tekken6br_bruce帧数表excel版

© Copyright AUS-MEAT Limited 2005, ISBN 0 9578793 69. All rights reserved.34BEEF PRIMAL CUTSOUTSIDE FLAT2050OUTSIDE 2030EYE ROUND 2040SILVERSIDE 2020RUMP 2090SIRLOIN BUTT 2081D-RUMP 2100ROSTBIFFCHUCK-SQUARE CUTNECK 2280CHUCK 2260CHUCK TENDER2310TOPSIDE 2000KNUCKLE 2070THICK FLANKFLANK STEAK 2210LOIN 2150(Side Strap On)2230SHORT RIBS 1694BRISKET 23202330BRISKET NAVEL END2340BRISKET POINT END 2350 (Deckle off)Beef Primal Cuts1615 (5-rib)1616 (4-rib)1617 (6-rib)ITEM NO.ITEM NO.16301600 (5-rib)1601 (6-rib)1602 (7-rib)ITEM NO.1603 (8-rib)1604 (9-rib)1605 (4-rib)CAP REMOVED1691 (6-rib)1692 (7-rib)1693 (8-rib)1694 (9-rib)ITEM NO.1686 (1-rib)1687 (2-rib)1688 (3-rib)1689 (4-rib)1690 (5-rib)ITEM NO.2070Larder TrimITEM NO.2140 (3-rib)2141 (0-rib)2142 (1-rib)2143 (2-rib)21502160ITEM NO.21502160ITEM NO.2170M. vastus lateralis 2068ITEM NO.2460ITEM NO.2365A B C E FDBONELESS BEEF MANUFACTURING BULK PACKS DEFINITION Manufacturing Bulk packs are generally made up of the following combinations:•Primal cuts or portions of primal cuts.•Residual trimming from primal cut preparation.•Boneless Forequarter or Hindquarter.•Grinding beef.Manufacturing packs are generally prepared to a specified lean content, assessed visually or tested chemically and expr essed as a per centage of lean meat of the pack (CL). Lean assessment by chemical testing of bulk pack manufacturing meat for export is a standard industry requirement.60CL 80CL90CLHINDQUARTER2521 (3-rib) - 2522 (0-rib) - 2523 (1-rib) - 2524 (2-rib)Hindquarter packs consist of specified primal cuts andassorted trimming pieces. Hindquarter packs do not haveto contain any of the primal cuts listed in Group A.Points requiring specification:•Primal cuts included.•Inclusion of Thin Flank/Thin Flank Meat.•Diaphragm removed.•Intercostals removed.•Specify any Forequarter meat included.GROUP ATenderloin, Shank, Flank Steak.HINDQUARTER MEAT 2530 (3-rib) - 2531 (0-rib) - 2532 (1-rib) - 2533 (2-rib)Hindquarter M eat packs consist of specified primal cuts and associated trim pieces. The pack does not have to contain any of the primal cuts listed in Group A, but contain at least two primal cuts as listed in Group B.Points requiring specification:•Primal cuts included.•Inclusion of Thin Flank/Thin Flank Meat.•Diaphragm removed.•Intercostals removed.•Specify any Forequarter meats included.GROUP ATenderloin , Shank, Flank Steak.GROUP BTopside, Silverside, Thick Flank (Knuckle), Rump,Striploin.Meat images shown are examples of fat/lean only.。

3GPP TS 36.521-1 V14.4.0 (2017-09)Technical Specification3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA);User Equipment (UE) conformance specification;Radio transmission and reception;Part 1: Conformance Testing(Release 14)The present document has been developed within the 3rd Generation Partnership Project (3GPP TM) and may be further elaborated for the purposes of 3GPP.KeywordsUMTS LTE3GPPPostal address3GPP support office address650 Route des Lucioles - Sophia AntipolisValbonne - FRANCETel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16InternetCopyright NotificationNo part may be reproduced except as authorized by written permission.The copyright and the foregoing restriction extend to reproduction in all media.© 2017, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC).All rights reserved.UMTS™ is a Trade Mark of ETSI registered for the benefit of its members3GPP™ is a Trade Mark of ETSI registered for the benefit of its Members and of the 3GPP Organizational Partners LTE™ is a Trade Mark of ETSI registered for the benefit of its Members a nd of the 3GPP Organizational Partners GSM® and the GSM logo are registered and owned by the GSM AssociationContentsForeword (92)Introduction (92)1Scope (93)2References (94)3Definitions, symbols and abbreviations (96)3.1Definitions (96)3.2Symbols (98)3.3Abbreviations (100)4General (103)4.1Categorization of test requirements in CA, UL-MIMO, ProSe, Dual Connectivity, UE category 0, UEcategory M1, UE category 1bis, UE category NB1 and V2X Communication (104)4.2RF requirements in later releases (105)5Frequency bands and channel arrangement (106)5.1General (106)5.2Operating bands (106)5.2A Operating bands for CA (108)5.2B Operating bands for UL-MIMO (116)5.2C Operating bands for Dual Connectivity (116)5.2D Operating bands for ProSe (117)5.2E Operating bands for UE category 0 and UE category M1 (118)5.2F Operating bands for UE category NB1 (118)5.2G Operating bands for V2X Communication (118)5.3TX–RX frequency separation (119)5.3A TX–RX frequency separation for CA (120)5.4Channel arrangement (120)5.4.1Channel spacing (120)5.4.1A Channel spacing for CA (121)5.4.1F Channel spacing for UE category NB1 (121)5.4.2Channel bandwidth (121)5.4.2.1Channel bandwidths per operating band (122)5.4.2A Channel bandwidth for CA (124)5.4.2A.1Channel bandwidths per operating band for CA (126)5.4.2B Channel bandwidth for UL-MIMO (171)5.4.2B.1Channel bandwidths per operating band for UL- MIMO (171)5.4.2C Channel bandwidth for Dual Connectivity (171)5.4.2D Channel bandwidth for ProSe (171)5.4.2D.1Channel bandwidths per operating band for ProSe (171)5.4.2F Channel bandwidth for category NB1 (172)5.4.2G Channel bandwidth for V2X Communication (173)5.4.2G.1Channel bandwidths per operating band for V2X Communication (173)5.4.3Channel raster (174)5.4.3A Channel raster for CA (175)5.4.3F Channel raster for UE category NB1 (175)5.4.4Carrier frequency and EARFCN (175)5.4.4F Carrier frequency and EARFCN for category NB1 (177)6Transmitter Characteristics (179)6.1General (179)6.2Transmit power (180)6.2.1Void (180)6.2.2UE Maximum Output Power (180)6.2.2.1Test purpose (180)6.2.2.4Test description (182)6.2.2.4.1Initial condition (182)6.2.2.4.2Test procedure (183)6.2.2.4.3Message contents (183)6.2.2.5Test requirements (183)6.2.2_1Maximum Output Power for HPUE (185)6.2.2_1.1Test purpose (185)6.2.2_1.2Test applicability (185)6.2.2_1.3Minimum conformance requirements (185)6.2.2_1.4Test description (185)6.2.2_1.5Test requirements (186)6.2.2A UE Maximum Output Power for CA (187)6.2.2A.0Minimum conformance requirements (187)6.2.2A.1UE Maximum Output Power for CA (intra-band contiguous DL CA and UL CA) (189)6.2.2A.1.1Test purpose (189)6.2.2A.1.2Test applicability (189)6.2.2A.1.3Minimum conformance requirements (189)6.2.2A.1.4Test description (189)6.2.2A.1.5Test Requirements (191)6.2.2A.2UE Maximum Output Power for CA (inter-band DL CA and UL CA) (192)6.2.2A.2.1Test purpose (192)6.2.2A.2.2Test applicability (192)6.2.2A.2.3Minimum conformance requirements (192)6.2.2A.2.4Test description (192)6.2.2A.2.5Test Requirements (194)6.2.2A.3UE Maximum Output Power for CA (intra-band non-contiguous DL CA and UL CA) (196)6.2.2A.4.1UE Maximum Output Power for CA (intra-band contiguous 3DL CA and 3UL CA) (196)6.2.2A.4.1.1Test purpose (196)6.2.2A.4.1.2Test applicability (196)6.2.2A.4.1.3Minimum conformance requirements (196)6.2.2A.4.1.4Test description (196)6.2.2A.4.1.5Test Requirements (198)6.2.2A.4.2UE Maximum Output Power for CA (inter-band 3DL CA and 3UL CA) (198)6.2.2A.4.2.1Test purpose (199)6.2.2A.4.2.2Test applicability (199)6.2.2A.4.2.3Minimum conformance requirements (199)6.2.2A.4.2.4Test description (199)6.2.2A.4.2.5Test Requirements (201)6.2.2B UE Maximum Output Power for UL-MIMO (201)6.2.2B.1Test purpose (201)6.2.2B.2Test applicability (202)6.2.2B.3Minimum conformance requirements (202)6.2.2B.4Test description (204)6.2.2B.4.1Initial condition (204)6.2.2B.4.2Test procedure (205)6.2.2B.4.3Message contents (205)6.2.2B.5Test requirements (205)6.2.2B_1HPUE Maximum Output Power for UL-MIMO (207)6.2.2B_1.1Test purpose (207)6.2.2B_1.2Test applicability (207)6.2.2B_1.3Minimum conformance requirements (207)6.2.2B_1.4Test description (207)6.2.2B_1.5Test requirements (208)6.2.2C 2096.2.2D UE Maximum Output Power for ProSe (209)6.2.2D.0Minimum conformance requirements (209)6.2.2D.1UE Maximum Output Power for ProSe Discovery (209)6.2.2D.1.1Test purpose (209)6.2.2D.1.2Test applicability (209)6.2.2D.1.3Minimum Conformance requirements (209)6.2.2D.2UE Maximum Output Power for ProSe Direct Communication (211)6.2.2D.2.1Test purpose (211)6.2.2D.2.2Test applicability (211)6.2.2D.2.3Minimum conformance requirements (211)6.2.2D.2.4Test description (211)6.2.2E UE Maximum Output Power for UE category 0 (212)6.2.2E.1Test purpose (212)6.2.2E.2Test applicability (212)6.2.2E.3Minimum conformance requirements (212)6.2.2E.4Test description (212)6.2.2E.4.3Message contents (213)6.2.2E.5Test requirements (213)6.2.2EA UE Maximum Output Power for UE category M1 (215)6.2.2EA.1Test purpose (215)6.2.2EA.2Test applicability (215)6.2.2EA.3Minimum conformance requirements (215)6.2.2EA.4Test description (216)6.2.2EA.4.3Message contents (217)6.2.2EA.5Test requirements (217)6.2.2F UE Maximum Output Power for category NB1 (218)6.2.2F.1Test purpose (218)6.2.2F.2Test applicability (218)6.2.2F.3Minimum conformance requirements (218)6.2.2F.4Test description (219)6.2.2F.4.1Initial condition (219)6.2.2F.4.2Test procedure (220)6.2.2F.4.3Message contents (220)6.2.2F.5Test requirements (220)6.2.2G UE Maximum Output Power for V2X Communication (221)6.2.2G.1UE Maximum Output Power for V2X Communication / Non-concurrent with E-UTRA uplinktransmission (221)6.2.2G.1.1Test purpose (221)6.2.2G.1.2Test applicability (221)6.2.2G.1.3Minimum conformance requirements (221)6.2.2G.1.4Test description (222)6.2.2G.1.4.1Initial conditions (222)6.2.2G.1.4.2Test procedure (222)6.2.2G.1.4.3Message contents (222)6.2.2G.1.5Test requirements (223)6.2.2G.2UE Maximum Output Power for V2X Communication / Simultaneous E-UTRA V2X sidelinkand E-UTRA uplink transmission (223)6.2.2G.2.1Test purpose (223)6.2.2G.2.2Test applicability (223)6.2.2G.2.3Minimum conformance requirements (223)6.2.2G.2.4Test description (224)6.2.2G.2.4.1Initial conditions (224)6.2.2G.2.4.2Test procedure (225)6.2.2G.2.4.3Message contents (226)6.2.2G.2.5Test requirements (226)6.2.3Maximum Power Reduction (MPR) (226)6.2.3.1Test purpose (226)6.2.3.2Test applicability (226)6.2.3.3Minimum conformance requirements (227)6.2.3.4Test description (227)6.2.3.4.1Initial condition (227)6.2.3.4.2Test procedure (228)6.2.3.4.3Message contents (228)6.2.3.5Test requirements (229)6.2.3_1Maximum Power Reduction (MPR) for HPUE (231)6.2.3_1.1Test purpose (231)6.2.3_1.4Test description (232)6.2.3_1.5Test requirements (232)6.2.3_2Maximum Power Reduction (MPR) for Multi-Cluster PUSCH (232)6.2.3_2.1Test purpose (232)6.2.3_2.2Test applicability (232)6.2.3_2.3Minimum conformance requirements (233)6.2.3_2.4Test description (233)6.2.3_2.4.1Initial condition (233)6.2.3_2.4.2Test procedure (234)6.2.3_2.4.3Message contents (234)6.2.3_2.5Test requirements (234)6.2.3_3Maximum Power Reduction (MPR) for UL 64QAM (235)6.2.3_3.1Test purpose (236)6.2.3_3.2Test applicability (236)6.2.3_3.3Minimum conformance requirements (236)6.2.3_3.4Test description (236)6.2.3_3.4.1Initial condition (236)6.2.3_3.4.2Test procedure (237)6.2.3_3.4.3Message contents (237)6.2.3_3.5Test requirements (238)6.2.3_4Maximum Power Reduction (MPR) for Multi-Cluster PUSCH with UL 64QAM (240)6.2.3_4.1Test purpose (240)6.2.3_4.2Test applicability (240)6.2.3_4.3Minimum conformance requirements (240)6.2.3_4.4Test description (241)6.2.3_4.4.1Initial condition (241)6.2.3_4.4.2Test procedure (242)6.2.3_4.4.3Message contents (242)6.2.3_4.5Test requirements (242)6.2.3A Maximum Power Reduction (MPR) for CA (243)6.2.3A.1Maximum Power Reduction (MPR) for CA (intra-band contiguous DL CA and UL CA) (243)6.2.3A.1.1Test purpose (243)6.2.3A.1.2Test applicability (243)6.2.3A.1.3Minimum conformance requirements (244)6.2.3A.1.4Test description (245)6.2.3A.1.5Test Requirements (248)6.2.3A.1_1Maximum Power Reduction (MPR) for CA (intra-band contiguous DL CA and UL CA) for UL64QAM (250)6.2.3A.1_1.1Test purpose (251)6.2.3A.1_1.2Test applicability (251)6.2.3A.1_1.3Minimum conformance requirements (251)6.2.3A.1_1.4Test description (252)6.2.3A.1_1.5Test requirement (254)6.2.3A.2Maximum Power Reduction (MPR) for CA (inter-band DL CA and UL CA) (255)6.2.3A.2.1Test purpose (255)6.2.3A.2.2Test applicability (255)6.2.3A.2.3Minimum conformance requirements (255)6.2.3A.2.4Test description (256)6.2.3A.2.5Test Requirements (260)6.2.3A.2_1Maximum Power Reduction (MPR) for CA (inter-band DL CA and UL CA) for UL 64QAM (263)6.2.3A.2_1.1Test purpose (263)6.2.3A.2_1.2Test applicability (263)6.2.3A.2_1.3Minimum conformance requirements (263)6.2.3A.2_1.4Test description (264)6.2.3A.2_1.5Test Requirements (266)6.2.3A.3Maximum Power Reduction (MPR) for CA (intra-band non-contiguous DL CA and UL CA) (267)6.2.3A.3.1Test purpose (267)6.2.3A.3.2Test applicability (267)6.2.3A.3.3Minimum conformance requirements (268)6.2.3A.3.4Test description (268)6.2.3A.3_1Maximum Power Reduction (MPR) for CA (intra-band non-contiguous DL CA and UL CA) forUL 64QAM (270)6.2.3A.3_1.1Test purpose (270)6.2.3A.3_1.2Test applicability (270)6.2.3A.3_1.3Minimum conformance requirements (270)6.2.3A.3_1.4Test description (271)6.2.3A.3_1.5Test Requirements (272)6.2.3B Maximum Power Reduction (MPR) for UL-MIMO (272)6.2.3B.1Test purpose (272)6.2.3B.2Test applicability (272)6.2.3B.3Minimum conformance requirements (273)6.2.3B.4Test description (273)6.2.3B.4.1Initial condition (273)6.2.3B.4.2Test procedure (274)6.2.3B.4.3Message contents (275)6.2.3B.5Test requirements (275)6.2.3D UE Maximum Output Power for ProSe (277)6.2.3D.0Minimum conformance requirements (277)6.2.3D.1Maximum Power Reduction (MPR) for ProSe Discovery (278)6.2.3D.1.1Test purpose (278)6.2.3D.1.2Test applicability (278)6.2.3D.1.3Minimum conformance requirements (278)6.2.3D.1.4Test description (278)6.2.3D.1.4.1Initial condition (278)6.2.3D.1.4.2Test procedure (279)6.2.3D.1.4.3Message contents (279)6.2.3D.1.5Test requirements (280)6.2.3D.2Maximum Power Reduction (MPR) ProSe Direct Communication (281)6.2.3D.2.1Test purpose (282)6.2.3D.2.2Test applicability (282)6.2.3D.2.3Minimum conformance requirements (282)6.2.3D.2.4Test description (282)6.2.3D.2.4.1Initial conditions (282)6.2.3D.2.4.2Test procedure (282)6.2.3D.2.4.3Message contents (282)6.2.3D.2.5Test requirements (282)6.2.3E Maximum Power Reduction (MPR) for UE category 0 (282)6.2.3E.1Test purpose (282)6.2.3E.2Test applicability (282)6.2.3E.3Minimum conformance requirements (282)6.2.3E.4Test description (282)6.2.3E.4.1Initial condition (282)6.2.3E.4.2Test procedure (283)6.2.3E.4.3Message contents (283)6.2.3E.5Test requirements (283)6.2.3EA Maximum Power Reduction (MPR) for UE category M1 (284)6.2.3EA.1Test purpose (284)6.2.3EA.2Test applicability (284)6.2.3EA.3Minimum conformance requirements (284)6.2.3EA.4Test description (285)6.2.3EA.4.1Initial condition (285)6.2.3EA.4.2Test procedure (287)6.2.3EA.4.3Message contents (287)6.2.3EA.5Test requirements (287)6.2.3F Maximum Power Reduction (MPR) for category NB1 (290)6.2.3F.1Test purpose (290)6.2.3F.2Test applicability (290)6.2.3F.3Minimum conformance requirements (290)6.2.3F.4Test description (291)6.2.3F.4.1Initial condition (291)6.2.3F.5Test requirements (292)6.2.3G Maximum Power Reduction (MPR) for V2X communication (292)6.2.3G.1Maximum Power Reduction (MPR) for V2X Communication / Power class 3 (293)6.2.3G.1.1Maximum Power Reduction (MPR) for V2X Communication / Power class 3 / Contiguousallocation of PSCCH and PSSCH (293)6.2.3G.1.1.1Test purpose (293)6.2.3G.1.1.2Test applicability (293)6.2.3G.1.1.3Minimum conformance requirements (293)6.2.3G.1.1.4Test description (293)6.2.3G.1.1.4.1Initial condition (293)6.2.3G.1.1.4.2Test procedure (294)6.2.3G.1.1.4.3Message contents (294)6.2.3G.1.1.5Test Requirements (294)6.2.3G.1.2 2956.2.3G.1.3Maximum Power Reduction (MPR) for V2X Communication / Power class 3 / SimultaneousE-UTRA V2X sidelink and E-UTRA uplink transmission (295)6.2.3G.1.3.1Test purpose (295)6.2.3G.1.3.2Test applicability (295)6.2.3G.1.3.3Minimum conformance requirements (295)6.2.3G.1.3.4Test description (295)6.2.3G.1.3.4.1Initial conditions (295)6.2.3G.1.3.4.2Test procedure (296)6.2.3G.1.3.4.3Message contents (297)6.2.3G.1.3.5Test requirements (297)6.2.4Additional Maximum Power Reduction (A-MPR) (297)6.2.4.1Test purpose (297)6.2.4.2Test applicability (297)6.2.4.3Minimum conformance requirements (298)6.2.4.4Test description (310)6.2.4.4.1Initial condition (310)6.2.4.4.2Test procedure (339)6.2.4.4.3Message contents (339)6.2.4.5Test requirements (344)6.2.4_1Additional Maximum Power Reduction (A-MPR) for HPUE (373)6.2.4_1.2Test applicability (374)6.2.4_1.3Minimum conformance requirements (374)6.2.4_1.4Test description (375)6.2.4_1.5Test requirements (376)6.2.4_2Additional Maximum Power Reduction (A-MPR) for UL 64QAM (378)6.2.4_2.1Test purpose (378)6.2.4_2.2Test applicability (378)6.2.4_2.3Minimum conformance requirements (378)6.2.4_2.4Test description (378)6.2.4_2.4.1Initial condition (378)6.2.4_2.4.2Test procedure (392)6.2.4_2.4.3Message contents (392)6.2.4_2.5Test requirements (392)6.2.4_3Additional Maximum Power Reduction (A-MPR) with PUSCH frequency hopping (404)6.2.4_3.1Test purpose (404)6.2.4_3.2Test applicability (404)6.2.4_3.3Minimum conformance requirements (405)6.2.4_3.4Test description (405)6.2.4_3.5Test requirements (406)6.2.4A Additional Maximum Power Reduction (A-MPR) for CA (407)6.2.4A.1Additional Maximum Power Reduction (A-MPR) for CA (intra-band contiguous DL CA and ULCA) (407)6.2.4A.1.1Test purpose (407)6.2.4A.1.2Test applicability (407)6.2.4A.1.3Minimum conformance requirements (407)6.2.4A.1.3.5A-MPR for CA_NS_05 for CA_38C (411)6.2.4A.1.4Test description (413)6.2.4A.1.5Test requirements (419)6.2.4A.1_1Additional Maximum Power Reduction (A-MPR) for CA (intra-band contiguous DL CA and ULCA) for UL 64QAM (425)6.2.4A.1_1.1Test purpose (425)6.2.4A.1_1.2Test applicability (425)6.2.4A.1_1.3Minimum conformance requirements (426)6.2.4A.1_1.3.5A-MPR for CA_NS_05 for CA_38C (429)6.2.4A.1_1.3.6A-MPR for CA_NS_06 for CA_7C (430)6.2.4A.1_1.3.7A-MPR for CA_NS_07 for CA_39C (431)6.2.4A.1_1.3.8A-MPR for CA_NS_08 for CA_42C (432)6.2.4A.1_1.4Test description (432)6.2.4A.1_1.5Test requirements (437)6.2.4A.2Additional Maximum Power Reduction (A-MPR) for CA (inter-band DL CA and UL CA) (443)6.2.4A.2.1Test purpose (443)6.2.4A.2.2Test applicability (444)6.2.4A.2.3Minimum conformance requirements (444)6.2.4A.2.4Test description (444)6.2.4A.2.4.1Initial conditions (444)6.2.4A.2.4.2Test procedure (457)6.2.4A.2.4.3Message contents (458)6.2.4A.2.5Test requirements (461)6.2.4A.3Additional Maximum Power Reduction (A-MPR) for CA (intra-band non-contiguous DL CAand UL CA) (466)6.2.4A.3.1Minimum conformance requirements (466)6.2.4A.2_1Additional Maximum Power Reduction (A-MPR) for CA (inter-band DL CA and UL CA) forUL 64QAM (466)6.2.4A.2_1.1Test purpose (466)6.2.4A.2_1.2Test applicability (466)6.2.4A.2_1.3Minimum conformance requirements (467)6.2.4A.2_1.4Test description (467)6.2.4A.2_1.4.1Initial conditions (467)6.2.4A.2_1.4.2Test procedure (479)6.2.4A.2_1.4.3Message contents (480)6.2.4A.2_1.5Test requirements (480)6.2.4B Additional Maximum Power Reduction (A-MPR) for UL-MIMO (484)6.2.4B.1Test purpose (484)6.2.4B.2Test applicability (485)6.2.4B.3Minimum conformance requirements (485)6.2.4B.4Test description (485)6.2.4B.4.1Initial condition (485)6.2.4B.4.2Test procedure (508)6.2.4B.4.3Message contents (508)6.2.4B.5Test requirements (508)6.2.4E Additional Maximum Power Reduction (A-MPR) for UE category 0 (530)6.2.4E.1Test purpose (530)6.2.4E.2Test applicability (531)6.2.4E.3Minimum conformance requirements (531)6.2.4E.4Test description (531)6.2.4E.4.1Initial condition (531)6.2.4E.4.2Test procedure (535)6.2.4E.4.3Message contents (535)6.2.4E.5Test requirements (536)6.2.4EA Additional Maximum Power Reduction (A-MPR) for UE category M1 (542)6.2.4EA.1Test purpose (542)6.2.4EA.2Test applicability (542)6.2.4EA.3Minimum conformance requirements (543)6.2.4EA.4Test description (544)6.2.4EA.4.1Initial condition (544)6.2.4EA.4.2Test procedure (552)6.2.4G Additional Maximum Power Reduction (A-MPR) for V2X Communication (562)6.2.4G.1Additional Maximum Power Reduction (A-MPR) for V2X Communication / Non-concurrentwith E-UTRA uplink transmissions (562)6.2.4G.1.1Test purpose (562)6.2.4G.1.2Test applicability (562)6.2.4G.1.3Minimum conformance requirements (563)6.2.4G.1.4Test description (563)6.2.4G.1.4.1Initial condition (563)6.2.4G.1.4.2Test procedure (564)6.2.4G.1.4.3Message contents (564)6.2.4G.1.5Test Requirements (564)6.2.5Configured UE transmitted Output Power (564)6.2.5.1Test purpose (564)6.2.5.2Test applicability (564)6.2.5.3Minimum conformance requirements (564)6.2.5.4Test description (594)6.2.5.4.1Initial conditions (594)6.2.5.4.2Test procedure (595)6.2.5.4.3Message contents (595)6.2.5.5Test requirement (596)6.2.5_1Configured UE transmitted Output Power for HPUE (596)6.2.5_1.1Test purpose (596)6.2.5_1.2Test applicability (597)6.2.5_1.3Minimum conformance requirements (597)6.2.5_1.4Test description (597)6.2.5_1.4.1Initial conditions (597)6.2.5_1.4.2Test procedure (597)6.2.5_1.4.3Message contents (597)6.2.5_1.5Test requirement (598)6.2.5A Configured transmitted power for CA (599)6.2.5A.1Configured UE transmitted Output Power for CA (intra-band contiguous DL CA and UL CA) (599)6.2.5A.1.1Test purpose (599)6.2.5A.1.2Test applicability (599)6.2.5A.1.3Minimum conformance requirements (599)6.2.5A.1.4Test description (601)6.2.5A.1.5Test requirement (602)6.2.5A.2Void (603)6.2.5A.3Configured UE transmitted Output Power for CA (inter-band DL CA and UL CA) (603)6.2.5A.3.1Test purpose (603)6.2.5A.3.2Test applicability (603)6.2.5A.3.3Minimum conformance requirements (603)6.2.5A.3.4Test description (605)6.2.5A.3.5Test requirement (606)6.2.5A.4Configured UE transmitted Output Power for CA (intra-band non-contiguous DL CA and ULCA) (607)6.2.5A.4.1Test purpose (607)6.2.5A.4.2Test applicability (607)6.2.5A.4.3Minimum conformance requirements (607)6.2.5A.4.4Test description (608)6.2.5A.4.5Test requirement (610)6.2.5B Configured UE transmitted Output Power for UL-MIMO (611)6.2.5B.1Test purpose (611)6.2.5B.2Test applicability (611)6.2.5B.3Minimum conformance requirements (611)6.2.5B.4Test description (612)6.2.5B.4.1Initial conditions (612)6.2.5B.4.2Test procedure (612)6.2.5B.4.3Message contents (613)6.2.5B.5Test requirement (613)6.2.5E Configured UE transmitted Output Power for UE category 0 (614)6.2.5E.4.1Initial conditions (614)6.2.5E.4.2Test procedure (614)6.2.5E.4.3Message contents (614)6.2.5E.5Test requirement (615)6.2.5EA Configured UE transmitted Power for UE category M1 (615)6.2.5EA.1Test purpose (615)6.2.5EA.2Test applicability (615)6.2.5EA.3Minimum conformance requirements (615)6.2.5EA.4Test description (616)6.2.5EA.4.1Initial condition (616)6.2.5EA.4.2Test procedure (617)6.2.5EA.4.3Message contents (617)6.2.5EA.5Test requirements (617)6.2.5F Configured UE transmitted Output Power for UE category NB1 (618)6.2.5F.1Test purpose (618)6.2.5F.2Test applicability (618)6.2.5F.3Minimum conformance requirements (618)6.2.5F.4Test description (619)6.2.5F.4.1Initial conditions (619)6.2.5F.4.2Test procedure (620)6.2.5F.4.3Message contents (620)6.2.5F.5Test requirement (620)6.2.5G Configured UE transmitted Output Power for V2X Communication (620)6.2.5G.1Configured UE transmitted Output Power for V2X Communication / Non-concurrent with E-UTRA uplink transmission (621)6.2.5G.1.1Test purpose (621)6.2.5G.1.2Test applicability (621)6.2.5G.1.3Minimum conformance requirements (621)6.2.5G.1.4Test description (622)6.2.5G.1.4.1Initial conditions (622)6.2.5G.1.4.2Test procedure (622)6.2.5G.1.4.3Message contents (622)6.2.5G.1.5Test requirements (622)6.2.5G.2Configured UE transmitted Output Power for V2X Communication / Simultaneous E-UTRAV2X sidelink and E-UTRA uplink transmission (622)6.2.5G.2.1Test purpose (623)6.2.5G.2.2Test applicability (623)6.2.5G.2.3Minimum conformance requirements (623)6.2.5G.2.4Test description (625)6.2.5G.2.4.1Initial conditions (625)6.2.5G.2.4.2Test procedure (626)6.2.5G.2.4.3Message contents (626)6.2.5G.2.5Test requirements (626)6.3Output Power Dynamics (627)6.3.1Void (627)6.3.2Minimum Output Power (627)6.3.2.1Test purpose (627)6.3.2.2Test applicability (627)6.3.2.3Minimum conformance requirements (627)6.3.2.4Test description (627)6.3.2.4.1Initial conditions (627)6.3.2.4.2Test procedure (628)6.3.2.4.3Message contents (628)6.3.2.5Test requirement (628)6.3.2A Minimum Output Power for CA (629)6.3.2A.0Minimum conformance requirements (629)6.3.2A.1Minimum Output Power for CA (intra-band contiguous DL CA and UL CA) (629)6.3.2A.1.1Test purpose (629)6.3.2A.1.4.2Test procedure (631)6.3.2A.1.4.3Message contents (631)6.3.2A.1.5Test requirements (631)6.3.2A.2Minimum Output Power for CA (inter-band DL CA and UL CA) (631)6.3.2A.2.1Test purpose (631)6.3.2A.2.2Test applicability (632)6.3.2A.2.3Minimum conformance requirements (632)6.3.2A.2.4Test description (632)6.3.2A.2.4.1Initial conditions (632)6.3.2A.2.4.2Test procedure (633)6.3.2A.2.4.3Message contents (633)6.3.2A.2.5Test requirements (633)6.3.2A.3Minimum Output Power for CA (intra-band non-contiguous DL CA and UL CA) (634)6.3.2A.3.1Test purpose (634)6.3.2A.3.2Test applicability (634)6.3.2A.3.3Minimum conformance requirements (634)6.3.2A.3.4Test description (634)6.3.2A.3.4.1Initial conditions (634)6.3.2A.3.4.2Test procedure (635)6.3.2A.3.4.3Message contents (635)6.3.2A.3.5Test requirements (635)6.3.2B Minimum Output Power for UL-MIMO (636)6.3.2B.1Test purpose (636)6.3.2B.2Test applicability (636)6.3.2B.3Minimum conformance requirements (636)6.3.2B.4Test description (636)6.3.2B.4.1Initial conditions (636)6.3.2B.4.2Test procedure (637)6.3.2B.4.3Message contents (637)6.3.2B.5Test requirement (637)6.3.2E Minimum Output Power for UE category 0 (638)6.3.2E.1Test purpose (638)6.3.2E.2Test applicability (638)6.3.2E.3Minimum conformance requirements (638)6.3.2E.4Test description (638)6.3.2E.4.1Initial conditions (638)6.3.2E.4.2Test procedure (639)6.3.2E.4.3Message contents (639)6.3.2E.5Test requirement (639)6.3.2EA Minimum Output Power for UE category M1 (639)6.3.2EA.1Test purpose (639)6.3.2EA.2Test applicability (640)6.3.2EA.3Minimum conformance requirements (640)6.3.2EA.4Test description (640)6.3.2EA.4.1Initial condition (640)6.3.2EA.4.2Test procedure (641)6.3.2EA.4.3Message contents (641)6.3.2EA.5Test requirements (641)6.3.2F Minimum Output Power for category NB1 (641)6.3.2F.1Test purpose (641)6.3.2F.2Test applicability (641)6.3.2F.3Minimum conformance requirements (642)6.3.2F.4Test description (642)6.3.2F.4.1Initial conditions (642)6.3.2F.4.2Test procedure (643)6.3.2F.4.3Message contents (643)6.3.2F.5Test requirements (643)6.3.3Transmit OFF power (643)6.3.3.5Test requirement (644)6.3.3A UE Transmit OFF power for CA (644)6.3.3A.0Minimum conformance requirements (644)6.3.3A.1UE Transmit OFF power for CA (intra-band contiguous DL CA and UL CA) (645)6.3.3A.1.1Test purpose (645)6.3.3A.1.2Test applicability (645)6.3.3A.1.3Minimum conformance requirements (645)6.3.3A.1.4Test description (645)6.3.3A.1.5Test Requirements (645)6.3.3A.2UE Transmit OFF power for CA (inter-band DL CA and UL CA) (646)6.3.3A.2.1Test purpose (646)6.3.3A.2.2Test applicability (646)6.3.3A.2.3Minimum conformance requirements (646)6.3.3A.2.4Test description (646)6.3.3A.2.5Test Requirements (646)6.3.3A.3UE Transmit OFF power for CA (intra-band non-contiguous DL CA and UL CA) (646)6.3.3A.3.1Test purpose (646)6.3.3A.3.2Test applicability (646)6.3.3A.3.3Minimum conformance requirements (647)6.3.3A.3.4Test description (647)6.3.3A.3.5Test Requirements (647)6.3.3B UE Transmit OFF power for UL-MIMO (647)6.3.3B.1Test purpose (647)6.3.3B.2Test applicability (647)6.3.3B.3Minimum conformance requirement (647)6.3.3B.4Test description (647)6.3.3B.5Test requirement (648)6.3.3C 6486.3.3D UE Transmit OFF power for ProSe (648)6.3.3D.0Minimum conformance requirements (648)6.3.3D.1UE Transmit OFF power for ProSe Direct Discovery (648)6.3.3D.1.1Test purpose (649)6.3.3D.1.2Test applicability (649)6.3.3D.1.3Minimum Conformance requirements (649)6.3.3D.1.4Test description (649)6.3.3D.1.5Test requirements (650)6.3.3E UE Transmit OFF power for UE category 0 (650)6.3.3E.1Test purpose (650)6.3.3E.2Test applicability (650)6.3.3E.3Minimum conformance requirement (650)6.3.3E.4Test description (651)6.3.3E.5Test requirement (651)6.3.3EA UE Transmit OFF power for UE category M1 (651)6.3.3EA.1Test purpose (651)6.3.3EA.2Test applicability (651)6.3.3EA.3Minimum conformance requirements (651)6.3.3EA.4Test description (651)6.3.3EA.5Test requirements (652)6.3.3F Transmit OFF power for category NB1 (652)6.3.3F.1Test purpose (652)6.3.3F.2Test applicability (652)6.3.3F.3Minimum conformance requirement (652)6.3.3F.4Test description (652)6.3.3F.5Test requirement (652)6.3.4ON/OFF time mask (652)6.3.4.1General ON/OFF time mask (652)6.3.4.1.1Test purpose (652)6.3.4.1.2Test applicability (653)。

Excel中的奥特曼，原来是他！展开全文奥特曼大家再熟悉不过了，但您知道excel中的奥特曼吗？您还在感叹为什么那些Excel大神的操作速度那么快吗？使用快捷键能够大大提高我们的操作效率，今天我们一起来见证下Excel中的奥特曼—ALT键！一、查询所有命令的快捷键打开Excel表，按ALT键，您可以发现所有命令都可以用快捷键了以打印标题为列:操作动画如下：二、快速批量求和选中区域，按ALT+=键，可以快速批量求和操作动画如下：三、强制换行按ALT+Enter键可以快速换行操作动画如下：四、定位可见单元格按ALT+；快速定位可见单元格，相当于按F5键-定位条件-可见单元格，可用于在筛选状态下或有隐藏数据时的复制、粘贴。

操作动画如下：五、整列或整行移动且替换选中某行或某列，鼠标移至边缘有个四向箭头十字架，按住Alt键，按住鼠标左键拖动，实现移动且替换原有数据。

操作动画如下：六、相当于剪切功能选中要移动的内容，按ALT键不放，可拖拽至另一个工作表中，相当于剪切。

操作动画如下：七、图片与表格边线对齐按ALT键不放，快速让图片与表格边线对齐。

操作动画如下：八、生成下拉列表按ALT+↓键，根据前面已经输入的内容自动生成下拉列表，注意不能隔行。

操作动画如下：九、输入特殊符号按住ALT键不放，输入对应数字如：输入“√”按ALT+41420，输入“×”按ALT+41409十、快速切换桌面窗口按ALT+Tab键，快速切换桌面窗口。

比如工作时间你在玩游戏，老板过来了，你可以按ALT+Tab键快速切换到工作界面。

十一、快速关闭当前程序窗口按ALT+F4键，快速关闭当前程序窗口。

十二、截图按Alt+A微信截图，按Ctrl+Alt+A QQ截图十三、终止某一进程按下Ctrl+Alt+Delete键即可弹出一个程序，可以选择启动任务管理器-选择应用程序-结束任务，即可快速终止该进程。

十四、快速打开透视ALT+D+P快速打开数据透视表和数据透视图向导ALT+D+P+F快速创建数据透视表操作动画如下：十五、快速打开VBE界面按ALT+F11键，快速打开VBE界面，插入模块就可以编写VBA 代码了操作动画如下：Excel中的奥特曼,赶紧收藏吧！同时也希望您能向您身边的朋友、同事推荐我们的公众号，让更多的的人一起学习，赶紧行动吧！。

动作指令发生持续后硬直击中优势帧5 LP42645 MP631325 HP732205 LK43745 MK831625 HK941512 LP42742 MP631362 HP921762 LK43642 MK821602 HK8222击倒跳 LP36--跳 MP55--跳 HP64--跳 LK45--跳 MK67--跳 HK85--knee bazooka6+LK7618-1跳ing sobat6+MK132182 chopping assault6+MP223161 step kick6+HK134152 spinning back knuckle6+HP15330-3 side knee attack4+MK55152 rapid punch LP > MP63141 rapid kick LK > MK54114 wind shear MP > LK > HP6--击倒down burst2+MP > 6+MP193141 raptor combination MK > HK > MK8--击倒dragon suplex LP+LK5218击倒target down4+LP+LK5218击倒air jack LP+LK（空中）52-击倒sonic 动作 hide HP+HKsonic 动作 bliz air4+HP+HKsonic 动作 steel air6+HP+HKbullet clear MP+MK88192 sonic 动作 avoid6+PPPsonic boom LP236+LP15-32-3 sonic boom MP236+MP17-30-1 sonic boom HP236+HP22-233 sonic boom EX236+PP11-264 sonic scythe LK214+LK10324击倒sonic scythe MK214+MK15322击倒sonic scythe HK214+HK172(3)321击倒sonic scythe EX214+KK63(3)3(26)7击倒moonsault slash LK236+LK373104 moonsault slash MK236+MK373124moonsault slash HK236+HK373144 moonsault slash EX236+KK363(6)3(22)3115 tragedy assault LP623+LP18223击倒tragedy assault MP623+MP22226击倒tragedy assault HP623+HP34228击倒tragedy assault EX623+PP83(17)248击倒judegement saber214,214+P10340击倒生命值950晕值950挑衅60跳45 (3+38+4)前跳45 (3+38+4)后跳45 (3+38+4)前冲17后踏24防御优势帧伤害晕值总计命中停顿磨血攻击等级可取消技能330700H CH,SP,V 06010010H SP,V -59015015H SP,V 330700H SP,V 06010010H V-38015013H V230700H CH,SP,V 26010010H SP,V 38015013H CA,V 120700L V-4501008L V -1210015017L V-40700M--7010012M--9015015M--40700M--6010010M--9015015M--560700H--36010010H--66010010M--29015015H V -139015015H V06010010H SP,V -630*4570*720*8H*H SP,V -230*5470*720*10H*H--760*36*48100*45*6410*0H*H*H--660*54100*9010*10H*M--660*63*56100*72*8010*12H*H*H--120170-T--60*800*200-T--130200-T--33----54----54----56010010H V27-7501008H CA,V -5501008H CA,V -2501008H CA,V 260*54100*9010*10H*H V-78010020H CA,V -810010025H CA,V -1580*40100*10020H*H V -1930x530x4*808*8*8H V17010018H-27010018H-37010018H-140*40*5050*50*5010*10*13H*H*H--570*300*1000H--690*300*1000H--8120*300*1000H--2340*50*300*0*10010*0H*H*H V -31340060H-打康优势帧打康伤害打康晕值击倒优势帧击倒恢复优势帧6368447212014108180636844721203961806368487212089618062484260120击倒1201807122-4884-84120-108180-4884-72120-108180172844721203721204108180击倒 93108180472120136*4584*72436*4584*72击倒72*36*48120*45*648625272*54120*90击倒72*63*56120*72*809132击倒120170578击倒60*800*2006910击倒130200-----------472120-260120160120560120672*54120*90击倒961208626击倒1201208930击倒96*40120*1009839击倒36*30x436*30x3*808627684120684120684120548*40*5060*50*50击倒70*300*100567击倒90*300*100567击倒120*300*100567击倒40*50*300*0*1009637击倒34002424击倒恢复？优势击倒RB Adv.273037810hitAdv 3/blkAdv 1 on 2nd boom 313544327 7 7 37 24。

本文部分内容来自网络整理，本司不为其真实性负责，如有异议或侵权请及时联系，本司将立即删除！== 本文为word格式，下载后可方便编辑和修改！ ==德力西检验报告下载篇一：德力西塑壳断路器德力西塑壳断路器篇二：欧变检测报告预装式变电站出厂检验报告产品型号：YBW-**00/10 出厂编号： ********** 出厂日期：201X年 ** 月** 日************ 有限公司- 1 -一、产品相关数据产品名称：组合式变电站额定电压(kV)： 10/0.4 规格型号： YBW-800/10 额定电流(A)： 1154.73A 额定容量（kVA）：800额定频率(Hz)：50Hz 外壳防护等级：IP33额定绝缘水平：75/35 二、检验项目及结果三、检验依据1、GB/T17467-98 《高压/低压预装式变电站》2、GB3906-91 《3～35kV交流金属封闭开关设备》3、GB1094-96 《电力变压器》4、GB7251-97 《低压成套开关设备》5、GB/T16934-97 《电能计量柜》6、GB3309-89 《交流开关设备常温下的机械试验》7、GB4208-93 《外壳防护等级分类》8、GB311.1-97 《高压输变电设备的绝缘配合》四、检验结论：本产品经检验合格，准予出厂。

- 2 -附录一主要元器件表注：上表中的“√”表示该产品有生产许可证或经过了型式试验。

附录二检测项目- 3 -2 机械特性试验2.2 变压器温度和液面检测方便、正确。

2.3 熔断器更换方便。

- 4 -检验员：检验科：- 5 -篇三：德力西9000系列变频器说明书目录目录 .......................... 1 第一章序言 (3)1.1安全运行的注意事项 (4)1.2 验收 (5)1.2.1验收检查 ........................................... 5 1.2.2检查铭牌数据 (5)第二章产品外形尺寸及规格 (6)2.1 产品外形尺寸 (6)2.2 CDI9000变频器系列规格 (8)第三章变频器的安装及运行 (10)3.1安装 (10)3.2 卸下和重新装上前盖 ............................ 10 3.3 取下和重新装上数字操作键盘 ............. 10 3.4 选择安装变频器的环境 ........................ 11 3.5 安装间隙 .............................................. 12 3.6 接线 ..................................................... 13 3.6.1 主回路的接线 ................................. 13 3.6.2 外围设备和任选件的接线 ............... 14 3.6.3 接地................................................ 18 3.6.4 控制电路的接线 ............................. 19 3.7 运行 ..................................................... 22 3.7.1 操作方式的选择 ............................. 22 3.7.2 试运行前的检查 ............................. 23 3.7.3 试运行 ............................................ 23 3.7.4 运行检查 (23)第四章键盘操作 (24)4.1 键盘按键及功能 (24)4.2 键盘显示方式 ....................................... 25 4.2.1运行数据监视方式........................... 25 4.2.2 故障/告警监视方式 ......................... 25 4.2.3参数设定方式 .................................. 25 4.3 查看/设定参数的方法(用数字键盘) ...... 26 4.4 设定频率的方法 ................................... 27 4.4.1 用数字键盘直接设定频率 ............... 27 4.4.2 用键盘电位器设定频率 ..................27 5.1 功能参数一览表 ................................. 28 5.2 参数设定准备 ..................................... 36 5.2.1 参数设定 ........................................ 36 5.2.2 开机显示画面选择（10-02） ......... 36 5.2.3 自设定显示功能选择1（10-03） .. 375.2.4 自设定显示功能选择2（10-04） .. 37 5.2.5 输入端子状态显示（00-12） ......... 37 5.2.6 输出端子状态显示（00-13） (37)目录5.3基本参数的设定 .................................... 38 5.3.1 V/f 特性的设定 ................................ 38 5.3.2 频率限制(01-07,01-08) .................. 39 5.3.3 使用2种加减速时间 ..................... 40 5.3.4 软启动特性（01-37） .................... 41 5.4 运行指令 .............................................. 41 5.4.1 模拟频率设定方式 ......................... 41 5.4.2 载波频率（01-26） ....................... 41 5.4.3 反转禁止 (02-21) .......................... 42 5.4.4 启动时直流制动时间（01-19） ..... 42 5.4.5 选择停止方式（02-16） ................ 42 5.4.6 滑差补偿增益(01-23) (43)第六章输入输出功能介绍 (44)6.1 模拟表输出 (44)6.2 多功能输出选择 ................................... 44 6.3 频率检测(03-10,03-11) ........................ 45 6.4 输入功能介绍 ...................................... 46 6.4.1 模拟输入 ........................................ 46 6.4.2 端子运行控制方式（02-17） ......... 47 6.4.3 上电处理端子运行选择（02-19） . 48 6.3.4 复位启动方式选择（02-20） ......... 48 6.4.5 点动频率（01-50） ....................... 48 6.4.6 使用多功能输入信号 ...................... 49 6.4.7 定时器功能 .................................... 50 6.4.8 禁止加减速指令 ............................. 50 6.4.9 UP/DOWN(上升/下降)指令 ............ 50 6.4.10 计数器功能 .................................. 51 6.5 多段速度和程序运行............................ 52 6.5.1 多段速度的选择 ............................. 52 6.5.2 程序运行 ........................................ 53 6.5.3 摆频运行 ........................................ 57 6.6 PI控制参数 .......................................... 57 6.6.1 外部V2给定值(03-17，03-18) ... 57 6.6.2 外部IF反馈值 (03-21，03-22) .. (58)6.6.3 反馈滤波时间(03-24) ..................... 58 6.6.4 PI调节误差极性(05-01) ................. 58 6.6.5 PI调节方式最小运行频率(05-09) ... 58 6.6.6 PI调节方式最大运行频率(05-10) ... 58 6.7 保护参数 .............................................. 59 6.7.1过电压失速保护 (01-29) ................ 59 6.7.2能耗制动选择（06-06） ................. 59 6.7.3自动电压调整AVR（01-16） (59)6.7.4 电流限制（01-27） ....................... 60 6.7.5 过转矩检测 .................................... 61 6.7.6 电机保护 (62)目录6.8 其他功能 .............................................. 63 6.8.1 瞬时停电再启动选择（02-11） ...... 63 6.8.2 追踪启动方式（02-13） ................ 63 6.8.3 跳跃频率 ........................................ 64 6.8.4 自动转矩补偿（01-14） ................ 64 6.8.5 节能控制（01-30） ........................ 64 6.9 用RS-485通信进行控制 ..................... 65 6.9.1 通信参数设定： ............................. 65 6.9.2 通信规格 (65)第七章故障 (66)7.1 故障诊断和排除措施 (67)7.2 报警显示和解释 ................................... 68 7.3 电动机故障和排除措施 (69)附录1: 技术规范............... 70 附录2: 定期维护及检查方法 .. (71)附录3: RS-485通讯协议修正 .... 72 附录4: 用于注塑机改造的说明 ... 76 附录5: 典型接线图 . (79)A5.1. 外部按钮调速接线图 (79)A5.2. 外接电位器调速接线图 ..................... 80 A5.3. PID闭环控制接线图.......................... 81 A5.4. 多段速控制接线图 ............................ 82 A5.5. RS485通讯接线图 (83)附录6: 选件选用指南 (84)A6.1. 交流电抗器ACL ............................... 84 A6.2. 直流电抗器DCL ............................... 84 A6.3. 无线电噪声滤波器 ............................ 85 A6.4. 远方操作键盘 ................................... 85 A6.5. 回生制动单元及回生制动电阻 .......... 86 A6.6. 漏电保护器 (86)附录7: 变频器知识问答 (87)第一章序言第一章序言感谢您选用德力西（杭州）变频器有限公司生产的CDI9000系列变频调速器。

excel 射击训练表摘要：1.Excel 射击训练表概述2.制作射击训练表的步骤3.使用射击训练表进行训练的好处4.结语正文：【1.Excel 射击训练表概述】Excel 射击训练表是一种以Excel 表格为基础，用于记录和跟踪射击训练数据的工具。

射击运动员或教练员可以使用该表格来收集、整理和分析射击训练过程中的各项数据，从而更好地了解运动员的表现，发现问题，制定针对性的训练计划。

【2.制作射击训练表的步骤】制作Excel 射击训练表的步骤如下：(1) 打开Excel，新建一个空白工作簿。

(2) 在第一行输入表头信息，例如：运动员姓名、训练日期、射击项目、枪支类型、射击轮次、靶子编号、环数等。

(3) 按照实际训练需求，在表格中添加适当的行和列，以记录每次射击的数据。

(4) 在表格中填写运动员的基本信息，如姓名、性别、年龄、所在队伍等。

(5) 在训练过程中，根据运动员的表现，实时更新表格中的数据，包括射击环数、弹药数量、射击时间等。

(6) 对表格中的数据进行整理和分析，生成可视化图表，以便更直观地观察运动员的训练进度和成绩变化。

【3.使用射击训练表进行训练的好处】使用Excel 射击训练表进行射击训练具有以下好处：(1) 提高训练效率：通过实时记录和分析射击数据，教练员可以迅速发现运动员在训练中存在的问题，并针对性地进行指导，提高训练效率。

(2) 增强训练针对性：根据射击训练表中的数据，教练员可以更准确地了解运动员在不同射击条件下的表现，从而制定更有针对性的训练计划。

(3) 提升运动员自信心：通过射击训练表，运动员可以清晰地看到自己在训练过程中的进步，从而增强自信心，提高比赛水平。

(4) 便于沟通和协作：Excel 射击训练表可以方便地共享给运动员、教练员及相关人员，便于各方进行沟通和协作，共同提高训练效果。

【4.结语】总之，Excel 射击训练表作为一种有效的射击训练辅助工具，可以帮助运动员和教练员更好地进行射击训练。

《铁拳7》帧数表说明及作⽤分析 最近随着热潮涌⼊铁拳7的玩家不在少数，⽼玩家转战铁拳7的就更多了。

铁拳这个游戏是⼀款系统⾮常成熟有特点的游戏，所有⼈物的⼀招⼀式都有特点，然⽽如何以⼀种简单明了的⽅式了解招式的基本特点呢?我们就需要帧数表了。

想要玩的好，铁拳帧数不可少。

帧数说明： 先从科学上来解释⼀下帧数的概念： 帧数(F r a m e s)为帧⽣成数量的简称，英⽂简称F，每⼀帧都是静⽌的图象，快速连续地显⽰帧便形成了运动的假象;帧数与时间的⽐既为帧率。

相信⼤家玩游戏与看动画时都能感觉的出来，某部作品⽐较卡顿，某部作品⽐较流畅，科学上来说，流畅的作品帧率⽐较⾼。

通常来讲，因为⼈眼视觉残留的特性，只要帧率不⼩于24F⼀秒，对⼈来说都是可以容忍的流畅(当然，没有对⽐就没有伤害，如果你从60F⼀秒直接掉下来，我想谁都不能容忍)。

如今市⾯上的正常游戏的帧率是在60F⼀秒左右，理论上来说，帧率越⾼，画⾯越顺，画⾯是否真正能看得出顺畅与否，还是要结合你的显⽰器，和你的眼睛，和你的眼镜等额外因素考虑-- 扯的有点远了，不过相信⼤家现在应该已经了解了什么叫帧数了，那现在就把帧数应⽤到铁拳⾥。

众所皆知，所有的运动都是有快慢之分的，在格⽃游戏⾥，快慢的区分就更加重要，毕竟唯快不破(⼜胡!)。

格⽃游戏的玩家们通常以帧数来表⽰招数的快慢。

在铁拳游戏⾥，铁匠们约定俗成，因游戏帧率为60F⼀秒，所以⼤家就默认了游戏是60F的游戏，所有的讨论介以60F⼀秒为讨论基准。

例如，某招式出招发⽣速度为20F，意思就是这招从出招到打中⼈需要花费1/3秒。

我相信这样⼤家就理解得⽐较清楚了，接下来进阶： 上⾯已经说到，每招每式都有其优劣。

所以如何讨论某⼀招的性能，⼤家通常先从招式帧数⼊⼿，接着由判定，打击效果等综合讨论。

现在我们举个栗⼦：J O S I E神技F1+2，发⽣14F，被防-5。

意思就是F1+2这招，发⽣速度14/60秒，招式被防后对⼿能⽐J O S I E 早5/60秒⾏动。

Excel中的FREQUENCY函数用于统计指定分组区间的频率，并返回一个已裂垂直数组，表示一组数据的频率分布。

其语法结构为：FREQUENCY(data_array, bins_array)。

其中，data_array表示统计数据源的一个数组或者一组数组，而bins_array则表示对数据源进行分组的分组区间组成的数组，即需要分段点。

在使用FREQUENCY函数时，需要注意以下几点：
1.如果bins_array中不包含任何数值，则函数返回的值与data_array中的元素
个数相等。

2.FREQUENCY函数将忽略空白单元格、逻辑值和文本。

3.返回的数组中的元素个数比bins_array中的元素个数多1个，多出来的元素
表示最高区间之上的数值个数。

4.对于返回结果为数组的公式，必须以数组公式的形式输入。

在输入公式后，
需要按下Ctrl+Shift+Enter组合键，而不是仅按下Enter键。

在Excel中使用FREQUENCY函数的实例包括：统计指定数据段的金额数量、分别统计男女个数、分组统计各个成绩段人数等。

总之，FREQUENCY函数是一个非常实用的Excel函数，它可以帮助用户快速地对数据进行分组统计和频率分析。

一、用Exce‎l作品质数据‎的频数分布‎表和直方图‎我们通过下‎面的例子说‎明具体的操‎作步骤。

例1 一家市场调‎查公司随机‎调查50名‎顾客购买饮‎料的品牌，统计资料如‎下表所示：顾客购买饮‎料品牌名称‎步骤一：数据输入（一）在A2到A‎51输入5‎0个饮料品‎牌观测值。

（二）为不同品牌‎的饮料指定‎一个数字代‎码，代码编排如‎下：1．可口可乐；2．健力宝；3．百事可乐；4．芬达；5．雪碧。

（三）在B2到B‎51中输入‎相应的代码‎。

步骤二：指定上限Excel‎现在把代码‎视为数值型‎数据。

为建立频数‎分布表和直‎方图，必须对每一‎个品牌代码‎指定一个上‎限。

本例中，只需将代码‎1、2、3、4和5依次‎输入到工作‎表的C4：C8中。

Excel‎对数值小于‎或等于每一‎品牌代码的‎项数计数。

步骤三：生成频数分‎布表和直方‎图（一）选择“工具”下拉菜单中‎的“数据分析”选项。

出现该对话‎框。

I 提示：如果“数据分析”工具不在“工具”菜单中可采‎用以下方法‎装入。

单击“工具”下拉菜单中‎的选项“加载宏”，出现“加载宏”对话框。

在“当前加载宏‎”的下拉列表‎中，找到“分析数据库‎”选项。

单击它前面‎的复选框，出现对号“√”，确定即可。

（二）在“数据分析”对话框中选‎择“直方图”。

（三）出现直方图‎对话框时，1.在“输入区域”方框中输入‎数据所在单‎元格区域B‎5：B51。

2.在“接受区域”方框中输入‎分组数据上‎限所在单元‎格区域C4‎：C8。

3.在“输出区域”方框中输入‎E3，表示输出区‎域的起点。

4.在输出选项‎中，选择“输出区域”、“累计百分比‎”和“图表输出”。

（四）点击确定。

（五）为了便于阅‎读，单击频数分‎布表中的有‎“接受”字样的单元‎格，输入“饮料品牌”代替；同样，把数值代码‎1、2、3、4和5分别‎用他们对应‎的品牌名称‎替换。

例如，“1”替换为“可口可乐”，“2”替换为“健力宝”等。

一、用Excel 作品质数据的频数分布表和直方图我们通过下面的例子说明具体的操作步骤。

例1 一家市场调查公司随机调查50名顾客购买饮料的品牌，统计资料如下表所示：顾客购买饮料品牌名称健力宝可口可乐健力宝芬达雪碧雪碧健力宝可口可乐雪碧可口可乐健力宝可口可乐可口可乐百事可乐健力宝可口可乐百事可乐健力宝可口可乐百事可乐百事可乐雪碧雪碧百事可乐雪碧可口可乐健力宝健力宝芬达芬达芬达健力宝可口可乐可口可乐可口可乐可口可乐百事可乐雪碧芬达百事可乐雪碧可口可乐百事可乐可口可乐雪碧可口可乐健力宝百事可乐芬达健力宝步骤一：数据输入（一）在A2到A51输入50个饮料品牌观测值。

（二）为不同品牌的饮料指定一个数字代码，代码编排如下：1．可口可乐；2．健力宝；3．百事可乐；4．芬达；5．雪碧。

（三）在B2到B51中输入相应的代码。

步骤二：指定上限Excel现在把代码视为数值型数据。

为建立频数分布表和直方图，必须对每一个品牌代码指定一个上限。

本例中，只需将代码1、2、3、4和5依次输入到工作表的C4：C8中。

Excel对数值小于或等于每一品牌代码的项数计数。

步骤三：生成频数分布表和直方图（一）选择“工具”下拉菜单中的“数据分析”选项。

出现该对话框。

I 提示：如果“数据分析”工具不在“工具”菜单中可采用以下方法装入。

单击“工具”下拉菜单中的选项“加载宏”，出现“加载宏”对话框。

在“当前加载宏”的下拉列表中，找到“分析数据库”选项。

单击它前面的复选框，出现对号“√”，确定即可。

（二）在“数据分析”对话框中选择“直方图”。

（三）出现直方图对话框时，1.在“输入区域”方框中输入数据所在单元格区域B5：B51。

2.在“接受区域”方框中输入分组数据上限所在单元格区域C4：C8。

3.在“输出区域”方框中输入E3，表示输出区域的起点。

4.在输出选项中，选择“输出区域”、“累计百分比”和“图表输出”。

（四）点击确定。

（五）为了便于阅读，单击频数分布表中的有“接受”字样的单元格，输入“饮料品牌”代替；同样，把数值代码1、2、3、4和5分别用他们对应的品牌名称替换。