This paper describes a new circuit integrated on silicon, which generates temperature-independent bias currents. Such a circuit is firstly employed to obtain a current reference with first-order temperature compensation, then it is modified to obtain second-order temperature compensation. The operation principle of the new circuits is described and the relationships between design and technology process parameters are derived. These circuits have been designed by a 0.35 m BiCMOS technology process and the thermal drift of the reference current has been evaluated by computer simulations. They show good thermal performance and in particular, the new second-order temperature- compensated current reference has a mean temperature drif...
A low-power CMOS current reference circuit was developed using a 0.35-μm standard CMOS process techn...
Abstract—This paper presents a low temperature coefficient BiCMOS voltage reference circuit designed...
Mixed-signal or analog chips often require a wide range of biasing currents that are independent of ...
Abstract A new high order CMOS temperature compensated current reference is proposed in this paper, ...
A novel current reference circuit that compensates for process and temperature variations without an...
[[abstract]]This paper describes a circuit, which generates temperature-independent bias currents. I...
[[abstract]]This paper describes a circuit, which generates a low temperature-dependent bias current...
An AU-CMOS temperature independent current reference circuit was designed by eliminating the mobilit...
This paper for the first time describes a programmable and high-precision temperature independent cu...
In this paper a novel CMOS temperature and supply voltage independent current reference has been pro...
[[abstract]]A current reference generator with a proposed compensation circuit against temperature v...
A high precision temperature insensitive current and voltage reference generator is presented. It is...
This paper describes a resistorless current reference source, e.g. for fast communication interfaces...
An integrable temperature compensation technique for CMOS current controlled current conveyor (CCCII...
Abstract-A CMOS voltage reference, which is II. CIRCUIT DESIGN based on the same magnitude of gate-s...
A low-power CMOS current reference circuit was developed using a 0.35-μm standard CMOS process techn...
Abstract—This paper presents a low temperature coefficient BiCMOS voltage reference circuit designed...
Mixed-signal or analog chips often require a wide range of biasing currents that are independent of ...
Abstract A new high order CMOS temperature compensated current reference is proposed in this paper, ...
A novel current reference circuit that compensates for process and temperature variations without an...
[[abstract]]This paper describes a circuit, which generates temperature-independent bias currents. I...
[[abstract]]This paper describes a circuit, which generates a low temperature-dependent bias current...
An AU-CMOS temperature independent current reference circuit was designed by eliminating the mobilit...
This paper for the first time describes a programmable and high-precision temperature independent cu...
In this paper a novel CMOS temperature and supply voltage independent current reference has been pro...
[[abstract]]A current reference generator with a proposed compensation circuit against temperature v...
A high precision temperature insensitive current and voltage reference generator is presented. It is...
This paper describes a resistorless current reference source, e.g. for fast communication interfaces...
An integrable temperature compensation technique for CMOS current controlled current conveyor (CCCII...
Abstract-A CMOS voltage reference, which is II. CIRCUIT DESIGN based on the same magnitude of gate-s...
A low-power CMOS current reference circuit was developed using a 0.35-μm standard CMOS process techn...
Abstract—This paper presents a low temperature coefficient BiCMOS voltage reference circuit designed...
Mixed-signal or analog chips often require a wide range of biasing currents that are independent of ...