Einzeltreffer — DigiBib

A clock generator includes a resistor-capacitor-based voltage-controlled oscillator (RC-based VCO) that generates an output signal with oscillation frequency controlled by an input voltage at an input node; and a temperature compensator that generates the input voltage to compensate change of the oscillation frequency associated with a change in temperature.

Titel:	Clock generator
Autor/in / Beteiligte Person:	Himax Technologies Limited
Link:	View record in USPTO Patent Grants (Volltext)
Veröffentlichung:	2024
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Grants Sprachen: English Patent Number: 11929,745 Publication Date: March 12, 2024 Appl. No: 18/110609 Application Filed: February 16, 2023 Assignees: Himax Technologies Limited (Tainan, TW) Claim: 1. A clock generator, comprising: a resistor-capacitor-based voltage-controlled oscillator (RC-based VCO) that generates an output signal with oscillation frequency controlled by an input voltage at an input node; and a temperature compensator that generates the input voltage to compensate change of the oscillation frequency associated with a change in temperature; wherein the temperature compensator comprises: a proportional-to-absolute-temperature (PTAT) current generator that generates a PTAT current increasing with increasing temperature; a voltage divider connected between a supply voltage and ground, with an interconnected node coupled to receive the PTAT current; wherein the PTAT current flows through an output node of the PTAT current generator, and said output node is directly connected to the interconnected node of the voltage divider, such that the PTAT current flows directly into or out of the interconnected node of the voltage divider. Claim: 2. The clock generator of claim 1 , wherein the temperature compensator comprises: a PTAT resistor electrically connected between the interconnected node of the voltage divider and the input node. Claim: 3. The clock generator of claim 2 , wherein the voltage divider comprises: a top resistor and a bottom resistor interconnected at the interconnected node, with the top resistor connected between the supply voltage and the interconnected node and with the bottom resistor connected between the interconnected node and the ground, with the interconnected node that is configured to provide the input voltage. Claim: 4. The clock generator of claim 3 , wherein the temperature compensator further comprises: a buffer, connected with the PTAT resistor in series between the interconnected node of the voltage divider and the input node. Claim: 5. The clock generator of claim 3 , wherein the PTAT current generator comprises a current mirror. Claim: 6. The clock generator of claim 5 , wherein the current mirror comprises: a first stage composed of a first P-type metal-oxide-semiconductor (PMOS) transistor and a first N-type MOS (NMOS) transistor interconnected at a first common node, with the first PMOS transistor connected between the supply voltage and the first common node and with the first NMOS transistor connected between the first common node and the ground, the first PMOS transistor having drain and gate connected; a second stage composed of a second PMOS transistor and a second NMOS transistor interconnected at a second common node, with the second PMOS transistor connected between the supply voltage and the second common node and with the second NMOS transistor connected between the second common node and the ground, the second NMOS transistor having drain and gate connected; and a third stage composed of a third PMOS transistor through which the PTAT current flows, the third PMOS transistor being connected between the supply voltage and the interconnected node of the voltage divider; wherein gates of the first PMOS transistor, the second PMOS transistor and the third PMOS transistor are coupled together, and gates of the first NMOS transistor and the second NMOS transistor are coupled together. Claim: 7. The clock generator of claim 5 , wherein the current mirror comprises: a first stage composed of a first PMOS transistor and a first NMOS transistor interconnected at a first common node, with the first PMOS transistor connected between the supply voltage and the first common node and with the first NMOS transistor connected between the first common node and the ground, the first PMOS transistor having drain and gate connected; a second stage composed of a second PMOS transistor and a second NMOS transistor interconnected at a second common node, with the second PMOS transistor connected between the supply voltage and the second common node and with the second NMOS transistor connected between the second common node and the ground, the second NMOS transistor having drain and gate connected; and a third stage composed of a third NMOS transistor through which the PTAT current flows, the third NMOS transistor being connected between the ground and the interconnected node of the voltage divider; wherein gates of the first PMOS transistor and the second PMOS transistor are coupled together, and gates of the first NMOS transistor, the second NMOS transistor and the third NMOS transistor are coupled together. Claim: 8. The clock generator of claim 1 , wherein the RC-based VCO comprises: a voltage-controlled oscillator (VCO) that generates the output signal with oscillation frequency controlled by a control voltage; a compare circuit that generates the control voltage by comparing the input voltage with a reference voltage; and a pull-up resistor and a switched-capacitor resistor interconnected at the input node, with the pull-up resistor connected between the supply voltage and the input node and with the switched-capacitor resistor connected between the input node and the ground. Claim: 9. The clock generator of claim 8 , wherein the VCO comprises a ring oscillator. Claim: 10. The clock generator of claim 9 , wherein the ring oscillator comprises: an odd number of inverters connected in series; wherein an output of a last inverter is fed back into a first inverter. Claim: 11. The clock generator of claim 8 , wherein the compare circuit comprises: a second voltage divider that generates the reference voltage; and a comparator that compares the input voltage with the reference voltage. Claim: 12. The clock generator of claim 8 , wherein the switched-capacitor resistor comprises: a first switch and a second switch interconnected at a common node, with the first switch connected between the input node and the common node and with the second switch connected between the common node and the ground, the second switch being controlled by the output signal and the first switch being controlled by an inverted output signal; and a capacitor connected between the ground and the common node. Patent References Cited: 20160191067 June 2016 Samala ; 20170255220 September 2017 Sivakumar ; 20220413532 December 2022 Gupta Primary Examiner: Shin, Jeffrey M Attorney, Agent or Firm: Stout, Donald E. ; Stout, Uxa & Buyan, LLP

Klicken Sie ein Format an und speichern Sie dann die Daten oder geben Sie eine Empfänger-Adresse ein und lassen Sie sich per Email zusenden.

BibTeX Citavi, JabRef, u.a.
(Literaturverwaltung)

PDF kein Volltext!
(Merkzettel, Notizen)

RIS Endnote, Citavi u.a.
(Literaturverwaltung)

MODS
(XML zur Weiterverarbeitung)

oder

Wählen Sie das für Sie passende Zitationsformat und kopieren Sie es dann in die Zwischenablage, lassen es sich per Mail zusenden oder speichern es als PDF-Datei.

Gewünschter Zitations-Stil:

oder

Bitte prüfen Sie, ob die Zitation formal korrekt ist, bevor Sie sie in einer Arbeit verwenden. Benutzen Sie gegebenenfalls den "Exportieren"-Dialog, wenn Sie ein Literaturverwaltungsprogramm verwenden und die Zitat-Angaben selbst formatieren wollen.

Clock generator