CS245017B1 - Reference voltage source - Google Patents

Description

A new feature in the reference voltage source is that the source contains two operational amplifiers, the first operational amplifier is connected between the emitter follower and the temperature-dependent voltage adjuster, its output is connected to the base of the emitter amplifier, the direct input of the first operational amplifier is connected to collector transistor of the temperature dependent voltage adjuster and collector load resistor, the inverting input is connected to the emitter tracer of the emitter follower and the first variable resistor · The second operational amplifier is connected between the temperature dependent voltage adjuster and the basic bias resistance chain, is connected to the output of the second operational amplifier, whose direct input is connected to the common connection of the resistors of the the inverting input is connected to the emitter junction of the temperature dependent voltage setting device and the emitter resistance ·

The reference voltage source relates to the field of electrical engineering and can be used in instrument manufacture and electronic measurement technology.

Claims (1)

A reference voltage source that includes, in series, a first current generator, a first stabilizing lamp, a temperature compensating resistor, a second current generator and a second stabilizing lamp, a load resistor, a third stabilizing lamp, a temperature-dependent voltage source connected in parallel with the temperature compensating resistor; comprising a transistor emitter follower and a temperature dependent voltage setting device comprising a collector load resistance, a transistor, a diode, an emitter resistor, and a basic bias resistor chain, wherein the emitter of the temperature dependent voltage setting device transistor is connected through a chain forming the emitter resistor and in the forward direction, to the common supply bus, the collector is connected through the resistance of the collector load to the connection of the second current generator and the cathode of the second stabilizing lamp, the anode of the second stabilizing lamp The emitter is connected to the power bus, the emitter is connected to the anode of the first stabilizing lamp and the temperature compensating resistor via the first variable resistance, the cathode of the third stabilizing lamp is through the load the resistor is connected to the power bus, its anode is connected via a second variable resistor to the common power bus, and the basic bias resistor chain is connected to the common power bus and second to the load resistor connection to the cathode of the third stabilizing lamp, operating temperature range includes two operational amplifiers, the first operational amplifier is connected between the emitter follower® and the temperature-dependent voltage adjuster, its output is connected to the base of the emitter sequence however, the direct input of the first opamp is connected to the collector junction of the temperature dependent voltage adjuster and collector load resistor, and the inverting input is connected to the emitter follower and the first variable resistor emitter junction while the second opamp is connected between the temperature dependent voltage adjuster and a base bias resistor chain, wherein the temperature-dependent voltage setting device transistor base is coupled to the output of a second opamp whose direct input is coupled to a common bias resistor chain connection and whose inverting input is coupled to the temperature-dependent voltage setting device emitter connector to the editor resistance ·