Abstract A new high order CMOS temperature compensated current reference is proposed in this paper, which is accomplished by two first order temperature compensation current references. The novel circuit exploits the temperature characteristics of integrated-circuit resistors and gate-source voltage of MOS transistors working in weak inversion. The proposed circuit, designed with a 0.6 μm standard CMOS technology, gives a good temperature coefficient of 31ppm/ ℃ [−50~100℃] at a 1.8 V supply, and also achieves line regulation of 0.01%/V and −120 dB PSR at 1 MHz. Comparing with other presented work, the proposed circuit shows better temperature coefficient and Line regulation. Key words current reference; temperature-compensation; weak inve...
Two new voltage references will be presented, having the goals of low-power low-voltage operation an...
A high precision temperature insensitive current and voltage reference generator is presented. It is...
A new CMOS voltage reference, which takes advantage of the temperature dependence of NMOS and PMOS t...
This paper describes a new circuit integrated on silicon, which generates temperature-independent b...
[[abstract]]This paper describes a circuit, which generates temperature-independent bias currents. I...
A novel current reference circuit that compensates for process and temperature variations without an...
Includes bibliographical references (page 28)This thesis describes a new circuit approach to realize...
[[abstract]]This paper describes a circuit, which generates a low temperature-dependent bias current...
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]]A current reference generator with a proposed compensation circuit against temperature v...
In this paper a novel CMOS temperature and supply voltage independent current reference has been pro...
High linear voltage references circuitry are designed and implemented in TSMC 0.18µm CMOS technology...
A 192 pA current reference is proposed for ultra-low-power applications. The sub-threshold design ba...
This paper describes a resistorless current reference source, e.g. for fast communication interfaces...
Two new voltage references will be presented, having the goals of low-power low-voltage operation an...
A high precision temperature insensitive current and voltage reference generator is presented. It is...
A new CMOS voltage reference, which takes advantage of the temperature dependence of NMOS and PMOS t...
This paper describes a new circuit integrated on silicon, which generates temperature-independent b...
[[abstract]]This paper describes a circuit, which generates temperature-independent bias currents. I...
A novel current reference circuit that compensates for process and temperature variations without an...
Includes bibliographical references (page 28)This thesis describes a new circuit approach to realize...
[[abstract]]This paper describes a circuit, which generates a low temperature-dependent bias current...
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]]A current reference generator with a proposed compensation circuit against temperature v...
In this paper a novel CMOS temperature and supply voltage independent current reference has been pro...
High linear voltage references circuitry are designed and implemented in TSMC 0.18µm CMOS technology...
A 192 pA current reference is proposed for ultra-low-power applications. The sub-threshold design ba...
This paper describes a resistorless current reference source, e.g. for fast communication interfaces...
Two new voltage references will be presented, having the goals of low-power low-voltage operation an...
A high precision temperature insensitive current and voltage reference generator is presented. It is...
A new CMOS voltage reference, which takes advantage of the temperature dependence of NMOS and PMOS t...