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Charging Systems with Direct Charging Port Support and Extended Capabilities
| Content Provider | The Lens |
|---|---|
| Abstract | An alternating current (AC) to direct current (DC) power converter may have a connector with a pair of power supply contacts and a pair of data contacts. An electronic device may be connected to the connector of the power converter. The power converter may supply DC power to the electronic device using the power supply contacts. The power converter may include control circuitry that has a resistor coupled across the data contacts. When the electronic device and the power converter are connected to each other, each may advertise to the other that capabilities are present that exceed industry standards. At the same time, standard-compliant discovery operations may be performed to probe the value of the resistance of the resistor that is coupled across the data contacts. When extended capabilities are discovered, extended functions may be performed including accelerated charging functions and data communications functions. |
| Related Links | https://www.lens.org/images/patent/011-501-964-044-433/pdf/US_2017_B2_9651593_011-501-964-044-433.pdf |
| Language | English |
| Publisher Date | 2017-08-03 |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Patent |
| Jurisdiction | United States of America |
| Date Applied | 2017-04-17 |
| Applicant | Apple Inc |
| Application No. | 201715489467 |
| Claim | A power converter configured to supply power to external equipment, the power converter comprising: a connector having first and second power line contacts and first and second data line contacts; an alternating current (AC) to direct current (DC) converter circuit that is configured to supply the power to the external equipment by applying a DC power supply voltage across the first and second power line contacts when the connector is in connection with the external equipment; and control circuitry that is configured to detect signal pulses received from the external equipment over the first data line contact when the connector is in connection with the external equipment, wherein the control circuitry is configured to determine whether the external equipment has capabilities that extend beyond standards-compliant capabilities based on the detected signal pulses, and wherein the control circuitry is configured to adjust the DC power supply voltage applied by the AC to DC converter circuit across the first and second power line contacts in response to determining that the external equipment has capabilities that extend beyond the standards-compliant capabilities. The power converter defined in claim 1 , wherein the first and second power line contacts comprise Universal Serial Bus power line contacts and wherein the first and second data line contacts comprise Universal Serial Bus data line contacts. The power converter defined in claim 1 , wherein the control circuitry includes a resistance coupled between the first and second data line contacts, wherein the power converter further comprises a current source that is coupled to the second data line contact through the resistance, and wherein the current source is configured to transmit current pulses to the external equipment over the second data line contact while the connector is in connection with the external equipment. The power converter defined in claim 1 , wherein the control circuitry includes a resistance coupled between the first and second data line contacts, wherein the power converter further comprises a comparator having a first input coupled to the first data line contact through the resistance and having a second input coupled to a reference voltage, and wherein the comparator is configured to compare the signal pulses to the reference voltage. The power converter defined in claim 1 , wherein the standards-compliant capabilities comprise a limit selected from the group consisting of a limit on the maximum current and a limit on the maximum voltage of the DC power supply voltage. The power converter defined in claim 1 , wherein the capabilities that extend beyond standards-compliant capabilities comprise capabilities that extend beyond limits imposed by Universal Serial Bus Implementers Forum (USB-IF) industry standards. The power converter defined in claim 6 , wherein the capabilities that extend beyond the limits imposed by the USB-IF industry standards comprise a capability selected from the group consisting of: receiving the DC power supply voltage at a current greater than 1.5 amps, receiving the DC power supply voltage at a voltage of approximately 4.5 volts and, simultaneously, at a current of approximately 0.3 amps, and receiving the DC power supply voltage at a voltage of approximately 6 volts and, simultaneously, at a current of approximately 3.0 amps. The power converter defined in claim 1 , wherein the capabilities that extend beyond standards-compliant capabilities comprise a capability of the external equipment to draw a greater amount of power from the power converter than a maximum power limit imposed by an industry standard. A power converter configured to supply power to external equipment, the power converter comprising: first and second power lines and first and second data lines; an alternating current (AC) to direct current (DC) converter circuit that is configured to apply a DC power supply voltage across the first and second power lines; and control circuitry that includes detector circuitry, wherein the detector circuitry is configured to detect signal pulses received from the external equipment over the first data line, and wherein the control circuitry is configured to control the AC to DC converter circuit based on the detected signal pulses. The power converter defined in claim 9 , wherein the control circuitry comprises a resistance coupled across the first and second data lines and a switch coupled in series with the resistance between the first and second data lines. The power converter defined in claim 9 , wherein the control circuitry comprises a resistance coupled across the first and second data lines, the power converter further comprising a current source coupled to the second data line through the resistance. The power converter defined in claim 9 , wherein the control circuitry comprises a resistance coupled across the first and second data lines, the power converter further comprising a comparator having an input coupled to the first data line through the resistance. The power converter defined in claim 9 , wherein the control circuitry is configured to determine whether the external equipment has capabilities that extend beyond standards-compliant capabilities based on the detected signal pulses, and wherein the control circuitry is configured to control the AC to DC converter circuit to increase the DC power supply voltage in response to determining that the external equipment has capabilities that extend beyond standards-compliant capabilities. The power converter defined in claim 9 , wherein the first and second power lines comprise Universal Serial Bus power lines and wherein the first and second data lines comprise Universal Serial Bus data line contacts. A power converter configured to supply power to external equipment, the power converter comprising: a connector having first and second power line contacts and first and second data line contacts; an alternating current (AC) to direct current (DC) converter circuit that is configured to supply the power to the external equipment by applying a DC power supply voltage across the first and second power line contacts while the connector is in connection with the external equipment; and control circuitry that is configured to advertise to the external equipment that the power converter has capabilities that extend beyond standards-compliant capabilities by generating signal pulses and transmitting the signal pulses to the external equipment using the first data line contact while the connector is in connection with the external equipment. The power converter defined in claim 15 , wherein the control circuitry includes a resistance coupled between the first and second data line contacts, further comprising: a current source coupled to the first data line contact through the resistance, wherein the signal pulses comprise current pulses generated by the current source. The power converter defined in claim 15 , wherein the control circuitry includes a resistance coupled between the first and second data line contacts, further comprising: a switch coupled in series with the resistance between the first and second data line contacts, wherein the control circuitry is configured to transmit the signal pulses by toggling the switch while an external signal is received from the external equipment using the second data line contact. The power converter defined in claim 15 , wherein the control circuitry comprises detector circuitry that is configured to detect additional signal pulses received from the external equipment using the second data line contact while the connector is in connection with the external equipment. The power converter defined in claim 18 , wherein the control circuitry is configured to determine whether the external equipment has capabilities that extend beyond additional standards-compliant capabilities based on the detected additional signal pulses. The power converter defined in claim 19 , wherein the control circuitry is configured to control the AC to DC converter circuit to adjust the DC power supply voltage in response to determining that the external equipment has capabilities that extend beyond the additional standards-compliant capabilities. |
| CPC Classification | CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER;SYSTEMS FOR STORING ELECTRIC ENERGY APPARATUS FOR CONVERSION BETWEEN AC AND AC; BETWEEN AC AND DC; OR BETWEEN DC AND DC; AND FOR USE WITH MAINS OR SIMILAR POWER SUPPLY SYSTEMS;CONVERSION OF DC OR AC INPUT POWER INTO SURGE OUTPUT POWER;CONTROL OR REGULATION THEREOF ELECTRIC DIGITAL DATA PROCESSING Measuring Force; Stress; Torque; Work; Mechanical Power; Mechanical Efficiency; Or Fluid Pressure Measuring Electric Variables;Measuring Magnetic Variables |
| Extended Family | 181-385-453-420-299 165-442-389-800-278 049-967-757-083-978 011-501-964-044-433 115-728-378-482-630 184-846-423-161-255 031-496-537-677-49X 134-803-064-228-732 186-779-034-208-828 180-363-730-955-889 035-914-296-480-083 040-030-200-945-761 178-700-484-977-902 179-353-161-987-084 125-503-368-257-881 149-240-902-737-914 067-379-420-887-382 176-935-502-557-527 121-865-284-193-57X 119-246-582-404-836 182-430-831-772-061 144-410-133-313-777 012-949-878-773-930 179-751-849-598-70X 112-178-018-616-575 093-746-639-030-61X 153-975-165-704-355 047-574-130-587-072 |
| Patent ID | 20170219641 |
| Inventor/Author | Sims Nicholas A Terlizzi Jeffrey J Kosut Alexei Johnson Timothy Corlett Barry |
| IPC | G01R27/02 H02M7/538 H02M7/53846 H02M7/539 |
| Status | Active |
| Simple Family | 181-385-453-420-299 165-442-389-800-278 049-967-757-083-978 011-501-964-044-433 115-728-378-482-630 184-846-423-161-255 031-496-537-677-49X 134-803-064-228-732 186-779-034-208-828 180-363-730-955-889 035-914-296-480-083 040-030-200-945-761 178-700-484-977-902 179-353-161-987-084 125-503-368-257-881 149-240-902-737-914 067-379-420-887-382 176-935-502-557-527 121-865-284-193-57X 119-246-582-404-836 182-430-831-772-061 144-410-133-313-777 012-949-878-773-930 179-751-849-598-70X 112-178-018-616-575 093-746-639-030-61X 153-975-165-704-355 047-574-130-587-072 |
| CPC (with Group) | H02J7/00034 H02J7/007 H02J7/04 H02M3/07 H02M3/158 G06F1/266 H02J7/02 H02M1/10 H02J7/00036 G01L1/205 G01R27/02 H02M7/02 H02M7/53803 H02M7/53846 H02M7/539 H02J7/00 |
| Issuing Authority | United States Patent and Trademark Office (USPTO) |
| Kind | Patent Application Publication |
