Abstract: A clutch-type air compressor system and a control method and control apparatus thereof. The clutch-type air compressor system includes a clutch-type air compressor, a natural aspiration pipeline connected to the atmosphere, a supercharged intake pipeline leading to an engine intake pipe, and an intake control valve disposed at a front end of an intake port of the clutch-type air compressor; the natural aspiration pipeline and the supercharged intake pipeline are connected to the intake port of the clutch-type air compressor via the intake control valve, and the intake control valve is allowed to switch on the natural aspiration pipeline or the supercharged intake pipeline alternatively.

Abstract: Novel Stevia rebaudiana plant cultivars, a process for preparing superior compositions comprising steviol glycosides, and the advantageous use of the compositions comprising steviol glycosides in consumables, including food and beverage products, are disclosed.

Abstract: A stevia cultivar, designated ‘16265046’, is disclosed. The embodiments of the invention relate to the plant parts of stevia cultivar ‘16265046’, to the plants of stevia ‘16265046’ and to methods for producing a stevia plant produced by crossing the cultivar ‘16265046’ with itself or another stevia variety, including methods using marker assisted breeding. The embodiments further relate to hybrid stevia seeds and plants produced by crossing the cultivar ‘16265046’ with another stevia cultivar. Twelve highly polymorphic SNPs loci and the corresponding genomic sequences used to identify plant variety ‘16265046’-derived plant materials are also disclosed.

Abstract: A stevia cultivar, designated ‘16228013’, is disclosed. Further embodiments relate to the plant parts of stevia cultivar ‘16228013’, to the plants of stevia ‘16228013’ and to methods for producing a stevia plant produced by crossing the cultivar ‘16228013’ with itself or another stevia variety, including methods using marker assisted breeding. Further embodiments relate to hybrid stevia seeds and plants produced by crossing the cultivar ‘16228013’ with another stevia cultivar. Six highly polymorphic SNPs loci and the corresponding genomic sequences used to identify plant variety ‘16228013’ derived plant materials are also disclosed.

Abstract: An aneuploid Stevia cultivar from colchicine-induced polyploidy, designated ‘AP-1’. The plant parts of Stevia cultivar ‘AP-1’, the plants of stevia ‘AP-1’ and methods for producing a Stevia plant produced by crossing the cultivar ‘AP-1’ with itself or another Stevia variety, including methods using colchicine treatments for producing an aneuploidy Stevia plant. The disclosure further relates to hybrid Stevia seeds and plants produced by crossing the cultivar ‘AP-1’ with another Stevia cultivar. Ten highly polymorphic SNPs and the corresponding genomic sequences used to identify ‘AP-1’.

Abstract: A quick-plug connection connector includes: a locking member arranged at a tail end of a connector body and a release ring partially extending into the connector body so as to come into contact with the locking member. An annular receiving groove is formed in the release ring and a sealing ring is received in the annular receiving groove. As the release ring is pressed against the locking member, the locking member is released to form a pipeline installation path leading from the sealing ring to the locking member. In the quick-plug connection connector, the pipeline installation path leading from the sealing ring to the locking member is formed by arranging the sealing ring in front of the locking member so that the pipeline installation requirements can be reduced.

Abstract: Novel Stevia rebaudiana plant cultivars, a process for preparing superior compositions comprising steviol glycosides, and the advantageous use of the compositions comprising steviol glycosides in consumables, including food and beverage products, are disclosed.

Abstract: Novel cultivars of Stevia rebaudiana plant, with a novel genetic trait of self-compatibility, and the advantageous use of this genetic trait in Stevia crossing breeding for increasing steviol glycosides production, including food and beverage products and other consumables, are disclosed.

Abstract: Novel cultivars of Stevia rebaudiana plant, with a novel genetic trait of self-compatibility, and the advantageous use of this genetic trait in Stevia rebaudiana crossing breeding for increasing steviol glycosides production, including food and beverage products and other consumables, are disclosed.

Abstract: Novel Stevia rebaudiana plant cultivars, a process for preparing superior compositions comprising steviol glycosides, and the advantageous use of the compositions comprising steviol glycosides in consumables, including food and beverage products, are disclosed.

Abstract: A stevia cultivar, designated ‘16228013’, is disclosed. Further embodiments relate to the plant parts of stevia cultivar ‘16228013’, to the plants of stevia ‘16228013’ and to methods for producing a stevia plant produced by crossing the cultivar ‘16228013’ with itself or another stevia variety, including methods using marker assisted breeding. Further embodiments relate to hybrid stevia seeds and plants produced by crossing the cultivar ‘16228013’ with another stevia cultivar. Six highly polymorphic SNPs loci and the corresponding genomic sequences used to identify plant variety ‘16228013’ derived plant materials are also disclosed.

Abstract: The present disclosure provides an emission controller, a driving method thereof, and a display device. The emission controller includes a first processing module, a second processing module, a third processing module, an output module and a shift control module. The first processing module generates a first signal in response to a first control signal, a second control signal and a second signal. The second processing module generates a second signal in response to the first control signal and the first signal. The third processing module generates third and fourth signals in response to the second control signal, the second and first signals. The output module provides emission control signal in response the first and fourth signal. The shift control module provides a shift control signal in response to the first and fourth signal, or provides a shift control signal in response to the first and third signal.

Abstract: The present disclosure provides an emission controller, a driving method thereof, and a display device. The emission controller includes a first processing module, a second processing module, a third processing module, an output module and a shift control module. The first processing module generates a first signal in response to a first control signal, a second control signal and a second signal. The second processing module generates a second signal in response to the first control signal and the first signal. The third processing module generates third and fourth signals in response to the second control signal, the second and first signals. The output module provides emission control signal in response the first and fourth signal. The shift control module provides a shift control signal in response to the first and fourth signal, or provides a shift control signal in response to the first and third signal.

Abstract: A stevia cultivar, designated ‘16228013’, is disclosed. Further embodiments relate to the plant parts of stevia cultivar ‘16228013’, to the plants of stevia ‘16228013’ and to methods for producing a stevia plant produced by crossing the cultivar ‘16228013’ with itself or another stevia variety, including methods using marker assisted breeding. Further embodiments relate to hybrid stevia seeds and plants produced by crossing the cultivar ‘16228013’ with another stevia cultivar. Six highly polymorphic SNPs loci and the corresponding genomic sequences used to identify plant variety ‘16228013’ derived plant materials are also disclosed.

Abstract: An aneuploid Stevia cultivar from colchicine-induced polyploidy, designated ‘AP-1’. The plant parts of Stevia cultivar ‘AP-1’, the plants of stevia ‘AP-1’ and methods for producing a Stevia plant produced by crossing the cultivar ‘AP-1’ with itself or another Stevia variety, including methods using colchicine treatments for producing an aneuploidy Stevia plant. The disclosure further relates to hybrid Stevia seeds and plants produced by crossing the cultivar ‘AP-1’ with another Stevia cultivar. Ten highly polymorphic SNPs and the corresponding genomic sequences used to identify ‘AP-1’.

Abstract: A stevia cultivar, designated ‘16265046’, is disclosed. The embodiments of the invention relate to the plant parts of stevia cultivar ‘16265046’, to the plants of stevia ‘16265046’ and to methods for producing a stevia plant produced by crossing the cultivar ‘16265046’ with itself or another stevia variety, including methods using marker assisted breeding. The embodiments further relate to hybrid stevia seeds and plants produced by crossing the cultivar ‘16265046’ with another stevia cultivar. Twelve highly polymorphic SNPs loci and the corresponding genomic sequences used to identify plant variety ‘16265046’-derived plant materials are also disclosed.

Abstract: The present disclosure provides an emission controller, a driving method thereof, and a display device. The emission controller includes a first processing module, a second processing module, a third processing module, an output module and a shift control module. The first processing module generates a first signal in response to a first control signal, a second control signal and a second signal. The second processing module generates a second signal in response to the first control signal and the first signal. The third processing module generates third and fourth signals in response to the second control signal, the second and first signals. The output module provides emission control signal in response the first and fourth signal. The shift control module provides a shift control signal in response to the first and fourth signal, or provides a shift control signal in response to the first and third signal.

Abstract: The present disclosure provides an emission controller, a driving method thereof, and a display device. The emission controller includes a first processing module, a second processing module, a third processing module, an output module and a shift control module. The first processing module generates a first signal in response to a first control signal, a second control signal and a second signal. The second processing module generates a second signal in response to the first control signal and the first signal. The third processing module generates third and fourth signals in response to the second control signal, the second and first signals. The output module provides emission control signal in response the first and fourth signal. The shift control module provides a shift control signal in response to the first and fourth signal, or provides a shift control signal in response to the first and third signal.

Abstract: The present disclosure provides an emission controller, a driving method thereof, and a display device. The emission controller includes a first processing module, a second processing module, a third processing module, an output module and a shift control module. The first processing module generates a first signal in response to a first control signal, a second control signal and a second signal. The second processing module generates a second signal in response to the first control signal and the first signal. The third processing module generates third and fourth signals in response to the second control signal, the second and first signals. The output module provides emission control signal in response the first and fourth signal. The shift control module provides a shift control signal in response to the first and fourth signal, or provides a shift control signal in response to the first and third signal.

Abstract: A stevia cultivar, designated ‘16228013’, is disclosed. Further embodiments relate to the plant parts of stevia cultivar ‘16228013’, to the plants of stevia ‘16228013’ and to methods for producing a stevia plant produced by crossing the cultivar ‘16228013’ with itself or another stevia variety, including methods using marker assisted breeding. Further embodiments relate to hybrid stevia seeds and plants produced by crossing the cultivar ‘16228013’ with another stevia cultivar. Six highly polymorphic SNPs loci and the corresponding genomic sequences used to identify plant variety ‘16228013’ derived plant materials are also disclosed.