米6体育平台手机版

ZHCSGE0B June 2017 – January 2019 TPS53681

PRODUCTION DATA.

封装选项

机械数据 (封装 | 引脚)

RSB|40
- MPQF185C

散热焊盘机械数据 (封装 | 引脚)

RSB|40
- QFND255H

订购信息

6.10 Programmable Loadline Settings

over recommended operating conditions (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
DCLL_{Channel A}	DC loadline settings for Channel A	VOUT_DROOP = 0xD000		0		mΩ
		VOUT_DROOP = 0xD008	0.1125	0.125	0.1395	mΩ
		VOUT_DROOP = 0xD010	0.2412	0.25	0.2587	mΩ
		VOUT_DROOP = 0xD014	0.3031	0.3125	0.3218	mΩ
		VOUT_DROOP = 0xD018	0.3637	0.375	0.3872	mΩ
		VOUT_DROOP = 0xD01C	0.4265	0.4375	0.4484	mΩ
		VOUT_DROOP = 0xD020	0.4875	0.5	0.5125	mΩ
		VOUT_DROOP = 0xD024	0.5484	0.5625	0.5765	mΩ
		VOUT_DROOP = 0xD028	0.6093	0.625	0.6406	mΩ
		VOUT_DROOP = 0xD030	0.6855	0.7031	0.7207	mΩ
		VOUT_DROOP = 0xD033	0.7769	0.7969	0.8168	mΩ
		VOUT_DROOP = 0xD034	0.7921	0.8125	0.8328	mΩ
		VOUT_DROOP = 0xD035	0.8073	0.8281	0.8488	mΩ
		VOUT_DROOP = 0xD036	0.8227	0.8438	0.8648	mΩ
		VOUT_DROOP = 0xD037	0.8379	0.8594	0.8808	mΩ
		VOUT_DROOP = 0xD038	0.8531	0.875	0.8968	mΩ
		VOUT_DROOP = 0xD039	0.8683	0.8906	0.9128	mΩ
		VOUT_DROOP = 0xD03A	0.8836	0.9063	0.9289	mΩ
		VOUT_DROOP = 0xD03B	0.8988	0.9219	0.9449	mΩ
		VOUT_DROOP = 0xD03C	0.9140	0.9375	0.9609	mΩ
		VOUT_DROOP = 0xD03D	0.9292	0.9531	0.9769	mΩ
		VOUT_DROOP = 0xD03E	0.9445	0.9688	0.9930	mΩ
		VOUT_DROOP = 0xD03F	0.9597	0.9844	1.0090	mΩ
		VOUT_DROOP = 0xD040	0.975	1	1.025	mΩ
		VOUT_DROOP = 0xD041	0.9902	1.0156	1.0409	mΩ
		VOUT_DROOP = 0xD042	1.0055	1.0313	1.0570	mΩ
		VOUT_DROOP = 0xD043	1.0207	1.0469	1.0730	mΩ
		VOUT_DROOP = 0xD044	1.0359	1.0625	1.0890	mΩ
		VOUT_DROOP = 0xD048	1.0968	1.125	1.1531	mΩ
		VOUT_DROOP = 0xD050	1.2187	1.25	1.2812	mΩ
		VOUT_DROOP = 0xD058	1.3406	1.375	1.4093	mΩ
		VOUT_DROOP = 0xD060	1.4625	1.5	1.5375	mΩ
		VOUT_DROOP = 0xD068	1.5843	1.625	1.6656	mΩ
		VOUT_DROOP = 0xD070	1.7062	1.75	1.7937	mΩ
		VOUT_DROOP = 0xD078	1.8281	1.875	1.9218	mΩ
		VOUT_DROOP = 0xD07C	1.8890	1.9375	1.9859	mΩ
		VOUT_DROOP = 0xD080	1.95	2	2.05	mΩ
		VOUT_DROOP = 0xD084	2.0109	2.0625	2.1141	mΩ
		VOUT_DROOP = 0xD088	2.0718	2.125	2.1781	mΩ
		VOUT_DROOP = 0xD08C	2.1328	2.1875	2.2421	mΩ
		VOUT_DROOP = 0xD090	2.1937	2.25	2.3062	mΩ
		VOUT_DROOP = 0xD098	2.2698	2.328	2.3862	mΩ
		VOUT_DROOP = 0xD09B	2.3612	2.4218	2.4823	mΩ
		VOUT_DROOP = 0xD09C	2.3765	2.4375	2.4984	mΩ
DCLL_{Channel A}	DC loadline settings for Channel A	VOUT_DROOP = 0xD09D	2.3917	2.4531	2.5144	mΩ
		VOUT_DROOP = 0xD09E	2.4069	2.4687	2.5304	mΩ
		VOUT_DROOP = 0xD09F	2.4221	2.4843	2.5464	mΩ
		VOUT_DROOP = 0xD0A0	2.4375	2.5	2.5625	mΩ
		VOUT_DROOP = 0xD0A1	2.4527	2.5156	2.5784	mΩ
		VOUT_DROOP = 0xD0A2	2.4679	2.5312	2.5944	mΩ
		VOUT_DROOP = 0xD0A3	2.4831	2.5468	2.6104	mΩ
		VOUT_DROOP = 0xD0A4	2.4984	2.5625	2.6265	mΩ
		VOUT_DROOP = 0xD0A5	2.5136	2.5781	2.6425	mΩ
		VOUT_DROOP = 0xD0A6	2.5288	2.5937	2.6585	mΩ
		VOUT_DROOP = 0xD0A7	2.5437	2.609	2.6742	mΩ
		VOUT_DROOP = 0xD0A8	2.5593	2.625	2.6906	mΩ
		VOUT_DROOP = 0xD0A9	2.5745	2.6406	2.7066	mΩ
		VOUT_DROOP = 0xD0AA	2.5897	2.6562	2.7226	mΩ
		VOUT_DROOP = 0xD0AB	2.6050	2.6718	2.7385	mΩ
		VOUT_DROOP = 0xD0AC	2.6203	2.6875	2.7546	mΩ
		VOUT_DROOP = 0xD0B0	2.6812	2.75	2.8187	mΩ
		VOUT_DROOP = 0xD0B8	2.8031	2.875	2.9468	mΩ
		VOUT_DROOP = 0xD0C0	2.925	3	3.075	mΩ
		VOUT_DROOP = 0xD0C8	3.0468	3.125	3.2031	mΩ
DCLL_{Channel B}	DC Loadline settings for Channel B	VOUT_DROOP = 0xD000		0		mΩ
		VOUT_DROOP = 0xD008	0.1125	0.125	0.1395	mΩ
		VOUT_DROOP = 0xD010	0.2355	0.25	0.2625	mΩ
		VOUT_DROOP = 0xD014	0.297	0.3125	0.3234	mΩ
		VOUT_DROOP = 0xD018	0.3637	0.375	0.395	mΩ
		VOUT_DROOP = 0xD01C	0.4244	0.4375	0.454	mΩ
		VOUT_DROOP = 0xD020	0.4875	0.5	0.517	mΩ
		VOUT_DROOP = 0xD024	0.5464	0.5625	0.5786	mΩ
		VOUT_DROOP = 0xD028	0.6093	0.625	0.648	mΩ
		VOUT_DROOP = 0xD030	0.6855	0.7031	0.7207	mΩ
		VOUT_DROOP = 0xD033	0.7769	0.7969	0.8168	mΩ
		VOUT_DROOP = 0xD034	0.7921	0.8125	0.8335	mΩ
		VOUT_DROOP = 0xD035	0.8073	0.8281	0.852	mΩ
		VOUT_DROOP = 0xD036	0.8227	0.8438	0.8648	mΩ
		VOUT_DROOP = 0xD037	0.8379	0.8594	0.8815	mΩ
		VOUT_DROOP = 0xD038	0.8531	0.875	0.8968	mΩ
ACLL	AC Loadline settings for both Channel A and Channel B⁽¹⁾	MFR_SPECIFIC_07 = 0x00		0		mΩ
		MFR_SPECIFIC_07 = 0x01	0.1125	0.125	0.1395	mΩ
		MFR_SPECIFIC_07 = 0x02	0.2412	0.25	0.2587	mΩ
		MFR_SPECIFIC_07 = 0x03	0.3031	0.3125	0.3218	mΩ
		MFR_SPECIFIC_07 = 0x04	0.3637	0.375	0.3862	mΩ
		MFR_SPECIFIC_07 = 0x05	0.4265	0.4375	0.4484	mΩ
		MFR_SPECIFIC_07 = 0x06	0.4875	0.5	0.5125	mΩ
		MFR_SPECIFIC_07 = 0x07	0.5484	0.5625	0.5765	mΩ
		MFR_SPECIFIC_07 = 0x08	0.6093	0.625	0.6406	mΩ
		MFR_SPECIFIC_07 = 0x09	0.7312	0.75	0.7687	mΩ
		MFR_SPECIFIC_07 = 0x0A	0.7769	0.7969	0.8168	mΩ
		MFR_SPECIFIC_07 = 0x0B	0.7921	0.8125	0.8328	mΩ
		MFR_SPECIFIC_07 = 0x0C	0.8073	0.8281	0.8488	mΩ
		MFR_SPECIFIC_07 = 0x0D	0.8227	0.8438	0.8648	mΩ
		MFR_SPECIFIC_07 = 0x0E	0.8379	0.8594	0.8808	mΩ
		MFR_SPECIFIC_07 = 0x0F	0.8531	0.875	0.8968	mΩ
		MFR_SPECIFIC_07 = 0x10	0.8683	0.8906	0.9128	mΩ
		MFR_SPECIFIC_07 = 0x11	0.8836	0.9063	0.9289	mΩ
		MFR_SPECIFIC_07 = 0x12	0.8988	0.9219	0.9449	mΩ
		MFR_SPECIFIC_07 = 0x13	0.9140	0.9375	0.9609	mΩ
		MFR_SPECIFIC_07 = 0x14	0.9292	0.9531	0.9769	mΩ
		MFR_SPECIFIC_07 = 0x15	0.9445	0.9688	0.9930	mΩ
		MFR_SPECIFIC_07 = 0x16	0.9597	0.9844	1.0090	mΩ
		MFR_SPECIFIC_07 = 0x17	0.975	1	1.025	mΩ
		MFR_SPECIFIC_07 = 0x18	0.9902	1.0156	1.0409	mΩ
		MFR_SPECIFIC_07 = 0x19	1.0055	1.0313	1.0570	mΩ
		MFR_SPECIFIC_07 = 0x1A	1.0207	1.0469	1.0730	mΩ
		MFR_SPECIFIC_07 = 0x1B	1.0359	1.0625	1.0890	mΩ
		MFR_SPECIFIC_07 = 0x1C	1.0968	1.125	1.1531	mΩ
		MFR_SPECIFIC_07 = 0x1D	1.2187	1.25	1.2812	mΩ
		MFR_SPECIFIC_07 = 0x1E	1.3406	1.375	1.4093	mΩ
		MFR_SPECIFIC_07 = 0x1F	1.4625	1.5	1.5375	mΩ
		MFR_SPECIFIC_07 = 0x20	1.5843	1.625	1.6656	mΩ
		MFR_SPECIFIC_07 = 0x21	1.7062	1.75	1.7937	mΩ
		MFR_SPECIFIC_07 = 0x22	1.8281	1.875	1.9218	mΩ
		MFR_SPECIFIC_07 = 0x23	1.8890	1.9375	1.9859	mΩ
		MFR_SPECIFIC_07 = 0x24	1.95	2	2.05	mΩ
		MFR_SPECIFIC_07 = 0x25	2.0109	2.0625	2.1140	mΩ
		MFR_SPECIFIC_07 = 0x26	2.0718	2.125	2.1781	mΩ
		MFR_SPECIFIC_07 = 0x27	2.1328	2.1875	2.2421	mΩ
		MFR_SPECIFIC_07 = 0x28	2.1937	2.25	2.3062	mΩ
		MFR_SPECIFIC_07 = 0x29	2.3156	2.375	2.4343	mΩ
		MFR_SPECIFIC_07 = 0x2A	2.3612	2.4218	2.4823	mΩ
		MFR_SPECIFIC_07 = 0x2B	2.3765	2.4375	2.4984	mΩ
ACLL	AC Loadline settings for both Channel A and Channel B⁽¹⁾	MFR_SPECIFIC_07 = 0x2C	2.3917	2.4531	2.5144	mΩ
		MFR_SPECIFIC_07 = 0x2D	2.4069	2.4687	2.5304	mΩ
		MFR_SPECIFIC_07 = 0x2E	2.4221	2.4843	2.5464	mΩ
		MFR_SPECIFIC_07 = 0x2F	2.4375	2.5	2.5625	mΩ
		MFR_SPECIFIC_07 = 0x30	2.4527	2.5156	2.5784	mΩ
		MFR_SPECIFIC_07 = 0x31	2.4679	2.5312	2.5944	mΩ
		MFR_SPECIFIC_07 = 0x32	2.4831	2.5468	2.6104	mΩ
		MFR_SPECIFIC_07 = 0x33	2.4984	2.5625	2.6265	mΩ
		MFR_SPECIFIC_07 = 0x34	2.5136	2.5781	2.6425	mΩ
		MFR_SPECIFIC_07 = 0x35	2.5288	2.5937	2.6585	mΩ
		MFR_SPECIFIC_07 = 0x36	2.5437	2.609	2.6742	mΩ
		MFR_SPECIFIC_07 = 0x37	2.5593	2.625	2.6906	mΩ
		MFR_SPECIFIC_07 = 0x38	2.5745	2.6406	2.7066	mΩ
		MFR_SPECIFIC_07 = 0x39	2.5897	2.6562	2.7226	mΩ
		MFR_SPECIFIC_07 = 0x3A	2.6050	2.6718	2.7385	mΩ
		MFR_SPECIFIC_07 = 0x3B	2.6203	2.6875	2.7546	mΩ
		MFR_SPECIFIC_07 = 0x3C	2.6812	2.75	2.8187	mΩ
		MFR_SPECIFIC_07 = 0x3D	2.8031	2.875	2.9468	mΩ
		MFR_SPECIFIC_07 = 0x3E	2.925	3	3.075	mΩ
		MFR_SPECIFIC_07 = 0x3F	3.0468	3.125	3.2031	mΩ
t_INT	Integration time constant⁽¹⁾	MFR_SPEC_7<11:8> = 0000b		5		µs
		MFR_SPEC_7<11:8> = 0001b		10		µs
		MFR_SPEC_7<11:8> = 0010b		15		µs
		MFR_SPEC_7<11:8> = 0011b		20		µs
		MFR_SPEC_7<11:8> = 0100b		25		µs
		MFR_SPEC_7<11:8> = 0101b		30		µs
		MFR_SPEC_7<11:8> = 0110b		35		µs
		MFR_SPEC_7<11:8> = 0111b		40		µs
		MFR_SPEC_7<11:8> = 1000b		1		µs
		MFR_SPEC_7<11:8> = 1001b		2		µs
		MFR_SPEC_7<11:8> = 1010b		3		µs
		MFR_SPEC_7<11:8> = 1011b		4		µs
		MFR_SPEC_7<11:8> = 1100b		5		µs
		MFR_SPEC_7<11:8> = 1101b		6		µs
		MFR_SPEC_7<11:8> = 1110b		7		µs
		MFR_SPEC_7<11:8> = 1111b		8		µs