DE1947100C3 - Amplifying push-pull sampling switch - Google Patents

Description

(R3, A4) are connected in parallel with each other and the 15 with transistors will represent the task according to the invented sampling pulse input, and that a connection is solved by making two complementary tranches the emitter of the second transistor (7! $ 2)
and reference potential switched resistor (Ä2)
as well as the other resistances are dimensioned in such a way that
that the effect of one is exclusively through one
Sampling pulse at the collector of the first transistor
(TsI) caused voltage change on

Signal output (A) is compensated for by the corresponding change in voltage at the collector of the second transistor ( Ts 2).

2. Push-pull sampling switch according to claim 1, characterized by its multiple uses for the transmission-side scanning of several transistors together to form the pulse frame of a time multiplex system are provided ,, that also the base of the connected via a resistor to reference potential first transistor the signal input and the over

Capacitors connected in parallel collectors of the two transistors form the signal output that In addition, the emitter of the first and the base of the second transistor are parallel to each other via resistors are switched and represent the sampling pulse input

put, and that one between the emitters »of the second The transistor and the reference potential switched resistance as well as the other resistances are dimensioned in this way are that the effect of an exclusively generated by a scanning pulse at the collector of the first

channels to be connected, in such a way that all outputs 30 interfering with the voltage change at the signal of the sampling switch to a common output output A through the corresponding voltage change

tion compensated for at the collector of the second transistor will.

In time division multiplex systems, the

are connected in parallel to each other and that the sampling pulses for the individual switches are mutually opposite are staggered in time.

3. Push-pull sampling switch according to claim 1, 35-like sampling switch with one of the channels accordingly marked by its multiple Verv.cn- chenden number either for scanning on the transmit side

a number of channels to be combined to form the pulse frame and also for channel distribution at the receiving end are used,
dii Ab

p e inel

are staggered in time.

application in a receiving-side channel distributor of a time division multiplex system, such that the signal inputs the sampling switch to a common

Input are connected in parallel to each other, and that 40 to the transmission-side sampling of a number of to to summarize the sampling pulses for the individual switches Channels are all outputs of the sampling switch to a common output to each other connected in parallel, and the sampling pulses for the individual switches are offset in time from one another.

If, on the other hand, the push-pull sampling switches are to be used in a receiving-side channel distributor of the time division multiplex system, the signal inputs of all sampling switches must be connected in parallel to one another to form a common input and the sampling pulses for the individual switches are again offset in time. The signals of the individual channels can then be taken from the outputs of the corresponding push-pull sampling switches.
technology both for the combination of several Si

Signal channels at the sending location as well as for the separation of the exemplary embodiment, the invention is to be used in the following signal channels at the receiving location. It is to be explained in more detail. It shows
desirable to use arrangements in which the Fi g. 1 the circuit of a push-pull scanning

Sampling pulse, the frequency of which is mostly double the 60 ters according to the invention,

highest signal frequency, at the output of Fig. 2 the block diagram of a transmission-side Ab '

scanning device of a time division multiplex system with push-pull scanning switches according to Fig. 1,

3 shows the block diagram of a channel distributor, a time division multiplex system with push-pull sampling switches according to Fig. 1,

Fig. 4 is a timing diagram of the sampling pulses for the individual sampling switch according to FIG. 2 or 3.

The invention relates to an amplifying push-pull sampling switch with transistors, especially for single multiplex systems.

In electrical communications technology and especially in pulse modulation and time division multiplex technology Sampling switches are required which periodically sample a signal with the aid of a sampling pulse. Of the-

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Sampling switch is largely suppressed. Otherwise there will be additional filters in the transmission path necessary. Push-pull sampling switches meet this requirement.

Known sampling switches are usually built to be passive. The implementation of passive push-pull switches can with at least one transformer and

The push-clock sampling switch shown in Fig. 1 with the signal input E, the signal output .4 and the clock pulse input T has the transistors Ts I and Ts 2.

The base of the transistor Ts 1 is connected via the capacitor Cl to the signal input £ and via the resistor A1 to reference potential. The clock pulse input Γ is connected to the emitter of the transistor Ts 1 via the resistor A3 and to the base of the transistor Ts 2 via the resistor R 4. The signal output is connected to the collector of the transistor Ts 1 via the capacitor C 2 and to the collector of the transistor 7s 2 via the capacitor C 3. The collectors of the transistors Ts 1 and Ts2 are switched off via the load resistors Λ5 and R 6 to the operating DC voltages + U _t and - U _b . The operating point of the transistor Ts 2 can be set using the variable resistor Λ 2 between the emitter and the reference potential.

Fig. 2 shows the interconnection of push-pull sampling switches S ₁ ... S _{n of this type} to form a sampling device on the transmission side of a time division multiplex system for η channels. Here, the outputs of the push-pull sampling switches S ₁ .. .S _n assigned to each channel are connected in parallel to one another to form a common output A _g. The inputs E ₁ ... E _n are fed with the signals of the individual channels. The sampling pulses at the sampling pulse inputs T ₁ . ..T _n S are staggered in time.

3 shows a corresponding interconnection of push-pull sampling switches S ₁ ... S _n to form a receiving-side channel distributor of a time division multiplex system. The signal inputs of all sampling switches are ίο here connected in parallel to a common input ^. The sampling pulses at the sampling pulse inputs Ti ... T _n are in turn offset in time with respect to one another.

FIG. 4 shows a pulse diagram and for the sampling pulses at the sampling inputs T ₁ ... T _n according to FIGS. 2 and 3.

The scanning pulses have a maximum width of

-, where Γ is the sampling period and «the number of

Channels or push-pull sampling switches are and are each offset from one another by this pulse width. All push-pull sampling switches are therefore within a sampling period of the sampling repetition frequency operated once.

20th

1 sheet of drawings

Claims (1)

Patent claims: 1. Push-pull sampling switch with transistors, in particular for Zeitmultiplexsy stars, characterized in that two complementary transistors (7Sl, Ts2) are provided, that also the base of the first transistor (TsI) connected to reference potential via a resistor (Al), the signal input ( £) and the collectors of the two transistors, connected in parallel via capacitors (C2, C3), form signal output [A) , since # In addition, the base of the second transistor via resistors per 'Erötter des e | s | en ujsfl IO can be carried out with two diodes or with a transistor of symmetrical type. Here, the circuit with a transfer has the advantage that a smaller control power is required even for a diode circuit will. In addition, such a circuit is useful the pairing of components. On the other hand, when the cheaper and more reliable transistors of the non-symmetrical type are used, the control performance is lower severely limited because the permissible emitter-base voltages of these transistors are relatively small. The invention is based on the object of providing a specify amplifying push-pull sampling switch, . 4er bypasses the difficulties mentioned above. Looking from a push-pull sampling switch