DE2407040C2 - Method for the remote measurement of a resistance that is variable by a physical quantity - Google Patents

Description

^ Ά ^^^^^^ Ά * SÄeriStSSausführung adhered to / are the measuring ^m "f ^en · , _t . _EiTltw , _{mär the} task a process

is performed and decoupled there.

2. Circuit arrangement for carrying out the ao

Method according to Claim 1, characterized in that _e . _{the procedure}

draws that the primary winding of a transfer tine solution aer ^ & «^ _u _ ^ _ ^" ^ .. "u"

of the transformer (7) a circuit (9) for the generation

tor (Cl), at whose connections (14) the receiving location is fed and there. ^ Bf pp
drops above the variable resistance (3) With this method it is possible to

lende measuring equal span (t / =) is removable. The advantages of a complex two-wire connection. 3. Circuit arrangement for the implementation of the per se ideal Vieita connection: zu_ Erzie-method according to Anspnfcb 1, characterized by the fact that the Spe sequelle distinguishes that the variable Resistance (3) Resistance moved to the measuring location and there is part of a bridge circuit (12) whose measuring / receiving location is supplied
diagonal (a, a ') in series with the primary winding Description of Ausfuhstromquelle (6) is connected and that the approximately examples in conjunction with the drawings. Feed diagonal (b, b ') of the bridge circuit Fig. 1: A located at the measuring location 1, through a

(12) is connected to a constant voltage source (13) - physical variable, for example the temperature, which is in the secondary circuit of the transfer resistance 3 is via two conductors 4, 4 mators (7), and that at the receiving location (2 ) connected to the line resistors 5 with a receiving location 2 located on a conductor of the two-wire connection (4, 4 ') away from the measuring value association filter capacitor (C1) for decoupling the working circuit. The supply of the variable measurement DC voltage (12) taken from the measurement DC voltage 50 stand 3 required for measurement on the measurement diagonal (α, α ') of the bridge shell takes place from a current which is also located at the measurement location 1 W =) and emits an impressed current

Current source 9. For this purpose, the resistor 3 is connected in series with the primary winding of a transformer 7. In addition, he is with the outcome of the

S5 constant current source 9 connected. The latter consists in

essential from one of the secondary winding of the transformer? powered judges'

The invention relates to a method for the device with the rectifiers 10, 10 ', the charging con-fem measurement of a capacitor C 2 by a physical variable and a circuit 11 that generates a variable resistance that is generated by means of a two-60 imprinted current. The transformer 7 on the conductor connection to a measuring location 1 located at the Etnpfangsort is fed via the two conductors 4, 4 from the liehe measured value processing circuit connected to the receiving location 2 alternating current, source 6. The AC supply voltage is selected in such a case of known methods for remote sensing "that the self-heating of Widerstandütch variable physical quantity 65 of 3 remains small compared to the measured effect. The voltage drop across the resistor, for example a Widerstandsther- resistor 3 MEASUREMENT" DC voltage U = mometers, goes with the effort and assembly diagrams on the screen condenser located at the receiving location 2 in one of the two cheap two-wire connections between the wire, here in the wire 4 '

Sator C1 and can at its terminals 14 to further processing.

A modified embodiment of a circuit arrangement for carrying out the method according to the invention is shown in FIG. Corresponding parts are given the same reference numerals as in FIG. In 1 The variable resistor 3 at the measuring point 1 is located here in a Bruckensch-Tltung 12, DeReG measurement diagonal α, ä in series with the primary winding of a transformer 7 is located, the supplied via the bridge 12 from the angeschlosseneu to the Wechselstromquelleö conductors 4, 4 ' will. A constant voltage source 13, which in turn from the secondary circuit of the transformer? is supplied, the bridge 12 feeds via its feed diagonal b, V with constant DC voltage. The arrangement of the variable resistor 3 in the bridge circuit 21 has the further advantage, known per se, that the start of the measuring range can be determined as desired by appropriate selection of the bridge resistances, ie a zero point suppression can be carried out. The measurement signal is picked up in the bridge diagonal, to which the conductors 4, 4 'are also connected, in the manner already indicated above.

The bridge circuit 12 can of course also consist of a direct current source with impressed Direct current are fed.

1 sheet of drawings

Claims (1)

Resistance located at the measuring location and the patent claims processing the measured values located at the receiving location: "Dudiung the resistance of the connection lines ^ i. -; "Ha" trade fair result. These line resistances 1. Procedure for Fenunessimg a to be taken into account by a mto mw g, Physical quantity of variable resistance, 5 «J« "™ ^ £ _ΜεΓ , which is caused by the change in resistance caused by Tempeder by means of a two-wire connection to the measured value processing located at the receiving location rjurga _ρ ^ ^ ^^ ^ tende circuit is connected, characterized J ^ ⁰ Jf ^ ™ complex four-wire connection that the variable ^ ™ Z ^e ^ _ohei \ _wei te _{itei deT} flows resistance (3) from a connection at the measuring location (l) ^ ^he _M ; ^N _ß ' _{resistance & eiieai the} other little ones, an imprinted GkUU ^ I «« £ ff iSer 5ΓS ^ ungsmessage on this