㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 䂓㪞㪼㫅㪼㫉㪸㫃㩷㪛㪼㫊㪺㫉㫀㫇㫋㫀㫆㫅䇭 䂓㪝㪼㪸㫋㫌㫉㪼㫊 㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪㩷 㫌㫊㪼㫊㩷 㪸㪻㫍㪸㫅㪺㪼㪻㩷 㫋㫉㪼㫅㪺㪿㩷 㫋㪼㪺㪿㫅㫆㫃㫆㪾㫐㩷 㫋㫆㩷 㫇㫉㫆㫍㫀㪻㪼㩷 㪼㫏㪺㪼㫃㫃㪼㫅㫋㩷 㪩㪻㫊㩿㫆㫅㪀㩷 㪸㫅㪻㩷㫃㫆㫎㩷㪾㪸㫋㪼㩷㪺㪿㪸㫉㪾㪼㪅㩷 㩷㩷㩷㪥㪄㪺㪿㪸㫅㫅㪼㫃㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㪧㪄㪺㪿㪸㫅㫅㪼㫃 䊶 㪭㪻㫊㪔㪋㪇㪭㩷 㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㪭㪻㫊㪔㪄㪋㪇㪭㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷 䊶 㪠㪻㪔㪏㪘㩿㪭㪾㫊㪔㪈㪇㪭㪀㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㪠㪻㪔㪄㪏㪘㩿㪭㪾㫊㪔㪄㪈㪇㪭㪀㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷 䊶 㪩㪻㫊㩿㫆㫅㪀㩷㪓㩷㪊㪊㫄㱅㩿㪭㪾㫊㪔㪈㪇㪭㪀㩷㩷㩷㩷㩷㪩㪻㫊㩿㫆㫅㪀㩷㪓㩷㪌㪇㫄㱅㩿㪭㪾㫊㪔㪄㪈㪇㪭㪀㩷㩷㩷㩷㩷㩷 䊶㩷㪩㪻㫊㩿㫆㫅㪀㩷㪓㩷㪋㪎㫄㱅㩿㪭㪾㫊㪔㪋㪅㪌㪭㪀㩷㩷㩷㩷㩷㪩㪻㫊㩿㫆㫅㪀㩷㪓㩷㪎㪇㫄㱅㩿㪭㪾㫊㪔㪄㪋㪅㪌㪭㪀 䂓㪤㪸㫏㫀㫄㫌㫄㩷㪘㪹㫊㫆㫃㫌㫋㪼㩷㪩㪸㫋㫀㫅㪾㫊 㪧㪸㫉㪸㫄㪼㫋㪼㫉 㪛㫉㪸㫀㫅㪄㫊㫆㫌㫉㪺㪼㩷㫍㫆㫃㫋㪸㪾㪼 㪞㪸㫋㪼㪄㫊㫆㫌㫉㪺㪼㩷㫍㫆㫃㫋㪸㪾㪼 㪪㫐㫄㪹㫆㫃 㪭㪻㫊 㪭㪾㫊 㪫㪺㪔㪉㪌㷄㩷 㪫㪺㪔㪈㪇㪇㷄 㪚㫆㫅㫋㫀㫅㫌㫆㫌㫊㩷㪻㫉㪸㫀㫅㩷㪺㫌㫉㫉㪼㫅㫋 㪧㫌㫃㫊㪼㪻㩷㪻㫉㪸㫀㫅㩷㪺㫌㫉㫉㪼㫅㫋 㪘㫍㪸㫃㪸㫅㪺㪿㪼㩷㪺㫌㫉㫉㪼㫅㫋 㪩㪼㫇㪼㫋㫀㫋㫀㫍㪼㩷㪸㫍㪸㫃㪸㫅㪺㪿㪼㩷㪼㫅㪼㫉㪾㫐㩷㪣㪔㪇㪅㪈㫄㪟 㪠㪻 㪠㪻㫄 㪠㪸㫉 㪜㪸㫉 㪫㪺㪔㪉㪌㷄㩷 㪫㪺㪔㪈㪇㪇㷄 㪫㪸㪔㪉㪌㷄㩷 㪧㫆㫎㪼㫉㩷㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅 㪫㪸㪔㪎㪇㷄㩷 㪡㫌㫅㪺㫋㫀㫆㫅㩷㪸㫅㪻㩷㫊㫋㫆㫉㪸㪾㪼㩷㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷㫉㪸㫅㪾㪼 㪧㫆㫎㪼㫉㩷㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅 㪧㪻 㪧㪻㫊㫄 㪫㫁㪃㪫㫊㫋㪾 㪥㪄㪺㪿㩷㩿㪤㪸㫏㪅㪀 㪋㪇 㫧㪉㪇 㪏 㪏 㪊㪇 㪏 㪉㪇 㪉㪇 㪈㪇 㪉㪅㪇 㪈㪅㪊 㪄㪌㪌㩷㫋㫆㩷㪈㪌㪇 㪧㪄㪺㪿㩷㩿㪤㪸㫏㪅㪀 㪄㪋㪇 㫧㪉㪇 㪄㪏 㪄㪏 㪄㪊㪇 㪄㪏 㪊㪇 㪌㪇 㪉㪌 㪉㪅㪌 㪈㪅㪍 㪄㪌㪌㩷㫋㫆㩷㪈㪌㪇 㪬㫅㫀㫋 㪥㫆㫋㪼 㪭 㪭 㪘 㪎 㪘 㪘 㫄㪡 㪊 㪊 㪊 㪮 㪉 㪮 㪈 㷄 䂓㪫㪿㪼㫉㫄㪸㫃㩷㪚㪿㪸㫉㪸㪺㫋㪼㫉㫀㫊㫋㫀㪺㫊 㪧㪸㫉㪸㫄㪼㫋㪼㫉㩷 㪤㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪸㫄㪹㫀㪼㫅㫋 㪤㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪸㫄㪹㫀㪼㫅㫋 㪤㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪺㪸㫊㪼 㪤㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪸㫄㪹㫀㪼㫅㫋 㪤㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪸㫄㪹㫀㪼㫅㫋 㪤㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪺㪸㫊㪼 㪪㫐㫄㪹㫆㫃 㫋㻟㪈㪇㫊 㪪㫋㪼㪸㪻㫐㪄㫊㫋㪸㫋㪼 㪪㫋㪼㪸㪻㫐㪄㫊㫋㪸㫋㪼 㫋㻟㪈㪇㫊 㪪㫋㪼㪸㪻㫐㪄㫊㫋㪸㫋㪼 㪪㫋㪼㪸㪻㫐㪄㫊㫋㪸㫋㪼 㪩㱔㫁㪸 㪛㪼㫍㫀㪺㪼 㪥㪄㪺㪿 㪩㱔㫁㪺 㪩㱔㫁㪸 㪩㱔㫁㪺 䂓㪧㫀㫅㩷㪚㫆㫅㪽㫀㪾㫌㫉㪸㫋㫀㫆㫅㩷 㪧㪄㪺㪿 㪫㫐㫇㪅 㪈㪎㪅㪋 㪌㪇㪅㪇 㪋㪅㪇 㪈㪍㪅㪎 㪋㪇㪅㪇 㪉㪅㪌 㪤㪸㫏㪅 㪊㪇㪅㪇 㪍㪇㪅㪇 㪎㪅㪌 㪉㪌㪅㪇 㪌㪇㪅㪇 㪊㪅㪇 㪬㫅㫀㫋 㷄㪆㪮 㷄㪆㪮 㷄㪆㪮 㷄㪆㪮 㷄㪆㪮 㷄㪆㪮 㪥㫆㫋㪼 㪈 㪉 㪈 㪉 䂓㪚㫀㫉㪺㫌㫀㫋 㪫㪦㪄㪉㪌㪉㪄㪌㩷㩿㪫㪦㪧㩷㪭㪠㪜㪮㪀 䊶 㪥䋭㪺㪿 㪧㫀㫅㩷㪥㫆㪅 㪈 㪉 㪊 㪋 㪌 㪧㫀㫅㩷㫅㪸㫄㪼 㪪㪦㪬㪩㪚㪜㪈 㪞㪘㪫㪜㪈 㪛㪩㪘㪠㪥㪈㪆㪛㪩㪘㪠㪥㪉 㪞㪘㪫㪜㪉 㪪㪦㪬㪩㪚㪜㪉 㪛㪉 㪞㪉 㪛㪈 㪞㪈 㪪㪉 㪐㪄 㪈 䊶 㪧䋭㪺㪿 㪪㪈 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 䂓㪜㫃㪼㪺㫋㫉㫀㪺㪸㫃㩷㪚㪿㪸㫉㪸㪺㫋㪼㫉㫀㫊㫋㫀㪺㫊㩷㩿㪥㪄㪺㪿㪀 㪧㪸㫉㪸㫄㪼㫋㪼㫉 㪪㪫㪘㪫㪠㪚㩷㪧㪘㪩㪘㪤㪜㪫㪜㪩㪪 㪛㫉㪸㫀㫅㪄㫊㫆㫌㫉㪺㪼㩷㪹㫉㪼㪸㫂㪻㫆㫎㫅㩷㫍㫆㫃㫋㪸㪾㪼 㪱㪼㫉㫆㩷㪾㪸㫋㪼㩷㫍㫆㫃㫋㪸㪾㪼㩷㪻㫉㪸㫀㫅㩷㪺㫌㫉㫉㪼㫅㫋 㪞㪸㫋㪼㪄㪹㫆㪻㫐㩷㫃㪼㪸㫂㪸㪾㪼㩷㪺㫌㫉㫉㪼㫅㫋 㪞㪸㫋㪼㩷㫋㪿㫉㪼㫊㪿㫆㫃㪻㩷㫍㫆㫃㫋㪸㪾㪼 㪦㫅㩷㫊㫋㪸㫋㪼㩷㪻㫉㪸㫀㫅㩷㪺㫌㫉㫉㪼㫅㫋 㪪㫋㪸㫋㫀㪺㩷㪻㫉㪸㫀㫅㪄㫊㫆㫌㫉㪺㪼㩷㫆㫅㪄㫉㪼㫊㫀㫊㫋㪸㫅㪺㪼 㪝㫆㫉㫎㪸㫉㪻㩷㫋㫉㪸㫅㫊㪺㫆㫅㪻㫌㪺㫋㪸㫅㪺㪼 㪛㫀㫆㪻㪼㩷㪽㫆㫉㫎㪸㫉㪻㩷㫍㫆㫃㫋㪸㪾㪼 㪤㪸㫏㪅㪹㫆㪻㫐㪄㪻㫀㫆㪻㪼㩷㪺㫆㫅㫋㫀㫅㫌㫆㫌㫊㩷㪺㫌㫉㫉㪼㫅㫋 㪛㪰㪥㪘㪤㪠㪚㩷㪧㪘㪩㪘㪤㪜㪫㪜㪩㪪 㪠㫅㫇㫌㫋㩷㪺㪸㫇㪸㪺㫀㫋㪸㫅㪺㪼 㪦㫌㫋㫇㫌㫋㩷㪺㪸㫇㪸㪺㫀㫋㪸㫅㪺㪼 㪩㪼㫍㪼㫉㫊㪼㩷㫋㫉㪸㫅㫊㪽㪼㫉㩷㪺㪸㫇㪸㪺㫀㫋㪸㫅㪺㪼 㪞㪸㫋㪼㩷㫉㪼㫊㫀㫊㫋㪸㫅㪺㪼 㪪㪮㪠㪫㪚㪟㪠㪥㪞㩷㪧㪘㪩㪘㪤㪜㪫㪜㪩㪪 㪫㫆㫋㪸㫃㩷㪾㪸㫋㪼㩷㪺㪿㪸㫉㪾㪼㩷㩿㪈㪇㪭㪀 㪫㫆㫋㪸㫃㩷㪾㪸㫋㪼㩷㪺㪿㪸㫉㪾㪼㩷㩿㪋㪅㪌㪭㪀 㪞㪸㫋㪼㪄㫊㫆㫌㫉㪺㪼㩷㪺㪿㪸㫉㪾㪼 㪞㪸㫋㪼㪄㪻㫉㪸㫀㫅㩷㪺㪿㪸㫉㪾㪼 㪫㫌㫉㫅㪄㫆㫅㩷㪻㪼㫃㪸㫐㩷㫋㫀㫄㪼 㪫㫌㫉㫅㪄㫆㫅㩷㫉㫀㫊㪼㩷㫋㫀㫄㪼 㪫㫌㫉㫅㪄㫆㪽㪽㩷㪻㪼㫃㪸㫐㩷㫋㫀㫄㪼 㪫㫌㫉㫅㪄㫆㪽㪽㩷㪽㪸㫃㫃㩷㫋㫀㫄㪼 㪙㫆㪻㫐㪄㪻㫀㫆㪻㪼㩷㫉㪼㫍㪼㫉㫊㪼㩷㫉㪼㪺㫆㫍㪼㫉㫐㩷㫋㫀㫄㪼 㪙㫆㪻㫐㪄㪻㫀㫆㪻㪼㩷㫉㪼㫍㪼㫉㫊㪼㩷㫉㪼㪺㫆㫍㪼㫉㫐㩷㪺㪿㪸㫉㪾㪼 㪪㫐㫄㪹㫆㫃 㪚㫆㫅㪻㫀㫋㫀㫆㫅㫊 㪙㪭㪻㫊㫊 㪠㪻㪔㪈㪇㫄㪘㪃㩷㪭㪾㫊㪔㪇㪭 㪭㪻㫊㪔㪊㪉㪭 㪠㪻㫊㫊 㪭㪾㫊㪔㪇㪭 㪫㫁㪔㪌㪌㷄 㪠㪾㫊㫊 㪭㪻㫊㪔㪇㪭㪃㩷㪭㪾㫊㪔㫧㪉㪇㪭 㪭㪾㫊㩿㫋㪿㪀 㪭㪻㫊㪔㪭㪾㫊㪃㩷㪠㪻㪔㪉㪌㪇㱘㪘 㪠㪻㩿㫆㫅㪀 㪭㪾㫊㪔㪈㪇㪭㪃㩷㪭㪻㫊㪔㪌㪭 㪭㪾㫊㪔㪈㪇㪭 㪩㪻㫊㩿㫆㫅㪀 㪠㪻㪔㪏㪘 㪫㫁㪔㪈㪉㪌㷄 㪭㪾㫊㪔㪋㪅㪌㪭㪃㩷㪠㪻㪔㪍㪘 㪞㪽㫊 㪭㪻㫊㪔㪌㪭㪃㩷㪠㪻㪔㪏㪘 㪭㫊㪻 㪠㫊㪔㪈㪘㪃㩷㪭㪾㫊㪔㪇㪭 㪠㫊 㪤㫀㫅㪅 㪫㫐㫇㪅 㪫㪸㪔㪉㪌㷄 㪤㪸㫏㪅 㪬㫅㫀㫋 㪋㪇 㪈㪅㪇 㪊㪇 㪭 㪉㪅㪊 㪉㪌 㪊㪐 㪊㪋 㪉㪌 㪇㪅㪎㪍 㪈 㪌 㪈㪇㪇 㪊㪅㪇 㪊㪊 㪌㪉 㪋㪎 㪈㪅㪇㪇 㪏 㱘㪘 㫅㪘 㪭 㪘 㫄㱅 㪪 㪭 㪘 㪚㫀㫊㫊 㪚㫆㫊㫊 㪭㪾㫊㪔㪇㪭㪃㩷㪭㪻㫊㪔㪉㪇㪭㪃㩷㪽㪔㪈㪤㪟㫑 㪚㫉㫊㫊 㪩㪾 㪭㪾㫊㪔㪇㪭㪃㩷㪭㪻㫊㪔㪇㪭㪃㩷㪽㪔㪈㪤㪟㫑 㪋㪇㪋 㪐㪌 㪊㪎 㪉㪅㪎 㫇㪝 㫇㪝 㫇㪝 㱅 㪨㪾 㪨㪾 㪨㪾㫊 㪨㪾㪻 㫋㪻㩿㫆㫅㪀 㫋㫉 㫋㪻㩿㫆㪽㪽㪀 㫋㪽 㫋㫉㫉 㪨㫉㫉 㪐㪅㪉 㪋㪅㪌 㪈㪅㪍 㪉㪅㪍 㪊㪅㪌 㪍㪅㪇 㪈㪊㪅㪉 㪊㪅㪌 㪉㪉㪅㪐 㪈㪏㪅㪊 㫅㪚 㫅㪚 㫅㪚 㫅㪚 㫅㫊 㫅㫊 㫅㫊 㫅㫊 㫅㫊 㫅㪚 㪭㪾㫊㪔㪈㪇㪭㪃㩷㪭㪻㫊㪔㪉㪇㪭㪃㩷㪠㪻㪔㪏㪘 㪭㪾㫊㪔㪈㪇㪭㪃㩷㪭㪻㫊㪔㪉㪇㪭㩷 㪩㫃㪔㪉㪅㪌㱅㪃㩷㪩㪾㪼㫅㪔㪊㱅 㪠㪽㪔㪏㪘㪃㩷㪻㫃㪆㪻㫋㪔㪈㪇㪇㪘㪆㱘㫊 㪠㪽㪔㪏㪘㪃㩷㪻㫃㪆㪻㫋㪔㪈㪇㪇㪘㪆㱘㫊 㪥㪦㪫㪜㩷㪑 㪈㪅 㪫㪿㪼㩷 㫍㪸㫃㫌㪼㩷 㫆㪽㩷 㪩㱔㫁㪸㩷 㫀㫊㩷 㫄㪼㪸㫊㫌㫉㪼㪻㩷 㫎㫀㫋㪿㩷 㫋㪿㪼㩷 㪻㪼㫍㫀㪺㪼㩷 㫄㫆㫌㫅㫋㪼㪻㩷 㫆㫅㩷 㪈㫀㫅㪉㩷 㪝㪩㪄㪋㩷 㪹㫆㪸㫉㪻㩷 㫆㪽㩷 㪉㫆㫑㪅㩷 㪚㫆㫇㫇㪼㫉㪃㩷 㫀㫅㩷 㫊㫋㫀㫃㫃㩷 㪸㫀㫉㩷 㪼㫅㫍㫀㫉㫆㫅㫄㪼㫅㫋㩷 㫎㫀㫋㪿㩷 㪫㪸㪔㪉㪌㷄㪅㩷 㪫㪿㪼㩷 㫇㫆㫎㪼㫉㩷 㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅㩷 㪧㪻㫊㫄㩷 㫀㫊㩷 㪹㪸㫊㪼㪻㩷 㫆㫅㩷 㪩㱔㫁㪸㩷 㫄㪸㫏㪅㩷 㪸㫃㫃㫆㫎㪼㪻㩷 㫁㫌㫅㪺㫋㫀㫆㫅㩷 㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷 㫆㪽㩷 㪈㪌㪇㷄㪅㩷 㪫㪿㪼㩷 㫍㪸㫃㫌㪼㩷 㫀㫅㩷 㪸㫅㫐㩷 㪾㫀㫍㪼㫅㩷 㪸㫇㫇㫃㫀㪺㪸㫋㫀㫆㫅㫊㩷 㪻㪼㫇㪼㫅㪻㫊㩷 㫆㫅㩷 㫋㪿㪼㩷 㫌㫊㪼㫉㵭㫊㩷 㫊㫇㪼㪺㫀㪽㫀㪺㩷 㪹㫆㪸㫉㪻㩷 㪻㪼㫊㫀㪾㫅㪃㩷 㪸㫅㪻㩷 㫋㪿㪼㩷 㫄㪸㫏㪅㩷 㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷㫆㪽㩷㪈㪎㪌㷄㫄㪸㫐㩷㪹㪼㩷㫌㫊㪼㪻㩷㫀㪽㩷㫋㪿㪼㩷㪧㪚㪙㩷㪸㫃㫃㫆㫎㫊㩷㫀㫋㪅㩷 㪉㪅 㪫㪿㪼㩷 㫇㫆㫎㪼㫉㩷 㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅㩷 㪧㪻㩷 㫀㫊㩷 㪹㪸㫊㪼㪻㩷 㫆㫅㩷 㪫㫁㩿㫄㪸㫏㪅㪀㪔㪈㪎㪌㷄㪃㩷 㫌㫊㫀㫅㪾㩷 㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪺㪸㫊㪼㩷 㫋㪿㪼㫉㫄㪸㫃㩷 㫉㪼㫊㫀㫊㫋㪸㫅㪺㪼㪃㩷 㪸㫅㪻㩷 㫀㫊㩷 㫄㫆㫉㪼㩷 㫌㫊㪼㪽㫌㫃㩷㫊㪼㫋㫋㫀㫅㪾㩷㫋㪿㪼㩷㫌㫇㫇㪼㫉㩷㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅㩷㫃㫀㫄㫀㫋㩷㪽㫆㫉㩷㪺㪸㫊㪼㫊㩷㫎㪿㪼㫉㪼㩷㪸㪻㪻㫀㫋㫀㫆㫅㪸㫃㩷㪿㪼㪸㫉㫋㫊㫀㫅㫂㫀㫅㪾㩷㫀㫊㩷㫌㫊㪼㪻㪅 㪊㪅 㪫㪿㪼㩷㫉㪼㫇㪼㫋㫀㫋㫀㫍㪼㩷㫉㪸㫋㫀㫅㪾㩷㪸㫅㪻㩷㫋㪿㪼㩷㫇㫌㫃㫊㪼㩷㫎㫀㪻㫋㪿㩷㪸㫉㪼㩷㫃㫀㫄㫀㫋㪼㪻㩷㪹㫐㩷㫁㫌㫅㪺㫋㫀㫆㫅㩷㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷㪫㫁㩿㫄㪸㫏㪅㪀㪔㪈㪎㪌㷄㪅㩷 㪋㪅 㪫㪿㪼㩷㪩㱔㫁㪸㩷㫀㫊㩷㫋㪿㪼㩷㫊㫌㫄㩷㫆㪽㩷㫋㪿㪼㩷㫋㪿㪼㫉㫄㪸㫃㩷㫀㫄㫇㪼㪻㪸㫅㪺㪼㩷㪽㫉㫆㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㩷㫋㫆㩷㪺㪸㫊㪼㩷㪩㱔㫁㪺㩷㪸㫅㪻㩷㪺㪸㫊㪼㩷㫋㫆㩷㪸㫄㪹㫀㪼㫅㫋㪅 㪌㪅 㪫㪿㪼㩷㫊㫋㪸㫋㫀㪺㩷㪺㪿㪸㫉㪸㪺㫋㪼㫉㫀㫊㫋㫀㪺㫊㩷㫀㫅㩷㪝㫀㪾㫌㫉㪼㫊㩷㪈㩷㫋㫆㩷㪍㩷㪸㫉㪼㩷㫆㪹㫋㪸㫀㫅㪼㪻㩷㫌㫊㫀㫅㪾㩷㪓㪊㪇㪇㱘㫊㩷㫇㫌㫃㫊㪼㫊㪃㩷㪻㫌㫋㫐㩷㪺㫐㪺㫃㪼㩷㪇㪅㪌䋦㫄㪸㫏㪅 㪍㪅 㪫㪿㪼㫊㪼㩷㪺㫌㫉㫍㪼㫊㩷㪸㫉㪼㩷㪹㪸㫊㪼㪻㩷㫆㫅㩷㫋㪿㪼㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪺㪸㫊㪼㩷㫋㪿㪼㫉㫄㪸㫃㩷㫀㫄㫇㪼㪻㪼㫅㪺㪼㩷㫎㪿㫀㪺㪿㩷㫀㫊㩷㫄㪼㪸㫊㫌㫉㪼㪻㩷㫎㫀㫋㪿㩷㫋㪿㪼㩷㪻㪼㫍㫀㪺㪼㩷㫄㫆㫌㫅㫋㪼㪻㩷 㫋㫆㩷㪸㩷㫃㪸㫉㪾㪼㩷㪿㪼㪸㫋㫊㫀㫅㫂㪃㩷㪸㫊㫊㫌㫄㫀㫅㪾㩷㪸㩷㫄㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㩷㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷㫆㪽㩷㪫㫁㩿㫄㪸㫏㪅㪀㪔㪈㪎㪌㷄㪅 㪎㪅 㪫㪿㪼㩷㫄㪸㫏㫀㫄㫌㫄㩷㪺㫌㫉㫉㪼㫅㫋㩷㫉㪸㫋㫀㫅㪾㩷㫀㫊㩷㫃㫀㫄㫀㫋㪼㪻㩷㪹㫐㩷㪹㫆㫅㪻㪄㫎㫀㫉㪼㫊㪅㩷 㪏㪅 㪫㪿㪼㫊㪼㩷 㫋㪼㫊㫋㫊㩷 㪸㫉㪼㩷 㫇㪼㫉㪽㫆㫉㫄㪼㪻㩷 㫎㫀㫋㪿㩷 㫋㪿㪼㩷 㪻㪼㫍㫀㪺㪼㩷 㫄㫆㫌㫅㫋㪼㪻㩷 㫆㫅㩷 㪈㫀㫅㪉㩷 㪝㪩㪄㪋㩷 㪹㫆㪸㫉㪻㩷 㫎㫀㫋㪿㩷 㪉㫆㫑㪅㩷 㪚㫆㫇㫇㪼㫉㪃㩷 㫀㫅㩷 㪸㩷 㫊㫋㫀㫃㫃㩷 㪸㫀㫉㩷 㪼㫅㫍㫀㫉㫆㫅㫄㪼㫅㫋㩷㫎㫀㫋㪿㩷㪫㪸㪔㪉㪌㷄㪅㩷㪫㪿㪼㩷㪪㪦㪘㩷㪺㫌㫉㫍㪼㩷㫇㫉㫆㫍㫀㪻㪼㫊㩷㪸㩷㫊㫀㫅㪾㫃㪼㩷㫇㫌㫃㫊㪼㩷㫉㪸㫋㫀㫅㪾㪅㩷 㪐㪄 㪉 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 䂓㪫㫐㫇㫀㪺㪸㫃㩷㪜㫃㪼㪺㫋㫉㫀㪺㪸㫃㩷㪸㫅㪻㩷㪫㪿㪼㫉㫄㪸㫃㩷㪚㪿㪸㫉㪸㪺㫋㪼㫉㫀㫊㫋㫀㪺㫊㩷㩿㪥㪄㪺㪿㪀 20 30 5V 10V Vds=5V 25 4.5V 15 4V Id (A) Id (A) 20 15 10 125°C 10 5 Vgs=3.5V 5 25°C 0 0 0 1 2 3 4 5 2 2.5 50 3.5 4 4.5 1.8 40 Normalized On-Resistance 45 Rds(on) (m:) 3 Vgs (Volts) Figure 2: Transfer Characteristics Vds (Volts) Fig 1: On-Region Characteristics Vgs=4.5V 35 30 Vgs=10V 25 Vgs=10V Id=8A 1.6 1.4 Vgs=4.5V Id=6A 1.2 1 20 0 4 8 12 16 20 0.8 Id (A) Figure 3: On-Resistance vs. Drain Current and Gate Voltage 0 25 50 100 125 150 175 1.0E+01 100 Id=8A 90 1.0E+00 125°C 80 70 1.0E-01 125°C Is (A) Rds(on) (m:) 75 Temperature (°C) Figure 4: On-Resistance vs. Junction Temperature 60 50 1.0E-02 25°C 1.0E-03 40 30 1.0E-04 25°C 20 1.0E-05 10 2 4 6 8 0.0 10 0.2 0.4 0.6 0.8 1.0 Vsd (Volts) Figure 6: Body-Diode Characteristics Vgs (Volts) Figure 5: On-Resistance vs. Gate-Source Voltage 㪐㪄 㪊 1.2 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 700 10 Capacitance (pF) Vgs (Volts) 600 Vds=20V Id=8A 8 6 4 Ciss 500 400 300 Coss 200 Crss 2 100 0 0 2 4 6 8 0 10 0 Qg (nC) Figure 7: Gate-Charge Characteristics 100.0 15 20 25 30 35 Vds (Volts) Figure 8: Capacitance Characteristics 160 1ms 10ms 1.0 40 Tj(max.)=175°C Ta=25°C 100Ps Power (W) Id (Amps) 10Ps 10.0 10 200 Tj(max.)=175°C, Ta=25°C Rds(on) limited 5 120 80 DC 40 0 0.0001 0.1 0.1 1 10 100 ZTjc Normalized Transient Thermal Resistance D=Ton/T Tj,pk=Tc+Pdm.ZTjc.RTjc RTjc=7.5°C/W 0.01 0.1 1 10 Pulse Width (s) Figure 10: Single Pulse Power Rating Junction-toCase (Note F) VDS (Volts) Figure 9: Maximum Forward Biased Safe Operating Area (Note F) 10 0.001 In descending order D=0.5, 0.3, 0.1, 0.05, 0.02, 0.01, single pulse 1 Pd 0.1 Ton T Single Pulse 0.01 0.00001 0.0001 0.001 0.01 0.1 1 Pulse Width (s) Figure 11: Normalized Maximum Transient Thermal Impedance (Note F) 㪐㪄 㪋 10 100 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 10 25 8 20 Power Dissipation (W) Id(A), Peak Avalanche Current 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 6 4 L Id ta BV V dd Ta=25°C 2 0 0.00001 15 10 5 0 0.0001 0.001 0 25 50 8 40 75 100 125 150 175 Ta=25°C 6 Power (W) Current rating ID(A) 10 4 2 30 20 10 0 0 25 50 75 100 125 150 0 0.001 175 Tcase (°C) Figure 14: Current De-rating (Note B) 10 ZTja Normalized Transient Thermal Resistance 50 Tcase (°C) Figure 13: Power De-rating (Note B) Time in avalanche, ta (s) Figure 12: Single Pulse Avalanche capability 1 D=Ton/T Tj,pk=Ta+Pdm.ZTja.RTja RTja=60°C/W 0.01 0.1 1 10 100 1000 Pulse Width (s) Figure 15: Single Pulse Power Rating Junction-toAmbient (Note H) In descending order D=0.5, 0.3, 0.1, 0.05, 0.02, 0.01, single pulse 0.1 0.01 Pd Single Pulse Ton 0.001 0.00001 0.0001 0.001 0.01 0.1 1 T 10 Pulse Width (s) Figure 16: Normalized Maximum Transient Thermal Impedance (Note H) 㪐㪄 㪌 100 1000 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 䂓㪜㫃㪼㪺㫋㫉㫀㪺㪸㫃㩷㪚㪿㪸㫉㪸㪺㫋㪼㫉㫀㫊㫋㫀㪺㫊㩷㩿㪧㪄㪺㪿㪀 㪧㪸㫉㪸㫄㪼㫋㪼㫉 㪪㪫㪘㪫㪠㪚㩷㪧㪘㪩㪘㪤㪜㪫㪜㪩㪪 㪛㫉㪸㫀㫅㪄㫊㫆㫌㫉㪺㪼㩷㪹㫉㪼㪸㫂㪻㫆㫎㫅㩷㫍㫆㫃㫋㪸㪾㪼 㪱㪼㫉㫆㩷㪾㪸㫋㪼㩷㫍㫆㫃㫋㪸㪾㪼㩷㪻㫉㪸㫀㫅㩷㪺㫌㫉㫉㪼㫅㫋 㪞㪸㫋㪼㪄㪹㫆㪻㫐㩷㫃㪼㪸㫂㪸㪾㪼㩷㪺㫌㫉㫉㪼㫅㫋 㪞㪸㫋㪼㩷㫋㪿㫉㪼㫊㪿㫆㫃㪻㩷㫍㫆㫃㫋㪸㪾㪼 㪦㫅㩷㫊㫋㪸㫋㪼㩷㪻㫉㪸㫀㫅㩷㪺㫌㫉㫉㪼㫅㫋 㪪㫋㪸㫋㫀㪺㩷㪻㫉㪸㫀㫅㪄㫊㫆㫌㫉㪺㪼㩷㫆㫅㪄㫉㪼㫊㫀㫊㫋㪸㫅㪺㪼 㪝㫆㫉㫎㪸㫉㪻㩷㫋㫉㪸㫅㫊㪺㫆㫅㪻㫌㪺㫋㪸㫅㪺㪼 㪛㫀㫆㪻㪼㩷㪽㫆㫉㫎㪸㫉㪻㩷㫍㫆㫃㫋㪸㪾㪼 㪤㪸㫏㪅㩷㪹㫆㪻㫐㪄㪻㫀㫆㪻㪼㩷㪺㫆㫅㫋㫀㫅㫌㫆㫌㫊㩷㪺㫌㫉㫉㪼㫅㫋 㪛㪰㪥㪘㪤㪠㪚㩷㪧㪘㪩㪘㪤㪜㪫㪜㪩㪪 㪠㫅㫇㫌㫋㩷㪺㪸㫇㪸㪺㫀㫋㪸㫅㪺㪼 㪦㫌㫋㫇㫌㫋㩷㪺㪸㫇㪸㪺㫀㫋㪸㫅㪺㪼 㪩㪼㫍㪼㫉㫊㪼㩷㫋㫉㪸㫅㫊㪽㪼㫉㩷㪺㪸㫇㪸㪺㫀㫋㪸㫅㪺㪼 㪞㪸㫋㪼㩷㫉㪼㫊㫀㫊㫋㪸㫅㪺㪼 㪪㪮㪠㪫㪚㪟㪠㪥㪞㩷㪧㪘㪩㪘㪤㪜㪫㪜㪩㪪 㪫㫆㫋㪸㫃㩷㪾㪸㫋㪼㩷㪺㪿㪸㫉㪾㪼㩷㩿㪈㪇㪭㪀㩷 㪫㫆㫋㪸㫃㩷㪾㪸㫋㪼㩷㪺㪿㪸㫉㪾㪼㩷㩿㪋㪅㪌㪭㪀 㪞㪸㫋㪼㪄㫊㫆㫌㫉㪺㪼㩷㪺㪿㪸㫉㪾㪼 㪞㪸㫋㪼㪄㪻㫉㪸㫀㫅㩷㪺㪿㪸㫉㪾㪼 㪫㫌㫉㫅㪄㫆㫅㩷㪻㪼㫃㪸㫐㩷㫋㫀㫄㪼 㪫㫌㫉㫅㪄㫆㫅㩷㫉㫀㫊㪼㩷㫋㫀㫄㪼 㪫㫌㫉㫅㪄㫆㪽㪽㩷㪻㪼㫃㪸㫐㩷㫋㫀㫄㪼 㪫㫌㫉㫅㪄㫆㪽㪽㩷㪽㪸㫃㫃㩷㫋㫀㫄㪼 㪙㫆㪻㫐㩷㪻㫀㫆㪻㪼㩷㫉㪼㫍㪼㫉㫊㪼㩷㫉㪼㪺㫆㫍㪼㫉㫐㩷㫋㫀㫄㪼 㪙㫆㪻㫐㩷㪻㫀㫆㪻㪼㩷㫉㪼㫍㪼㫉㫊㪼㩷㫉㪼㪺㫆㫍㪼㫉㫐㩷㪺㪿㪸㫉㪾㪼 㪪㫐㫄㪹㫆㫃 㪚㫆㫅㪻㫀㫋㫀㫆㫅㫊 㪙㪭㪻㫊㫊 㪠㪻㪔㪄㪈㪇㫄㪘㪃㩷㪭㪾㫊㪔㪇㪭 㪭㪻㫊㪔㪄㪊㪉㪭 㪠㪻㫊㫊 㪭㪾㫊㪔㪇㪭 㪫㫁㪔㪌㪌㷄 㪠㪾㫊㫊 㪭㪻㫊㪔㪇㪭㪃㩷㪭㪾㫊㪔㫧㪉㪇㪭 㪭㪾㫊㩿㫋㪿㪀 㪭㪻㫊㪔㪭㪾㫊㪃㩷㪠㪻㪔㪄㪉㪌㪇㱘㪘 㪠㪻㩿㫆㫅㪀 㪭㪾㫊㪔㪄㪈㪇㪭㪃㩷㪭㪻㫊㪔㪄㪌㪭 㪭㪾㫊㪔㪄㪈㪇㪭 㪩㪻㫊㩿㫆㫅㪀 㪠㪻㪔㪄㪏㪘 㪫㫁㪔㪈㪉㪌㷄 㪭㪾㫊㪔㪄㪋㪅㪌㪭㪃㩷㪠㪻㪔㪄㪋㪘 㪞㪽㫊 㪭㪻㫊㪔㪄㪌㪭㪃㩷㪠㪻㪔㪄㪏㪘 㪭㫊㪻 㪠㫊㪔㪄㪈㪘㪃㩷㪭㪾㫊㪔㪇㪭 㪠㫊 㪤㫀㫅㪅 㪫㫐㫇㪅 㪄㪋㪇 㪄㪈㪅㪇 㪄㪊㪇 㪄㪈㪅㪏 㪫㪸㪔㪉㪌㷄 㪤㪸㫏㪅 㪬㫅㫀㫋 㪭 㪄㪈 㱘㪘 㪄㪌 㫧㪈㪇㪇 㫅㪘 㪄㪊㪅㪇 㪭 㪘 㪌㪇 㫄㱅 㪋㪈 㪍㪉 㪌㪎 㪎㪇 㫄㱅 㪈㪍 㪪 㪄㪇㪅㪎㪌 㪄㪈㪅㪇㪇 㪭 㪄㪏 㪘 㪚㫀㫊㫊 㪚㫆㫊㫊 㪭㪾㫊㪔㪇㪭㪃㩷㪭㪻㫊㪔㪄㪉㪇㪭㪃㩷㪽㪔㪈㪤㪟㫑 㪚㫉㫊㫊 㪩㪾 㪭㪾㫊㪔㪇㪭㪃㩷㪭㪻㫊㪔㪇㪭㪃㩷㪽㪔㪈㪤㪟㫑 㪍㪌㪎 㪈㪋㪊 㪍㪊 㪍㪅㪌 㫇㪝 㫇㪝 㫇㪝 㱅 㪨㪾 㪨㪾 㪨㪾㫊 㪨㪾㪻 㫋㪻㩿㫆㫅㪀 㫋㫉 㫋㪻㩿㫆㪽㪽㪀 㫋㪽 㫋㫉㫉 㪨㫉㫉 㪈㪋㪅㪈 㪎㪅㪇 㪉㪅㪉 㪋㪅㪈 㪏㪅㪇 㪈㪉㪅㪉 㪉㪋㪅㪇 㪈㪉㪅㪌 㪉㪊㪅㪉 㪈㪏㪅㪉 㫅㪚 㫅㪚 㫅㪚 㫅㪚 㫅㫊 㫅㫊 㫅㫊 㫅㫊 㫅㫊 㫅㪚 㪭㪾㫊㪔㪄㪈㪇㪭㪃㩷㪭㪻㫊㪔㪄㪉㪇㪭㩷 㪠㪻㪔㪄㪏㪘 㪭㪾㫊㪔㪄㪈㪇㪭㪃㩷㪭㪻㫊㪔㪄㪉㪇㪭㩷 㪩㫃㪔㪉㪅㪌㱅㪃㩷㪩㪾㪼㫅㪔㪊㱅 㪠㪽㪔㪄㪏㪘㪃㩷㪻㫃㪆㪻㫋㪔㪈㪇㪇㪘㪆㱘㫊 㪠㪽㪔㪄㪏㪘㪃㩷㪻㫃㪆㪻㫋㪔㪈㪇㪇㪘㪆㱘㫊 㪥㪦㪫㪜㩷㪑 㪈㪅 㪫㪿㪼㩷 㫍㪸㫃㫌㪼㩷 㫆㪽㩷 㪩㱔㫁㪸㩷 㫀㫊㩷 㫄㪼㪸㫊㫌㫉㪼㪻㩷 㫎㫀㫋㪿㩷 㫋㪿㪼㩷 㪻㪼㫍㫀㪺㪼㩷 㫄㫆㫌㫅㫋㪼㪻㩷 㫆㫅㩷 㪈㫀㫅㪉㩷 㪝㪩㪄㪋㩷 㪹㫆㪸㫉㪻㩷 㫆㪽㩷 㪉㫆㫑㪅㩷 㪚㫆㫇㫇㪼㫉㪃㩷 㫀㫅㩷 㫊㫋㫀㫃㫃㩷 㪸㫀㫉㩷 㪼㫅㫍㫀㫉㫆㫅㫄㪼㫅㫋㩷 㫎㫀㫋㪿㩷 㪫㪸㪔㪉㪌㷄㪅㩷 㪫㪿㪼㩷 㫇㫆㫎㪼㫉㩷 㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅㩷 㪧㪻㫊㫄㩷 㫀㫊㩷 㪹㪸㫊㪼㪻㩷 㫆㫅㩷 㪩㱔㫁㪸㩷 㫄㪸㫏㪅㩷 㪸㫃㫃㫆㫎㪼㪻㩷 㫁㫌㫅㪺㫋㫀㫆㫅㩷 㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷 㫆㪽㩷 㪈㪌㪇㷄㪅㩷 㪫㪿㪼㩷 㫍㪸㫃㫌㪼㩷 㫀㫅㩷 㪸㫅㫐㩷 㪾㫀㫍㪼㫅㩷 㪸㫇㫇㫃㫀㪺㪸㫋㫀㫆㫅㫊㩷 㪻㪼㫇㪼㫅㪻㫊㩷 㫆㫅㩷 㫋㪿㪼㩷 㫌㫊㪼㫉㵭㫊㩷 㫊㫇㪼㪺㫀㪽㫀㪺㩷 㪹㫆㪸㫉㪻㩷 㪻㪼㫊㫀㪾㫅㪃㩷 㪸㫅㪻㩷 㫋㪿㪼㩷 㫄㪸㫏㪅㩷 㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷㫆㪽㩷㪈㪎㪌㷄㫄㪸㫐㩷㪹㪼㩷㫌㫊㪼㪻㩷㫀㪽㩷㫋㪿㪼㩷㪧㪚㪙㩷㪸㫃㫃㫆㫎㫊㩷㫀㫋㪅㩷 㪉㪅 㪫㪿㪼㩷 㫇㫆㫎㪼㫉㩷 㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅㩷 㪧㪻㩷 㫀㫊㩷 㪹㪸㫊㪼㪻㩷 㫆㫅㩷 㪫㫁㩿㫄㪸㫏㪅㪀㪔㪈㪎㪌㷄㪃㩷 㫌㫊㫀㫅㪾㩷 㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪺㪸㫊㪼㩷 㫋㪿㪼㫉㫄㪸㫃㩷 㫉㪼㫊㫀㫊㫋㪸㫅㪺㪼㪃㩷 㪸㫅㪻㩷 㫀㫊㩷 㫄㫆㫉㪼㩷 㫌㫊㪼㪽㫌㫃㩷㫊㪼㫋㫋㫀㫅㪾㩷㫋㪿㪼㩷㫌㫇㫇㪼㫉㩷㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅㩷㫃㫀㫄㫀㫋㩷㪽㫆㫉㩷㪺㪸㫊㪼㫊㩷㫎㪿㪼㫉㪼㩷㪸㪻㪻㫀㫋㫀㫆㫅㪸㫃㩷㪿㪼㪸㫉㫋㫊㫀㫅㫂㫀㫅㪾㩷㫀㫊㩷㫌㫊㪼㪻㪅 㪊㪅 㪫㪿㪼㩷㫉㪼㫇㪼㫋㫀㫋㫀㫍㪼㩷㫉㪸㫋㫀㫅㪾㩷㪸㫅㪻㩷㫋㪿㪼㩷㫇㫌㫃㫊㪼㩷㫎㫀㪻㫋㪿㩷㪸㫉㪼㩷㫃㫀㫄㫀㫋㪼㪻㩷㪹㫐㩷㫁㫌㫅㪺㫋㫀㫆㫅㩷㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷㪫㫁㩿㫄㪸㫏㪅㪀㪔㪈㪎㪌㷄㪅㩷 㪋㪅 㪫㪿㪼㩷㪩㱔㫁㪸㩷㫀㫊㩷㫋㪿㪼㩷㫊㫌㫄㩷㫆㪽㩷㫋㪿㪼㩷㫋㪿㪼㫉㫄㪸㫃㩷㫀㫄㫇㪼㪻㪸㫅㪺㪼㩷㪽㫉㫆㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㩷㫋㫆㩷㪺㪸㫊㪼㩷㪩㱔㫁㪺㩷㪸㫅㪻㩷㪺㪸㫊㪼㩷㫋㫆㩷㪸㫄㪹㫀㪼㫅㫋㪅 㪌㪅 㪫㪿㪼㩷㫊㫋㪸㫋㫀㪺㩷㪺㪿㪸㫉㪸㪺㫋㪼㫉㫀㫊㫋㫀㪺㫊㩷㫀㫅㩷㪝㫀㪾㫌㫉㪼㫊㩷㪈㩷㫋㫆㩷㪍㩷㪸㫉㪼㩷㫆㪹㫋㪸㫀㫅㪼㪻㩷㫌㫊㫀㫅㪾㩷㪓㪊㪇㪇㱘㫊㩷㫇㫌㫃㫊㪼㫊㪃㩷㪻㫌㫋㫐㩷㪺㫐㪺㫃㪼㩷㪇㪅㪌䋦㫄㪸㫏㪅 㪍㪅 㪫㪿㪼㫊㪼㩷㪺㫌㫉㫍㪼㫊㩷㪸㫉㪼㩷㪹㪸㫊㪼㪻㩷㫆㫅㩷㫋㪿㪼㩷㫁㫌㫅㪺㫋㫀㫆㫅㪄㫋㫆㪄㪺㪸㫊㪼㩷㫋㪿㪼㫉㫄㪸㫃㩷㫀㫄㫇㪼㪻㪼㫅㪺㪼㩷㫎㪿㫀㪺㪿㩷㫀㫊㩷㫄㪼㪸㫊㫌㫉㪼㪻㩷㫎㫀㫋㪿㩷㫋㪿㪼㩷㪻㪼㫍㫀㪺㪼㩷㫄㫆㫌㫅㫋㪼㪻㩷 㫋㫆㩷㪸㩷㫃㪸㫉㪾㪼㩷㪿㪼㪸㫋㫊㫀㫅㫂㪃㩷㪸㫊㫊㫌㫄㫀㫅㪾㩷㪸㩷㫄㪸㫏㫀㫄㫌㫄㩷㫁㫌㫅㪺㫋㫀㫆㫅㩷㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷㫆㪽㩷㪫㫁㩿㫄㪸㫏㪅㪀㪔㪈㪎㪌㷄㪅 㪎㪅 㪫㪿㪼㩷㫄㪸㫏㫀㫄㫌㫄㩷㪺㫌㫉㫉㪼㫅㫋㩷㫉㪸㫋㫀㫅㪾㩷㫀㫊㩷㫃㫀㫄㫀㫋㪼㪻㩷㪹㫐㩷㪹㫆㫅㪻㪄㫎㫀㫉㪼㫊㪅㩷 㪏㪅 㪫㪿㪼㫊㪼㩷 㫋㪼㫊㫋㫊㩷 㪸㫉㪼㩷 㫇㪼㫉㪽㫆㫉㫄㪼㪻㩷 㫎㫀㫋㪿㩷 㫋㪿㪼㩷 㪻㪼㫍㫀㪺㪼㩷 㫄㫆㫌㫅㫋㪼㪻㩷 㫆㫅㩷 㪈㫀㫅㪉㩷 㪝㪩㪄㪋㩷 㪹㫆㪸㫉㪻㩷 㫎㫀㫋㪿㩷 㪉㫆㫑㪅㩷 㪚㫆㫇㫇㪼㫉㪃㩷 㫀㫅㩷 㪸㩷 㫊㫋㫀㫃㫃㩷 㪸㫀㫉㩷 㪼㫅㫍㫀㫉㫆㫅㫄㪼㫅㫋㩷㫎㫀㫋㪿㩷㪫㪸㪔㪉㪌㷄㪅㩷㪫㪿㪼㩷㪪㪦㪘㩷㪺㫌㫉㫍㪼㩷㫇㫉㫆㫍㫀㪻㪼㫊㩷㪸㩷㫊㫀㫅㪾㫃㪼㩷㫇㫌㫃㫊㪼㩷㫉㪸㫋㫀㫅㪾㪅㩷 㪐㪄 㪍 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 䂓㪫㫐㫇㫀㪺㪸㫃㩷㪜㫃㪼㪺㫋㫉㫀㪺㪸㫃㩷㪸㫅㪻㩷㪫㪿㪼㫉㫄㪸㫃㩷㪚㪿㪸㫉㪸㪺㫋㪼㫉㫀㫊㫋㫀㪺㫊㩷㩿㪧㪄㪺㪿㪀 30 25 -5V -10V -4.5V 25 Vds=-5V 20 -6V -Id (A) -Id (A) 20 Vgs=-4V 15 15 10 10 125°C -3.5V -3V 5 5 25°C 0 0 0 1 2 3 4 0 5 80 2 3 4 5 Normalized On-Resistance 1.80 Vgs=-4.5V 70 Rds(on) (m:) 1 -Vgs (Volts) Figure 2: Transfer Characteristics -Vds (Volts) Fig 1: On-Region Characteristics 60 50 40 Vgs=-10V 30 Vgs=-10V Id=-8A 1.60 1.40 Vgs=-4.5V Id=-6A 1.20 1.00 0.80 20 0 4 8 12 16 0 20 -Id (A) Figure 3: On-Resistance vs. Drain Current and Gate Voltage 25 50 75 100 125 150 175 Temperature (°C) Figure 4: On-Resistance vs. Junction Temperature 1.0E+01 120 Id=-8A 1.0E+00 100 125°C 80 -Is (A) Rds(on) (m:) 1.0E-01 125°C 60 1.0E-02 1.0E-03 25°C 1.0E-04 40 25°C 1.0E-05 1.0E-06 20 2.00E+00 4.00E+00 6.00E+00 8.00E+00 1.00E+01 0.0 0.2 0.4 0.6 0.8 1.0 -Vsd (Volts) Figure 6: Body-Diode Characteristics -Vgs (Volts) Figure 5: On-Resistance vs. Gate-Source Voltage 㪐㪄 㪎 1.2 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 1200 10 Vds=-20V Id=-8A 1000 Capacitance (pF) -Vgs (Volts) 8 6 4 Ciss 800 600 400 Coss 2 200 Crss 0 0 0 4 8 12 -Qg (nC) Figure 7: Gate-Charge Characteristics 0 16 100.0 5 10 15 20 25 -Vds (Volts) Figure 8: Capacitance Characteristics 30 200 Tj(max.)=175°C, Ta=25°C 160 Rds(on) limited 10.0 100Ps Power (W) -Id (Amps) 10Ps Tj(max.)=175°C Ta=25°C 120 80 1.0 DC 1ms 40 0 0.0001 0.1 0.1 1 10 100 Figure 9: Maximum Forward Biased Safe Operating Area (Note F) ZTjc Normalized Transient Thermal Resistance 10 D=Ton/T Tj,pk=Tc+Pdm.ZTjc.RTjc RTjc=3°C/W 0.001 0.01 0.1 1 10 Pulse Width (s) Figure 10: Single Pulse Power Rating Junction-toCase (Note F) -Vds (Volts) In descending order D=0.5, 0.3, 0.1, 0.05, 0.02, 0.01, single pulse 1 Pd 0.1 Ton T Single Pulse 0.01 0.00001 0.0001 0.001 0.01 0.1 1 Pulse Width (s) Figure 11: Normalized Maximum Transient Thermal Impedance (Note F) 㪐㪄 㪏 10 100 㪚㫆㫄㫇㫃㪼㫄㪼㫅㫋㪸㫉㫐㩷㪤㪦㪪㪝㪜㪫㩷 㪜㪣㪤㪉㪋㪍㪇㪋㪟㪘㪄㪪 60 L Id BV V dd ta 8 Power Dissipation (W) -Id(A), Peak Avalanche Current 10 6 4 Ta=25°C 50 40 30 20 10 0 2 0.00001 0.0001 0 0.001 25 100 125 150 175 Ta=25°C 50 8 Power (W) Current rating -Id(A) 75 60 10 6 4 40 30 20 2 10 0 0 25 50 75 100 125 150 0 0.001 175 T case (°C) Figure 14: Current De-rating (Note B) 10 ZTja Normalized Transient Thermal Resistance 50 T case (°C) Figure 13: Power De-rating (Note B) Time in avalanche, ta (s) Figure 12: Single Pulse Avalanche capability 1 D=Ton/T Tj,pk=Ta+Pdm.ZTja.RTja RTja=50°C/W 0.01 0.1 1 10 100 1000 Pulse Width (s) Figure 15: Single Pulse Power Rating Junction-toAmbient (Note H) In descending order D=0.5, 0.3, 0.1, 0.05, 0.02, 0.01, single pulse 0.1 Pd 0.01 Single Pulse Ton 0.001 0.00001 0.0001 0.001 0.01 0.1 1 T 10 Pulse Width (s) Figure 16: Normalized Maximum Transient Thermal Impedance (Note H) 㪐㪄 㪐 100 1000