players)
- Allows the use of the majority of mainstream consumer tape recorders
- The bandwidth and the wow rate of the reader are not critical.

The type of tape used does not affect the performance of the interface
- Electronic part requiring no adjustment
- Soft management of the interface: no specific electronic circuits (modulator -PLL)
- High transmission speed (about 2400
baud)
- Insensitive to the input level
- Insensitive to input level variations.

 Figure I shows the electronic circuit of the cassette interface object of the present invention.

 Figure 2 is a timing of the signals.

According to the preferred embodiment of the invention, the electronic circuit comprises at least
A. a recording circuit
B. a reading circuit composed of
- an input amplifier
a plurality of variable triggers
- a level translator.

 A. Recording circuit.

 The signal to be recorded, originating from a programmable timer of the answering circuit, is amplified by an inverter (IC 5), which drives a divider bridge consisting of two resistors of 4.7 Kohm and 470 Ohm (R 46) (R 47) . The signal thus obtained has an amplitude of 0.45 volts. Behind this divider bridge is a resistor-capacitor network (R 48, C39) (470 Ohm-47 nanofarad) acting as a low-pass filter, the fronts coming out of the TTL inverter will be beech smoothed by this network RC for present a more rounded signal to the recording amplifier of the cassette recorder.

The transfer function of this filter thus constituted is
F (P) = I + RCp
i + RCp
The cutoff frequency is therefore F = 2n RC HZ with
2fl RC
R in Ohm and C in Farad. For this application the cutoff frequency is F = 7, 2 Khz.

 B. Reading circuit.

 The different tape recorders can be played at the output of the playback preamplifier or the power amplifier (ie at the loudspeaker).

 The analog signal received from the tape recorder is amplified on the card and then processed by two variable threshold triggers, each output, reset TTL level, attacks a latch R.S to recreate the appropriate logic signal.

 The input amplifier consists of a simple operational amplifier (IC 41) mounted as a bandpass filter.

 The signal from the tape recorder passes through a series capacitor-resistance R.C. network (R 43, C38).

The feedback of the operational amplifier is constituted by a resistor / capacitor network in parallel (R '// C') or (R 42, C 37) in FIG.

The transfer function of the input cell

<tb><SEP> 1 <SEP> + <SEP> RC
<tb> is <SEP> F <SEP> E <SEP> (P) <SEP> = <SEP> RC <SEP> p- <SEP> and <SEP> for <SEP> the <SEP> cell <SEP> of <SEP> counter-reaction
<tb> F5 <SEP> (F) <SEP> = <SEP> R <SEP> p <SEP> The <SEP> function <SEP> of <SEP> transfer <SEP> of <SEP> the amplifier
<tb> F <SEP> (p) <SEP> = <SEP> R <SEP> the <SEP>R'C'<SEP><SEP> of <SEP><SEP> function of <SEP> amplifier
<tb> d <SEP> enter <SEP> is <SEP> so <SEP>: <SEP> F (P) <SEP> = <SEP> F <SEP> E <SEP> (F) <SEP> (1 + RC) <SEP> p <SEP> i + R'C '<SEP>)
<tb><SEP> Ir,
<tb> the input cell behaves like a high-pass filter of cutoff frequency
F (P) = in Hertz
2 n RC and the feedback cell of the amplifier behaves as a low-pass filter of cut-off frequency

<tb><SEP> F (H) = <SEP> 2 <SEP> RtCt <SEP> in <SEP> Hertz <SEP> i
<tb> The <SEP> gain <SEP> of <SEP> amplifier <SEP> is <SEP>: <SEP> G <SEP> = <SEP> R <SEP> + <SEP> C '
<tb><SEP> R '<SEP> C
<tb> in the case of the videotex answering machine, the values of the input amplifier are R = 2.2 Kohm and C = 47 NFarad (R 43 and C 38 numerical values)
R '= 180 Kohm and C' = 0.3 NFarad (numerical values of R 42 and C 37),
which gives by calculation
F (B) = 1.54 kHz, F (H) = 2.95 kHz and G = 54.

 Behind the input amplifier (IC 41) are the two variable threshold triggers (IC 40). One works on the positive alternations of the signal coming from the amplifier, and the other on the negative alternations of the same signal. The level difference for triggering the trigger is set by the forward diode voltage on the (+) input of each operational amplifier.

A resistor-capacitor network in parallel (R 38) (C 34), (R 40), (C 35), is implanted on the input (+) of each trigger. This capacitor will charge during positive alternation for example. Then from the maximum of this alternation passing through the negative half-wave until the next positive alternation the capacitor will discharge into the parallel resistance.

 By way of example, FIG. 2 shows a curve (LI) representing a simplified signal, a curve (L 2) representing the capacitor charge (C 34) on the positive half-waves and (L 3) representing the capacitor charge. (C 35) on the negative alternations. The discharge of the capacitor is calculated to be about 50% of its charge during the next alternation, this for the highest frequency of recorded signals, this assembly is intended to eliminate any parasitic rebounds from the signal coming from the tape recorder usually around zero (thanks to the bandpass filter mentioned above).

The calculation of the capacitor discharge gives
for R = 22 Kohm and C = 10 Nfarad calculate the minimum time for a discharge of 50 Z, the equation giving the discharge of a capacitor is V '= Ve (-RC)', V being the initial charge and V ' the charge at the end of time T.

So V '= (-T) d or T = RC In the hypothesis Ze computing being V' = 50% V, this leads to T = 152.5 Microseconds which corresponds to a little more than half a period of the signal highest frequency. The capacitor charging and discharging system thus makes it possible to adapt to any variations in the amplitude of the signal emitted by the cassette player whether it is a constant slope variation or a modulation due to the sector transformer's radiations on the reading head. for example. The timing of the different signals is shown in Figure 2
S1: Trigger output positive alternations
S2: Trigger output negative alternations
2
S3 and S4: control signals of the flip-flop (IC 5)
53 and 54
55: exit of the rocker (IC 5).

The signals leaving the trigger (IC 40) having an amplitude of +12 to -12 volts are reset to a TTL level (5 volts) by the level translator circuits (IC 42). The outputs of these circuits enter into a latch R.S (IC 5) to recreate a correct periodic signal because each trigger gives only one pulse for the extreme values of the signal coming from the input amplifier,

Claims (1)

 UNIQUE CLAIM.  Cassette interface for connecting a telephone answering device and a tape recorder, characterized in that it comprises  A. a compound recording circuit  - an inverter (IC 5) amplifying the signal from  answering machine, and attacking a divider bridge  (R 46) (R 47)  a resistor-capacitor network (R 48, C39)  following the divider bridge (R 46) (R 47).  B. a reading circuit composed of  - an operational amplifier (IC 41) mounted  as a band pass filter  a plurality of variable threshold triggers  (IC 40) following the operational amplifier  (IC 41), one working on alternations  positive signal, the other on the alternations  negative.  - and means (IC 42) (IC 5) to recreate a  correct signal