MGPM32-75AZ资料下载

7խХ խ Ԧ ҃խХ̣˥ ὞ʹ ˦ ?΍ ʹ Ӭͮ὞̾ Ϙ ˦̾ Ϙ ˦ ԌҦͯ̅ ԌҦ ὋʿՎ Ջ ʿՎ Ὃ ͯ nj ˝1 mbar ҁʶ˓ э Ԍ(1013 mbar)njὋ ̾ Ϙ Ὃ̾ ԌҦ˝ эϘὋ˝0 mbar Ὃ ̾ nj ԌҦNj Ӭͮ˖Ὃ ΍ Ӵ(Pa)Nj (kPa)Nj (bar) (mbar)nj Ӵ ˧ ˝ὙSchmalz ˖΍ bar Njmbar % Ӭͮnj ѫ Ԧ Ὃ ˝ ʿԩ ԌҦ ԪӐnj ʼ˶΍ Չ Ф ӬͮὋФ˖ʶ̎ ʽὙ˖Ὃ ̾ Ϙ ὋԀ̾ ˝ эὋΒ Ὃ̾ ˝ԟ Ὃ Ὃ ̾nj̾ʽ ˿ Nj ФӬͮ˧ С njʽ Ϙ Ϙ0.001 bar = 0.1 kPa = 1 mbar =100 Pa1/1̖ ҮҦԌ ˖̖ ʿˀ Й Ὃ ̯-600 mbar ӣ ҁ-900 mbar Ժ Ҫ1.5υ խҦὋͭ խ ԁ Ҫ3υ!Ὃ ˖΍ ʿ nj΍ ˝• ̅( Nj )60%—80%(-600 mbar—-800 mbar)• ̅( Nj NjMDF )20%—40%(-200 mbar—-400 mbar) ˖ὋխҦ Ԧ խ Ҧ խnj˹˖ խ խҦ ̾ -600 mbar ˝Ι nj Ὑ˝( ))ʼ ԌҦ 1013 mbar ὚ ˝600 Ὃ ԌҦ̨˝938 mbar ὚ 2000ԌҦ ҁ˿763mbar njխҦ˶ ͯnj ӣ 100 Ὃ ԌҦ ͯ12.5 mbar Ὃʶ˓ Ԧ ʼ ҁ80%(-800 mbar) Ὃ 2000 ̖ ̨˝-610 mbar(763 mbar Ԍ 80%)Ὃ խ ҁ խҦ ͯnj ʼ ̨ ʶ˓ Β njSchmalz ̖ ˖ ԟ ԌҦ˝1000 mbar ˝20°C njὙ1/2Ձ˖˶΍ ͺԓ ὋՉ Ձ ʿՎ Њ ͇ Ὃʽ Ѵ Schmalz ˖ ʶ̎ ՁnjС Њ ͇ Ժԟ þ ҫÿ ˖ ͺ ӮnjՉ Ц ʽὙˠΒὙ ԦˠΒὙ ˖ ˠΒὙ Ԧ1/32/1խ Ѿխ Ѿ Ջ ͳὋ ̅ Ὃ ̾ ЮխԨ ͇Ὃ ԩ ͇ ̖ Ҧnj խ ͕ҸЦ Ὑ• Џ ͇ὋNj Nj Nj͇ njխ ӣNj Nj ͳ ʶ Њ͇Ὃ Ԧ ͇˧ ͇Ὃ Ὃ խ Nj Ф ԟ nj• խ• խ• Х ͺԓ խ• ΍ ʿՎ Ժ҃ ʿՎ խ (Չ )• ͯὋЮ Ὃ γ • ΞՓҦ• ͳ ὋЮФ ͕ҸὋ΍ ʿՎ Ժ խ njխԟ խ njʼ ˏ խ Չ Ὃ Ѣ˿Չ խ ԟխ ˀʼ խ ͺԓ ʿՎ խխ խ ͕ҸЦխ ̅ ϩ Nj ʿ ͇njխ Ӊ Ԧ Ԍ ̖ Ὃˀ ͳ nj˞ Nj Nj Nj Nj͇njխ Ԍ҃Ὃ ˣ ͳ̖ Ὃ˞խ խԨnj• ˀ ʿ ͇ • խ Х ӣ • ϩ• ͇ խԨ• ʿ ͇Ὃ͇Nj Nj •͇Ὃ Њ ͇Nj ͇• ӉὋі˪2/2խ ү1΍ ͇ ͺ խ ὋΒ Ὑ ˉ Ὃ Nj Ԣ nj ˿Չ Ԣ 2/3խ PFYN ͕Ҹ• • • · •Ю ͳ • • ( Nj Nj Ὃ Ӑ )•і˪ ̅ ͇• ὋխҦ • Ջ ͺֆ • ͇ʿ͗ ˣԪ խխPFYNխ PFYN Տз(mm) NBR -55NBR -5520ˠΒ: PFYNPFYN...PFG...ʿ M 3-AG G 1/2-AG/IG (AG= ὚IG=Ю )1 200NBR-AS -55G 1/8-AG HT 1-60SI -55SI-AS -55PU -55FPM -65FPM-AF-65* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К 2/4PFYN 120 200 IG (Ю )խ PFYNPFYN 1 1.5 AG ( )PFYN 2 10 AG ( )PFYN 15 50 IG (Ю )PFYN 15 50 AG ( )PFYN 6095 IG (Ю )PFYN60 95 AG ( )2/5խ PFYN VU 1 ͕Ҹ• Vulkollan VU 1Ὃ • Ӑ • ͯὙ 10 12 mm ³Ὃ Ջ DIN 53516 э• • Ὑ-4 Ň% Ň%Ὃ Ň%• Ѿ Ὃ Ὃ •ʿԩ ( )•΍ խ 20υ• ͇ʿ͗ ˣԪ • Ջͯ ͇ խ PFYN VU 1 Տ з(mm) VU 1-72VU 1-7230.0 ˠΒ: PFYNPFYN...PFG...ʿ G AG(AG= )G IG(IG=Ю )G 1/8-IG G 1/4-AG G 1/4-IG ·խ PFYN VU 1* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К2/6PFYN VU 1 IG (Ю )PFYN VU 1 AG ( )TV G1/2-IGSPU100.0 400.0NBR-55SI-60G1/4-IG (IG=Ю )G1/2-IGTV...AE...B... ԯխ SPU Տз (mm) ҪҩˠΒὙSPU NBR-55160.0̅Џխ SPU* Ջ M3-DIN 7715 ͇Љ МSPUխ SPU••• Ю ͳ•• ·• Ջ Џ ͇Nj̾Ԣͳ( )• ͇ʿ͗ ˣԪ• ֆ• ՋʿՎ ͇• ὋխҦ͕Ҹ2/7͕Ҹ• Nj խ • ˝ 8×24 խ • ·• • ̅ Nj ͇( Nj )Ҫ ͇• խ ͺ ̖ ʿ Ү• ὋխҦ• ͇ʿ͗ ˣԪխ SGONխὋ Ջ ͇խ SGONխ SGON Տз X (mm)ˠΒ: SGON 30x10 SI -60 G 1/8-IGSGON... SGO...ʿ 4x2 90x30NBR -60NBR-AS -55HT 1-60SI -60M3-AG G 1/4-AG/IG (AG = ὚IG =Ю)SGON 4x2 90x30 AG ( )SGON 4x2 90x30 IG (Ю )* Ջ M 3-DIN 7715 ͇Љ М2/9խ FSGA ͕Ҹ•••1.5 Ὃ ·•խ ʼ Ὃѷ•• Ӑ• Ὃ Ҧ Ὃ ˣ• ՋʿՎ ͇• ʿ ͇Х• ͇ у ὋխҦ• Ү Փ Ҧ• ͇ʿ͗ ˣԪ • ʿԩխ FSGA (1.5 ) Տ(mm) зˠΒ:FSGA FSGA... FGA...ʿ25.0SI -55G 1/8-IG5 78NBR -55SI -55HT 1-60NK -45(AG = IG = Ю )M 5-AG G 1/4-IG/AGG 1/2-IG* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К** խ Ҧ ͯ 40%30.0 110.0VU 1-722/11FSGA 11 78 IG (Ю )FSGA 11 78 AG ( )* Ջ M 3-DIN 7715 ͇Љ МFSGA 30 85 VU 1 IG (Ю )FSGA 110 VU 1 IG (Ю )FSGA 30 85 VU 1 AG ( )2/12͕Ҹ••• 1.5 Ὃ ·• խ ʼ ѷ• • Ջ ͇• ʿ ͇Х• ͇ у ὋխҦ• Ҫ Ү ՓҦ Ҧ• ͇ʿ͗ ˣԪխ FSGA 110/150խ FSGA (1.5 )Nj 110 Ԣ̾ʼ ՏзFSGA... FGA...ʿ ˠΒ: FSGA (mm)110NBR -70G 1/2-IG110 150NBR -70SI -55G 1/2-IG (IG = Ю )ѷ Щխ FSGA (1.5 )Nj 110 Ԣ̾ʼ* Ջ M 3-DIN 7715 ͇Љ МFSGA 110150FGA 110 1502/13խ FSG խխ FSG (2.5 )͕Ҹ• • 2.5 Ὃ · • • • խ ʼ ѷ • Ӑ • VU 1 Ὃ Ҧ Ὃ ˣ• ՋʿՎ ͇• ͇ у ὋխҦ • ʿ ͇Х • ͇ʿ͗ ˣԪ • Ү ՓҦ Ҧ•ʿԩ 32.0NK -45G 1/4-IG 5.0 88.0NBR -55SI -55HT 1-60NK -45 з(mm) FSG...FG...ʿ M 5-IG/AG G 1/4-IG/AG (AG= ὋIG=Ю )խ FSG (2.5 ) ՏˠΒ: FSG30.060.085.0VU 1-72* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Ὃ ͺὋʿӉ К** խ Ҧ ͯ40%2/14խ* Ջ M 3-DIN 7715 ͇Љ МFSG 5 88 IG (Ю )FSG 5 88 AG ( )FSG 30 85 VU 1 IG (Ю )FSG 30 85 VU 1 AG ( )2/15խ FSGB͕Ҹ• 3.5 Ὃ ·••• ͇ у ὋխҦ • ʿ ͇Х • у Ὃ ϩ ͇ 25.0NBR -55 G 1/8-AG FSGB...FGB...ʿ 25.0NBR -55SI -55G 1/8-AG (AG = )G 1/8-IG (IG =Ю )з(mm)խ FSGB (3.5 ) ՏˠΒ: FSGBFSGB 25 IG (Ю )FSGB 25 AG ( )FGB 252/16խ FSGAO ͕Ҹ• VU 1Ὃ ὋѲ͝• 1.5 խ• Ӑ • Ὑ 10 12 mm ³Ὃ ՋDIN 53516 э• 1.5 Ὃ ·• Ὃ Ҧ Ὃ ˣ• Ջ ͇( Nj )NjуԌ͇( ͇)• ʿԩ• ΍ խ 20υ• ͇ у ὋխҦխ ͕Ҹ͔խ FSGAO ( Nj1.5 ) խ FSGAO ( Nj1.5 ) ՏˠΒ: FSGAO 140x65VU 1-72G 1/4-AGFSGAO... FGAO...ʿ 95x40140x65 VU 1-72G 1/8-AG (AG = )G 1/4-AG з X (mm)FSGAO 95x40 140x65VU 1FGAO 95x40 140x65 VU12/17ú ˃խ SAF͕Ҹ• • Ю • • խ • խ ˀ Ӑ Ջ• ՋʿՎ ͇• ʿ͗ Ԫ ὋԀ΍Ι Ժ̾ Θ ΞՓҦ• ὋԀ΍ • ՋՉ ԑ ͇•խ ˣ Ὃ Бխ ͇ Ϣ50.0NBR-60G1/4-AG SAF 30.0 125.0NBR -60NBR -45G 1/4-AG (AG = )G 1/4-IG (IG =Ю )G 3/8-IG M 10-AG M 14x1.5-AGխ SAF Տз(mm) RA...ˠΒὙSAF˃ խ SAF* խ ̅ Ԍ ͇ ʼ Ὃ͗ Ø A 1* ** ՋM 3-DIN 7715 ͇Љ М2/18խ SAB խ Ὃ Ѿ Ջ͕Ҹ•• 1.5 Ὃ ·• խ ʼ Ὃѷ• Ю • ˀխ Ӑ Ջ• ՋʿՎ ͇• ʿ ͇ ὋХ у• Ҧ ՓҦ Ҧ• ʿ͗ Ԫ ὋԀ΍Ι Ժ̾ Θ ΞՓҦ•Бխ ͇ Ϣ60.0 NBR -60 G 3/8-IGSAB 22.0 125.0 NBR -60 G 1/4-AG (AG = )G 1/4-IG (IG =Ю )G 3/8-IGM 10-AG M 14x1.5-AGз (mm)խ SAB (1.5 ) ՏRA...ˠΒ: SAB* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К** ՓҦ ͇˝ -0.6 bar Ὃ Џ ͇nj ͇ ʿՎὋ ͇ʽ ϘԺ ͗ Ԫ*ØA 4˝ ͺ խ ** ՋM3-DIN 7715 ͇Љ М2/19խ SAOF ˃͕Ҹ•• Ю• • • ˀխ Ӑ Ջ• ՋʿՎ ͇• ʿ͗ Ԫ ὋԀ΍ Ι Ժ̾ Θ ΞՓҦ• Ջ ͇ Ὃ Ҫ • ὋԀ΍ ̅ ͇խ SAOF ( ) Ձзx (mm) 80x40NBR -60G 1/4-IG SAOF 50x16 140x70NBR -60NBR -45G 1/4-AG (AG = )G 1/4-IG (IG=Ю )G 3/8-IG M 10-AG M 14x1.5-AG RA...ˠΒ: SAOFSAOF խ 16x50SAOF խ 23x60 SAOF 70x140*A 2 E 2˝ ͺ խ ** ՋM 3-DIN 7715 ͇Љ М 2/20խ SAOB ˃խ SAOB ( Nj1.5 )͕Ҹ• 1.5 · • Ю •• խ • • ͇̅ уԌ ͇• ʿ͗ Ԫ ὋՎ˶Ժ• ՋʿՎ ͇• Ҧ ՓҦ Ҧ• ὋԀ΍ ̅ ʿ80x40NBR -60G 1/4-AGSAOB խ SAOB ( Nj1.5 ) Տз Y NNˠΒ: SAOB 60x30 140x70NBR -60G 1/4-AG (AG = )G 1/4-IG (IG =Ю )G 3/8-IG M 10-AGM 14x1.5-AGRA... 2/21SAOB 30x60 SAOB 70x140*A 4 E 4˝ ͺ խ ** ՋM 3-DIN 7715 ͇Љ Мխ ˃˝ ͇խ SAOG ( )͕Ҹ• խ ˝ -• Ю• Nj ˝45NBR ҃ • ͇• ˀ Nj ͇ ·• Ջ ͇Ὃ ͇ʿ͗Ԫ • Ջ Ӧ ͇• ԺΘ ͇ὋΦ̅ խ ՉʼխSAOG80x30NBR-45G 1/4-AG SAOG 80x3060x2095x40NBR -45 G 1/4-AG (AG = ) / G 1/4-IG (IG =Ю )G 3/8-IG / M 10-AG / M 14x1.5-AG / RA...խ SAOG ( ) Տзx (mm) ˠΒ: SAOGSAOG 60x20 95x40 IG (Ю )SAOG60x20 95x40RA( )* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Ὃ ͇ὋʿӉ К** ՓҦ ͇˝ -0.6 bar Ὃ Џ ͇nj ͇ ʿՎὋ ͇ʽὋ ϘԺ ͗ ԪSAOG 60x20 95x40 AG ( )* Ջ M 3-DIN 7715 ͇Љ М**L 1 D 1˝խ Ԍ ͇ ʼ2/22խՋ ͇խ SGGN 85.0VU 1-72G 1/4-AG SGGN... SGG...ʿ 85.0115.0NBR -60VU 1-72G 1/4-AG (AG = )խ SGGN Տз [mm] ˠΒ: SGGN͕Ҹ• Ὑ VU 1• խ ˝ Ըԯ Ὃ• · • ˶ Ѿ Ὃ ˝ խ 20υ• Ѿ Ջ Юѡ Ѡ ͇Ὃ͇• Ф Ջ ͺֆ хխ SGGNSGGN 85 115.02/23Ԧ Ԧ ԦҮ Ԧ Ὃ խ ˝4 250m ³/h ʽ ҁ nj͕Ҹ• խ ʽ ҁ• Ժͺ˝˖ Ԧ• і˪ʿ Ц• ˖ ˖ Ԧ • Ү ͺ • Ӊ˓ Ὃխ nj˞ ̅ ͳὋ ὋOSB MDF ˖Ю ὋխԨ ծ ҩ ʿ ҃nj ̅К Ү ˖Ὃ Ҫ Ὃ ҃ Ὃ̠҃ Ὃ(85%)nj˞ ̅ ͇ ԦՉ Ԧ ̖ ʽ ʻ1. Ԧ2.3.Ф ὋͭРՎ Ὑ խ ҮҦԦ ʻ Ԧ ˞ ӜѾὙԦ ˇ (Venturi)ԓ ͺnjԌ Й Ԧ ЙԯA Ὃ̯ B ѢὋԀ΍ Ѣԯ ԌҦ ͯ( )Ὃ̯ ΍ ̯ ЙԯD ЙὋˀ Ԍ ʶ ̯C ѢnjԦ ͕Ҹ• Ү ͇Ὃ Ὃʿ• ѓ• ʿԦ•• ̖• Ջ͉ʹ ՓЦ • Չ ˉ ̠ •ˉуԌ ̖ 3/1ʻ ˞ ӜѾὙὋі˪ nj˞ ̅ խХ ˖ ͇ Ὃ -0.98 ba Ὃ ̅ ͇Ὃ ̅ Nj Ջі˪ ὋЮ чԁ, ̅ ͇Ὃ Ѿ ̅ ͺы ՋὋ ˉ Ӊ ͺˉԦ үʶ Փͯ ̖ խ Ὃ˞ ̅խԨ ͳ͕Ҹ• խ• ϩͺ• ̅ ͇Ц• ԀԺ ҁ խ• Ջ ͳὋ NjNj3/2Ԧ SEG ͳ ὋҮҦ ὀԦ SEG͕Ҹ• ˇ (Venturi) • Ὃ Ὃ •Չ ὋʿՎ Ὃ• Ү ͇Ὃ NjБ• Ջ Ү ͇ʼὋˉ ̠Nj• Ὑ ͯԌ ̖ խ 10HS SDA SEG 05...0.5 mm30...3.0 mm HS......LS......HS-S...-........SDA...Ԧ SEG Տз (mm)Ҫҩ Փ ( )ͯ ( խ ) ˠΒ:SEG3/3͕Ҹ• Ὃ Njͳ• Н ʿՎ ԯ• Й• ԯ • Ջ Ү ˖Չ ͮ Ջ• Չ ѢҮҦὋ• ΦὋ• ͯὋ ͯԦ SBPNj ѓNj ὀ-50-100-200-300-400-500-600-700-800SBP 05SDA 0,34 0,68 1,56 2,66 4,02 5,84 8,54 13,22 25,54SBP 07SDA 0,20 0,38 0,84 1,46 2,24 3,26 4,66 6,84 12,56SBP 10SDA 0,06 0,14 0,30 0,52 0,82 1,30 1,98 3,26 6,56SBP 15SDA 0,05 0,08 0,16 0,26 0,40 0,60 0,86 1,30 2,54SBP 20SDA 0,03 0,05 0,09 0,16 0,24 0,34 0,49 0,80 1,74SBP 25SDA 0,02 0,03 0,06 0,09 0,14 0,20 0,28 0,42 0,99Ձ (mbar)Ԧ SBP Տ10G 2SDASBP 05...0.5mm 25...2.5mm G...S... SDA...Փз [mm] ҪҩˠΒ: SBP0-50-100-200-300-400-500-600-700-800SBP 05SDA 8,00 6,62 5,64 4,74 3,81 3,01 2,28 1,42 0,40 0,10SBP 07SDA 16,10 13,60 11,37 9,03 7,25 5,63 3,97 2,65 1,10 0,30SBP 10SDA 37,70 33,20 30,10 26,70 23,00 18,60 14,90 9,80 5,20 1,61SBP 15SDA 71,00 65,00 60,10 52,00 44,00 36,50 29,00 20,50 11,40 2,18SBP 20SDA 127,00 117,80 106,00 94,20 79,10 65,30 49,87 35,99 23,00 8,36SBP25SDA 215,00 172,00 156,10 138,70 118,50 99,10 79,36 58,90 37,2416,24Ձ (mbar)3/4͕Ҹͳ ὋҮҦԦ SBP-C • Ὃ• Н ʿՎ ԯ• Й• Ю ҃• Ջ Ү ˖Չ ͮ ̖ Ջ• Չ ѢҮҦὋ • ΦὋ • ·͕Ӑ ͺֆ3/5 Ԧ SBP -C Տ10S 2NO A VE SBP-C 5...0.5mm7....0.7mm10...1.0mm15...1.5mm20...2.0mm25...2.5mm G... S... NO... NC... A...ծ AI...ծ у-... СVE... С з[mm] խ ѹ ծ ҩ ˠΒ: SBP-CԀ ԀԦ SLP ὋVRԦ SLP 3/6͕Ҹ• Ԧ ˝Փ • =5А• խ Nj••• · ѢԯὋ ͯ • ʼ• Ү ͇ʼ΍•• Ջ Ջ• Ф ͇• ͯԦ VR• խ ˀԌ ˧• Ὃ Ὃ ͕Ҹ• Ὃ ͺ ̖ͮ• Ѿ Ὃ ՋҮ ͇ʼ-50-100-200-300-400-500-600-700-800SLP 050,4 0,7 1,6 2,7 4,0 5,8 8,5 13,1 24,5SLP 070,2 0,4 0,8 1,4 2,2 3,2 4,6 6,7 12,7Ձ (mbar)0-50-100-200-300-400-500-600-700-800SLP 058,00 6,42 4,97 3,76 2,65 1,79 1,06 0,32 0,10 0,05SLP 0715,90 13,30 10,89 8,70 6,67 4,65 2,88 1,29 0,55 0,06 Ձ [mbar]3/7խҦ ҵԦ SEMԦ SEM ͕Ҹ• խ Ҧ•• Ԍ Nj Ԣ͛ ͇• Nj К Չ ͳ• ͯ Ὃ ͺֆ Ὃ ͯ • Nj Φ Nj ͯ* ˝2 OSD... SDA... Փ SDS... ΞՓ3/8Ӭ˓ SXMP ʶ̼ ԦSchmalz X- -SXP/SXMP͕Ҹ• Ὃ ̅• Ὃ ̅• խ ὋծҦ• Ю Ү ҩ• ΦNj• ʿ • ʿԩ•• γ ˝IP 65• ˣ ˓ Ὃђ Ϣ• Φ• ֆ• ͺ ͯ• Ӭ •• КԺ•• γ Ԧ Schmalz X- SXP/SXMP Տ25NO Q M 12SXP... ծ SXMP...ծ 15...1.5mm20...2.0mm 25...2.5mm 30...3.0mm NO...NC... IMP...Ԥ Ὃ̾ уѬ H... V ... Q... ѬM 12...M 12, 8 2x M 12...2xM 12, 5Ձ (mm)խ ѹ Ԍ ˠΒ: SXP15NO AS VD SMP 15...1.5 mmNO... AS...ծ КӬՓ 20...2.0 mmNC... 25...2.5 mm30...3.0 mm Ԧ SMP Տ з (mm)խ ѹ ծ Ԣ К -....... СVE... СVD... СRE... СRD... СˠΒὙSMPԦ SMP͕Ҹ• ҮҦ Θ խ ծ Ҧ• Nj ͕ • Ү ҩ • • •խԨ ͇ Ὃγ ͺֆ• · ҩ Ὃ Չ ͺˉ• Ὃ ͺ••LED Ὃ Φ! С ˝24 VDC* ˝23/915NO AS RDSCP 10...1.0 mm15...1.5 mm 20...2.0 mm 25...2.5 mm 30...3.0 mm NO...NC... AS...ծ ԢӬՓ К Ԧ SCP ՏˠΒ:SCP (mm)խ ѹ ծ Ԣ К-... СVE… СVD… СRE… С ҮRD… С Үз Ԧ SCP͕Ҹ• Ѵ ˝1.0 3.0 mm•• ҩ ( )• ( )•խ Ὃ ·•• Ὃ ͺ• ὋLED Ὃ Φ! С ˝24 VDC* ˝2 0-50-100-200-300-400-500-600-700-800SCP 10...37 35,4 33,2 28,8 24 19,4 16 11,2 6 1,4SCP 15...65 62 58 50 41 32 21 16 9 4SCP 20...116 108 101 90 78 63 48 36 18 5SCP 25...161 149 136 123 107 86 66 49 25 7SCP 30...200 184 168 153 132 107 82 61 319Ձ [mbar]-50-100-200-300-400-500-600-700-800SCP 10...0,087 0,162 0,341 0,591 0,959 1,419 2,035 3,304 7,300SCP 15...0,048 0,088 0,184 0,311 0,480 0,744 1,120 1,692 3,606SCP 20...0,026 0,047 0,095 0,159 0,239 0,349 0,499 0,807 1,652SCP 25...0,015 0,027 0,055 0,089 0,135 0,198 0,288 0,486 0,960SCP 30...0,012 0,021 0,044 0,071 0,108 0,160 0,232 0,392 0,810Ձ [mbar]3/10þ ; ҮҦ ÿԦ SCPM ͕Ҹ• Ὃ•• Ю ҃• Nj ͕• խ ʼ̖ Ὃ Ջ Ү ͇ʼ• • Ӭ ф • խ Ὃ · 07NO A VS-T SCPM 05...0.5mm07...0.7mm10...1.0mm Ԧ SCPM ՏзˠΒ: SCPM (mm*)խ ѹծ -... СA...ծ NO... NC... VS-T... С3/113/13Ϸ ʼEVE-TR.EVE-OG.EVE-WREVE -TR͕Ҹ• • Ԍ ԓ • ˣ Ὃ ҃ч • Չ Ѣ • Ὃ і˪ʿ • Ү Ὃі˪ʿ Ѣ• ҩ • խ Ժ͕Ҹ• Ὃ ʿ Ҫ • ΍ Ӭ ʻ • Ԍ ͗ ҮὋ Ѣ • ѓὋ чԁ ˣ • ͮ ђ • Ջ EVE-WR• Ὃ Ү Ү ҃ Ջ ΍ • Ю • խ Ҧ˝4 250 m 3/h EVE -OG͕Ҹ• • • ˣ ҃ч • Չ Ѣ • Ὃ ̖ Ὃ і˪ʿ • Ү Ὃі˪ʿ Ѣ• ҩ • խ Ժ • Ю ѫ Ὃʻ ͺὋ γ СΘ • Հ ͗ ҮὋ Ѣ • ѓὋ чԁ ˣ • ͇ ˣ Ὃ ὋԺ̾ • ̅ Ү Ү ҃ ͇• խХ ˖ ͺ˖ Ԧ ὋԺ̖ • ̅ • խ Ҧ˝40 255 m 3/h • • Ԍ • Ю чԁҩ ὋԺ • Չ Ѣ • э • ὋБ Ὃ ̅ ͺ ы ҃ː ՋὋ ˉ• Nj ͇Nj • Ѿ Ջ Ս •Ժ Йԯ •Љ Б • Ժ Ѣ Ὃ чԁ ѽ • ʻ Ү • ՀԌ ͗ ҮὋ Ѣ Ὃ Ժ • ͇ ˣ Ὃ Ὃ Ժ̾• ̅ ͺ ы ҃ː Ջ• ̅ ˉ Ӊ ͺˉ•Ջ Ѣ Ὃ γ • ԯ ҃ ͮ• խ Ҧ˝25 65 m 3/hSGBL -DG͕Ҹ• խ • Հ Ԍ ҃ • Չ խ • ˃ ̅ • Ү Ὃխ • Ժ Ὃ · • Հ Ԍ ҃ • Ԍ ԌҦ • γ С ˖ͮ Փ Θխ Ὃ ͯSGBL -DG3/14 ͕Ҹ• ҁ խ Nj ҁ • Ԫ ҩ Ὃ ҃ ҃• ѓNj Φ• ͯ Nj ͯ• Ὃ ͕ • ̅ Ὃ˶Ժ ͇• · խ Ὃ • Ὃ Φ• ђ Ὃ ͯ•Չ ՋNj К• Nj Nj Nj в Ф • խ Ὃ ϩ • խ Ҧ˝80 540 m 3/h• Nj Nj Njв Ф • ̅ ԪӐ ՋὋ̕ԀխՋ• խ Ҧ˝180 335 m 3/h• ̯ ΞԌ ҮὋЮ Ԫ • Ԫ Ү Θ Ԍ γ ҩ4/1 ҃IV Ὃ EMV ὋEMVO ὋEMVP ͕Ҹ• ὋԺ խ ʼ• ѓὋ Φ•Ю Ὃ •ѫ ҃ ὋSchmalz ͛ • ҃Ӭ˓խ • Ὃ Ӭ• К • Ժ Ὃђ Ϣ IV͕Ҹ• • ҃• ̃ͮʻ (EMV-3 ̃ͮ̃ )• С˝ NO (EMV-3 Ὃ˝ NC)• Ջ Ԍ • ը Ջ • /С ҃Ὃ • Ϣ Кγ EMV͕Ҹ• ̃ͮʻ • М • ҃• ҃ /С ҩ • Ջ • ըNj Ջ EMVO͕Ҹ•Ԍ Ў ҃•М •̃ͮʻ • С˝ NO • ըNj Ջ •˶ Ջ • ҃ /С ҩ •Ϣ КγEMVPӠѫ Ὃ ὋӬՓ Ὃ Ү ͕Ҹ• • ԪӐ ͺ • • (SVK ) (SVKG ) •С ʿ΍ խ Ὃγ • Ժ ϩ •˶ Ջ • ՋՉ խ SVK ὋSVKG ὋSVV4/2 ͕Ҹ• •ʿԩ ͇ • •Ե խ ҁ ͇ •˶ ͇• Ջ ΍ TV/TVNӬՓ RSV͕Ҹ• ӬՓ •М • •С (Β Ὃʹʶ )Ὃγ • Ջ ̯ ͯҁ Ջ• Ջ ΍ ͕Ҹ• ̅ Ԍ ˖• М • • • • К Ὃ • ˀМ · • ʿ • Ὃ Ջ̠ͳ • ҩ Ժ ͇ҮHSV5/1 ԺС͕Ҹ• С• Ѭ Ժ • ӬὋ ͺ • Ժ С VS -V -EM -60-C• С• Ѭ Ժ • К ͺὋ • Ժ ͕Ҹ С VS -V -PMС VS -V -SA/SD͕Ҹ• Ὃͳ •͉ ζՁ Ѣ • • M 3 M 5 Ὃ 4 6mm Й • ˖ · Ὃ ̅ Ү Ջ• ՋՉ ͛ • ѢζՁ • Φ СVS -V -AH/AV -T͕Ҹ• þ ÿ Ժ Ѭ • Ԥ Ѣ• Ԥ LED • ̅ • ͛ • Ѭ 200 mA • ͺ• СЊ͇• Nj Ժ • • Ѭ Nj • Ѭ ͕Ҹ• С• Ѣ• Ѭ Ժ • Ѭ • ҃ Ժ Ὃʿ • Ժ Φ С VS -V -A -PNP -SС VS -V͕Ҹ• С• Ѭ Ժ • Ѣ• • Ժ Φ • ҃ Ժ Ὃʿ。

零件说明Pro Xp™静电空气喷枪332055S ZH 用于I类I区危险场所，使用D组材料。

用于II型1区爆炸性环境场所，使用IIA组材料。

仅限专业用途。

重要安全说明若不按照本手册中的信息操作，本设备可能会造成危险。

在使用此设备前，请阅读本手册中的所有警告及说明。

请妥善保存这些说明。

最大流体工作压力为100磅/平方英寸（0.7兆帕，7巴）最大气体工作压力为100磅/平方英寸（0.7兆帕，7巴）有关各型号的零配件号和认证信息，请参见第3页。

PROVEN QUALITY.LEADING TECHNOLOGY.Contents型号 (3)认证 (7)相关手册 (7)警告 (8)喷枪概述 (11)静电空气喷枪如何工作 (11)控制器、指示器和组件 (12)智能喷枪 (13)安装 (18)警告标示 (18)喷涂柜要通风 (18)供气管路 (19)流体供应管路 (19)接地 (21)喷枪设置 (25)喷枪设置过程 (25)柔性喷涂喷枪设置过程 (29)HVLP喷枪设置过程 (30)圆形喷涂喷枪设置过程 (32)腐蚀材料喷枪设置过程 (34)检查喷枪电气接地 (35)检查流体的电阻率 (36)检查流体的粘度 (36)使用前冲洗设备 (36)操作 (37)泄压流程 (37)启动 (38)关机 (38)维护 (39)日常维护和清洗检查清单 (39)冲洗 (39)每天清洗喷枪 (41)每天的系统保养 (42)电气测试 (43)测试喷枪的电阻 (43)测试供电电源的电阻 (44)测试电极电阻 (44)故障排除 (45)喷型故障排除 (45)喷枪操作故障排除 (46)电气故障排除 (47)维修 (48)准备要维修的喷枪 (48)空气帽和喷嘴更换 (49)电极更换 (50)流体密封杆拆卸 (51)密封杆修理 (51)枪筒拆卸 (53)枪筒安装 (53)电源拆卸与更换 (54)交流发电机拆卸及更换 (55)流体管拆卸与更换 (57)扇形空气调节阀修理 (58)雾化空气限流阀的修理 (59)ES开合和流体调节阀的修理 (60)空气阀修理 (61)智能模块更换 (62)空气旋转接头和排气阀更换 (63)零件 (64)带标准显示屏的喷枪型号 (64)带智能显示屏的喷枪型号 (67)密封杆组件 (70)交流发电机组件 (71)ES开合和流体调节阀 (72)扇形空气调节阀的修理 (73)快速调节风扇阀组件 (73)雾化空气限流阀的组装 (74)智能模块组件 (75)圆形喷涂组件 (76)高导电率流体管组件：40kV (78)高导电率流体管组件：60和85千伏 (79)液体喷嘴 (80)流体喷嘴选择表 (80)流体喷嘴性能表 (81)空气帽 (83)空气帽选择指南 (83)耗气量表 (88)电极选择图 (89)维修套件和附件 (90)喷枪附件 (90)管路流体过滤器配件包附件 (91)操作员附件 (91)系统附件 (91)标示 (91)测试设备 (92)软管 (93)尺寸 (94)技术参数 (95)美国加州第65号提案 (95)2332055S型号型号常规喷枪型号配备标准电极、喷嘴、空气帽和流体管。

How to OrderRefer to Standard Strokes on page 47.Compact Guide Cylinder/With End Lock Series MGPø20, ø25, ø32, ø40, ø50, ø63, ø80, ø100For details, refer to p age 47.refer to the table below.*: Solid state auto switches marked with “p ” are produced upon receipt of order.*: Bore sizes 32 to 100 are available for D-P4DW m .*: Bore sizes 25 to 100 are available for D-P3DWA m .*: Lead wire length symbols: 0.5 m·········· N il(Example) M9NW 1 m·········· M (Example) M9NWM 3 m·········· L (Example) M9NWL 5 m·········· Z(Example) M9NWZ*: Since there are other applicable auto switches than listed above, refer to page 66 for details.*: F or details about auto switches with pre-wired connector, refer to the WEB catalog or the Best Pneumatics No. 3. For D-P3DWA m , refer to the WEB catalog .*: Auto switches are shipped together, (but not assembled).*1: W ater resistant type auto switches can be mounted on the above models, but in such case SMC cannot guarantee water resistance.Please consult with SMC regarding water resistant types with the above model numbers.*2: 1 m type lead wire is only applicable to the D-A93.46C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w w .c m a f h .c o mSymbolRubber bumperSpecificationsStandard StrokesManufacture of Intermediate StrokeLock SpecificationsMade to Order(For details, refer to pages 72 and 89.)*1: 0.1 MPa except the lock unit.*2: M aximum speed with no load. Depending on the operating conditions, the piston speed may not besatisfied. Make a model selection, considering a load according to the graph on pages 16 to 22.Adjust switch positions for operation at both the stroke end and backlash (2 mm) movement positions.Lock position Head end, Rod end Holding force (Max.) N ø20ø25ø32ø40ø50ø63ø80ø1002153305508601340214034505390Backlash 2 mm or less Manual releaseNon-lock type, Lock type*: The minimum stroke for mounting auto switches is 10 stroke or more for two switches, and 5 stroke or more for one switch.*: Intermediate stroke (in 1 mm increments) based on an exclusive body will be available upon request for special.DescriptionSpacer installation type.Dealing with the stroke in 5 mm increments is available by installing spacer with standard stroke cylinder. When a spacer is mounted on the cylinder with an end lock on the rod side, use a special piston rod.Part no.Refer to “How to Order” for the standard model numbers on page 46.Applicable stroke [mm] 5 to 395ExamplePart no.: MGPM50-35-HNA spacer 15 mm in width is installed in a MGPM50-50-HN. C dimension is 119 mm.Theoretical Output*1: The shape is the same as the current product.47Series MGPC o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w w .c m a f h .c o mθModel selection is the same as MGP/standard type.Refer to pages 16 to 23.Model selection Allowable Rotational Torque of Plate.Non-rotating Accuracyof PlateCalculation: (Example) MGPM50-100-HN• B asic Weight + Lock unit additional weight• 5.74 + 0.24 = 5.98 k gFor non-rotating accuracy q without load, usea value no more than the values in the table asa guide.48 CourtesyofCMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8ø50 or moreø20, ø25: 25 stroke(Rod end lock)ø20 to ø63øø80, ø100ø63 or moreNon-locking type(Head end lock)bore size.*: S ince the seal kit does not include a grease pack, order it separately.Grease pack part no.: GR-S-010 (10 g) Construction/Series MGPM49Series MGPCourtesyofCMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8)426-548▪www.cmafh.comø63 or moreLock type50C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h aDetailed figure ofsection XXEnd lock mechanism(Manual release lock type)ø25With rod end lockWith head end lockDimensions: ø20, ø25MGPL (Ball bushing),End Lock Mechanism*: For intermediate strokes other than standard strokes, refer to the Manufacture of Intermediate Stroke on page 47.*: Rc, NPT and G ports can be selected. (Refer to page 46.)T-slot dimensions51Series MGPCourtesyofCMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8)426-548▪www.cmafh.comDetailed figure of section XXEnd lock mechanism(Manual release lock type) With rod end lockWith head end lock*: For intermediate strokes other than standard strokes, refer to the Manufacture of Intermediate Stroke on page 47.*: Rc, NPT and G ports can be selected. (Refer to page 46.)52 CourtesyofCMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8)426-548▪www.cmDetailed figure of section XXEnd lock mechanism(Manual release lock type) With rod end lockWith head end lock*: For intermediate strokes other than standard strokes, refer to the Manufacture of Intermediate Stroke on page 47.*: Rc, NPT and G ports can be selected. (Refer to page 46.)Dimensions: ø80, ø100MGPL (Ball bushing),End Lock Mechanism53Series MGPCourtesyofCMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8)426-548▪www.cmafh.comLockReleaseReleasedLockedWith head end lockSeries MGP With End LockSpecific Product PrecautionsBe sure to read this before handling. Refer to the back cover for Safety Instructions.For Actuator and Auto Switch Precautions, refer to Handling Precautions for SMCProducts and the Operation Manual on the SMC website, Use Recommended Air Pressure Circuit.Caution• It is necessary for proper locking and unlocking.Operating PressureCaution1. Supply air pressure of 0.15 MPa or higher to the port on the sidethat has the lock mechanism, as it is necessary for disengagingthe lock.Exhaust Air SpeedCaution1. The lock will engage automatically if the air pressure at the port onthe side that has the lock mechanism becomes 0.05 MPa or less.Be aware that if the piping on the side that has the lock mechanismis narrow and long, or if the speed controller is located far from thecylinder port, the exhaust air speed could become slower, involvinga longer time for the lock to engage. A similar result will ensure ifthe silencer that is installed on the exhaust port of the solenoidvalve becomes clogged.Lock DisengagementWarning1. To disengage the lock, make sure to supply air pressure to theport on the side without a lock mechanism, thus preventing theload from being applied to the lock mechanism. (Refer to therecommended air pressure circuit.) If the lock is disengaged whenthe port on the side that does not contain a lock mechanism is inthe exhausted state and the load is being applied to the lockmechanism, undue force will be applied to the lock mechanism,and it may damage the lock mechanism. Also, it could beextremely dangerous, because the piston rod could movesuddenly.HandlingCaution1. Do not use a 3 position solenoid valve.Avoid using this cylinder in combination with a 3 position solenoidvalve (particularly the closed center metal seal type). If air pressurebecomes sealed inside the port on the side that contains the lockmechanism, the lock will not engage. Even if the lock is engagedat first, the air that leaks from the solenoid valve could enter thecylinder and cause the lock to disengage as time elapses.2. Back pressure is necessary for unlocking.Before starting, make sure that air is supplied to the side that is notequipped with a lock mechanism as shown in the diagram above.Otherwise, the lock may not disengage.(Refer to “Rock Disengagement”.)3. Disengage the lock before installing oradjusting the cylinder.The lock could become damaged if the cylinder is installed with itslock engaged.4. Operate the cylinder at a load ratio of 50% or less.The lock might not disengage or might become damaged if a loadratio of 50% is exceeded.5. Do not synchronize multiple cylinders.Do not operate two or more end lock cylinders synchronized tomove a single workpiece because one of the cylinder locks maynot be able to disengage when required.6. Operate the speed controller under meter-out control.If operated under meter-in control, the lock might not disengage.7. On the side that has a lock, make sure tooperate at the stroke end of the cylinder.The lock might not engage or disengage if the piston of thecylinder has not reached the stroke end.8. Do not use the air cylinder as an air-hydrocylinder. This may result in oil leak.9. The position adjustment of the auto switchshould be performed at two positions; a po-sition determined by the stroke and a posi-tion after the backlash movement (by 2 mm).When a 2-color indication auto switch is adjusted to show green atthe stroke end, the indication may turn red when the cylinderreturns by the backlash. This, however, is not an error.1. Non-locking style manual releaseInsert the bolt, which is provided as anaccessory part, through the rubber cap (it isnot necessary to remove the rubber cap).Screw the bolt into the lock piston and pullthe bolt to disengage the lock. Releasingthe bolt will re-engage the lock.otherwise it may cause malfunction of the locking feature.Manual DisengagementCaution2. Locking style manual releaseTurn 90°counterclockwise while pushing the M/O knob. Lock isreleased when on the cap and OFF mark on the M/O knobcorrespond. (Lock remains released.)When locking isdesired, turn 90°clockwise while fullypushing the M/O knoband correspond onthe cap and ONmark on the M/O knob.Confirm the correctposition by click sound“click”. Otherwise, lockmay not be engaged.54 CourtesyofCMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8)426-548▪www.cmafh.com。

全自动焊锡机控制系统用户手册版权说明本手册未经本公司书面许可，任何人或组织不得翻印、翻译和抄袭。

本手册中的信息资料仅供参考。

由于改进设计和功能等原因，本公司保留对本资料的最终解释权，内容如有更改，恕不另行通知。

调试设备要注意安全！用户必须在设备中设计有效的安全保护装置，否则所造成的损失，本公司没有义务或责任负责。

目录系统概述 (3)一．欢迎界面 (3)二．主界面 (3)三．手动操作 (8)四．I/O调测 (9)五．参数设置 (10)5.1速度设置 (11)5.2限位设置 (12)5.3零点设置 (13)5.4其它设置 (13)5.5当量设置 (15)5.6密码设置 (15)5.7复位设置 (16)5.8工艺设置 (17)六．档案管理 (18)七．档案编程 (21)7.1空移 (23)7.2点焊 (23)7.3侧焊 (25)7.4焊接起点 (26)7.5拖焊 (27)7.6等待输入 (28)7.7输出 (28)7.8暂停 (29)7.7延时 (30)7.8旋转定位 (31)7.9循环 (32)7.10条件跳转 (34)7.11输出等待 (35)7.13矩阵 (36)7.14档案调用 (37)7.15程序结束 (37)八．报警 (38)九．调机指引 (42)步骤 (42)系统概述本系统适用于各类焊锡机，具有自动送锡功能，可扩展至双工位。

一．欢迎界面见图1.1。

触摸该界面可以进入主界面。

图1.1二．主界面进入到系统主界面，见图2.1。

主界面用于自动加工时的界面显示以及待机模式下档案操作和设备调试。

图2.11，格式为：当前档案号/总档案数，当前档案号表示正在执行的档案，总档案数表示系统中存在的总档案个数。

当前档案号可以直接输入选择档案。

2，档案名称对应当前档案号，选择当前档案号后，档案名称将自动更新显示。

3，格式为：当前步序/总步序数，当前步序为当前档案正在执行或将要执行的步序，总步序数为当前档案总的步序数。

pm31型液压支架电液控制系统用户技术手册（工作面电控部分用户：CHIN33）北京天地玛珂电液控制系统有限公司2006年9月目录前言 (1)1 pm31电液控制系统配置和联接 (1)2 pm31电液控制系统的设备和装置 (4)3 pm31电液控制系统的主要功能概述 (9)4 pm32支架控制器 (11)5 支架控制器应用程序菜单 (17)6 有关传感器测量的菜单显示及操作 (24)7 控制器菜单“错误信息（ERROR MESSAGES）”列的项目说明 (24)8 参数及其输入 (27)9 功能的允许/禁止设定 (29)10 控制器菜单“服务（SERVICE）”列的项目说明 (30)11 支架的单架单动作的非自动控制 (32)12 邻架的自动顺序联动（ASQ）控制 (33)13 支架的成组自动控制 (34)14 闭锁及紧急停止操作 (39)15 系统状态的显示信息 (40)16 应用程序的互传及引导程序（Booter）介绍 (41)17 工作面支架电液控制安全规则 (45)前言pm31支架电液控制系统可用于各种型式液压支架的控制和操作。

支架的型式、结构和控制要求不同，配套的pm31控制系统的配置和软件也随之变化。

本手册提供了pm31电液控制系统及其部件的有关技术资料，重点介绍性能和使用操作方法。

本手册适用的用户为神东矿区，控制对象为该矿区使用的高度为1.7m-3.5m的二柱掩护式大采高液压支架（用户代号chin33）。

1 pm31电液控制系统配置和联接图1.1及图1.2展示了应用于该用户工作面的pm31电液控制系统的配置状况和联接关系。

从图中可以了解系统的全貌：由哪些设备和装置构成，它们的分布以及如何联接成系统。

图1.1表示的是全工作面的整个系统主干，每个支架装备一台支架控制器，控制器之间按顺序互联成网，还配备联接了其他一些不可缺少的设备部件，形成完善的系统。

图1.2表示的是在一个支架之内以支架控制器为核心，包括其输入输出外围设备的单架系统，每个单架系统组合到图 1.1中就是一套全工作面完整的电液控制系统。

________________General DescriptionThe MAX3222/MAX3232/MAX3237/MAX3241 trans-ceivers have a proprietary low-dropout transmitter out-put stage enabling true RS-232 performance from a 3.0V to 5.5V supply with a dual charge pump. The devices require only four small 0.1µF external charge-pump capacitors. The MAX3222, MAX3232, and MAX3241 are guaranteed to run at data rates of 120kbps while maintaining RS-232 output levels. The MAX3237 is guaranteed to run at data rates of 250kbps in the normal operating mode and 1Mbps in the MegaBaud™ operating mode, while maintaining RS-232output levels.The MAX3222/MAX3232 have 2 receivers and 2 drivers. The MAX3222 features a 1µA shutdown mode that reduces power consumption and extends battery life in portable systems. Its receivers remain active in shutdown mode, allowing external devices such as modems to be monitored using only 1µA supply cur-rent. The MAX3222 and MAX3232 are pin, package,and functionally compatible with the industry-standard MAX242 and MAX232, respectively.The MAX3241 is a complete serial port (3 drivers/5 receivers) designed for notebook and subnotebook computers. The MAX3237 (5 drivers/3 receivers) is ideal for fast modem applications. Both these devices feature a shutdown mode in which all receivers can remain active while using only 1µA supply current. Receivers R1(MAX3237/MAX3241) and R2 (MAX3241) have extra out-puts in addition to their standard outputs. These extra outputs are always active, allowing external devices such as a modem to be monitored without forward bias-ing the protection diodes in circuitry that may have V CC completely removed.The MAX3222, MAX3237, and MAX3241 are available in space-saving TSSOP and SSOP packages.________________________ApplicationsNotebook, Subnotebook, and Palmtop Computers High-Speed Modems Battery-Powered Equipment Hand-Held Equipment Peripherals Printers__Next Generation Device Features♦For Smaller Packaging:MAX3228E/MAX3229E: +2.5V to +5.5V RS-232Transceivers in UCSP™♦For Integrated ESD Protection:MAX3222E/MAX3232E/MAX3237E/MAX3241E*/MAX3246E: ±15kV ESD-Protected, Down to 10nA,3.0V to 5.5V, Up to 1Mbps, True RS-232Transceivers♦For Low-Voltage or Data Cable Applications:MAX3380E/MAX3381E: +2.35V to +5.5V, 1µA, 2 Tx/2 Rx RS-232 Transceivers with ±15kV ESD-Protected I/O and Logic PinsMAX3222/MAX3232/MAX3237/MAX3241*3.0V to 5.5V , Low-Power , up to 1Mbps, T rue RS-232Transceivers Using Four 0.1µF External Capacitors________________________________________________________________Maxim Integrated Products119-0273; Rev 7; 1/07*Covered by U.S. Patent numbers 4,636,930; 4,679,134; 4,777,577; 4,797,899; 4,809,152; 4,897,774; 4,999,761; and other patents pending.Typical Operating Circuits appear at end of data sheet.Ordering Information continued at end of data sheet.For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .+Denotes lead-free package.M A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Note 1:V+ and V- can have a maximum magnitude of 7V, but their absolute difference cannot exceed 13V.V CC ...........................................................................-0.3V to +6V V+ (Note 1)...............................................................-0.3V to +7V V- (Note 1)................................................................+0.3V to -7V V+ + V- (Note 1)...................................................................+13V Input VoltagesT_IN, SHDN , EN ...................................................-0.3V to +6V MBAUD...................................................-0.3V to (V CC + 0.3V)R_IN.................................................................................±25V Output VoltagesT_OUT...........................................................................±13.2V R_OUT....................................................-0.3V to (V CC + 0.3V)Short-Circuit DurationT_OUT....................................................................ContinuousContinuous Power Dissipation (T A = +70°C)16-Pin TSSOP (derate 6.7mW/°C above +70°C).............533mW 16-Pin Narrow SO (derate 8.70mW/°C above +70°C)....696mW 16-Pin Wide SO (derate 9.52mW/°C above +70°C)........762mW 16-Pin Plastic DIP (derate 10.53mW/°C above +70°C)...842mW 18-Pin SO (derate 9.52mW/°C above +70°C)..............762mW 18-Pin Plastic DIP (derate 11.11mW/°C above +70°C)..889mW 20-Pin SSOP (derate 7.00mW/°C above +70°C).........559mW 20-Pin TSSOP (derate 8.0mW/°C above +70°C).............640mW 28-Pin TSSOP (derate 8.7mW/°C above +70°C).............696mW 28-Pin SSOP (derate 9.52mW/°C above +70°C).........762mW 28-Pin SO (derate 12.50mW/°C above +70°C).....................1W Operating Temperature RangesMAX32_ _C_ _.....................................................0°C to +70°C MAX32_ _E_ _ .................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CMAX3222/MAX3232/MAX3237/MAX3241Transceivers Using Four 0.1µF External Capacitors_______________________________________________________________________________________3TIMING CHARACTERISTICS—MAX3222/MAX3232/MAX3241(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)ELECTRICAL CHARACTERISTICS (continued)(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)M A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors4_________________________________________________________________________________________________________________________________Typical Operating Characteristics(V CC = +3.3V, 235kbps data rate, 0.1µF capacitors, all transmitters loaded with 3k Ω, T A = +25°C, unless otherwise noted.)-6-5-4-3-2-101234560MAX3222/MAX3232TRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )20003000100040005000246810121416182022150MAX3222/MAX3232SLEW RATEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E (V /µs )20003000100040005000510152025303540MAX3222/MAX3232SUPPLY CURRENT vs. LOAD CAPACITANCEWHEN TRANSMITTING DATALOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )20003000100040005000TIMING CHARACTERISTICS—MAX3237(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)Note 2:MAX3222/MAX3232/MAX3241: C1–C4 = 0.1µF tested at 3.3V ±10%; C1 = 0.047µF, C2–C4 = 0.33µF tested at 5.0V ±10%.MAX3237: C1–C4 = 0.1µF tested at 3.3V ±5%; C1–C4 = 0.22µF tested at 3.3V ±10%; C1 = 0.047µF, C2–C4 = 0.33µF tested at 5.0V ±10%.Note 3:Transmitter input hysteresis is typically 250mV.MAX3222/MAX3232/MAX3237/MAX3241Transceivers Using Four 0.1µF External Capacitors_______________________________________________________________________________________5-7.5-5.0-2.502.55.07.50MAX3241TRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )2000300010004000500046810121416182022240MAX3241SLEW RATEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E (V /µs )20003000100040005000510152025303545400MAX3241SUPPLY CURRENT vs. LOADCAPACITANCE WHEN TRANSMITTING DATALOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )20003000100040005000-7.5-5.0-2.502.55.07.50MAX3237TRANSMITTER OUTPUT VOLTAGE vs. LOAD CAPACITANCE (MBAUD = GND)LOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )200030001000400050000102030504060700MAX3237SLEW RATE vs. LOAD CAPACITANCE(MBAUD = V CC )LOAD CAPACITANCE (pF)S L E W R A T E (V /µs )500100015002000-7.5-5.0-2.502.55.07.50MAX3237TRANSMITTER OUTPUT VOLTAGE vs. LOAD CAPACITANCE (MBAUD = V CC )LOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )5001000150020001020304050600MAX3237SUPPLY CURRENT vs.LOAD CAPACITANCE (MBAUD = GND)LOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )200030001000400050000246810120MAX3237SLEW RATE vs. LOAD CAPACITANCE(MBAUD = GND)LOAD CAPACITANCE (pF)S L E W R A T E (V /µs )2000300010004000500010302040506070MAX3237SKEW vs. LOAD CAPACITANCE(t PLH - t PHL )LOAD CAPACITANCE (pF)1000150050020002500_____________________________Typical Operating Characteristics (continued)(V CC = +3.3V, 235kbps data rate, 0.1µF capacitors, all transmitters loaded with 3k Ω, T A = +25°C, unless otherwise noted.)M A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors6_____________________________________________________________________________________________________________________________________________________Pin DescriptionMAX3222/MAX3232/MAX3237/MAX3241Transceivers Using Four 0.1µF External Capacitors_______________________________________________________________________________________7_______________Detailed DescriptionDual Charge-Pump Voltage ConverterThe MAX3222/MAX3232/MAX3237/MAX3241’s internal power supply consists of a regulated dual charge pump that provides output voltages of +5.5V (doubling charge pump) and -5.5V (inverting charge pump), regardless of the input voltage (V CC ) over the 3.0V to 5.5V range. The charge pumps operate in a discontinuous mode; if the output voltages are less than 5.5V, the charge pumps are enabled, and if the output voltages exceed 5.5V, the charge pumps are disabled. Each charge pump requires a flying capacitor (C1, C2) and a reservoir capacitor (C3, C4) to generate the V+ and V- supplies.RS-232 TransmittersThe transmitters are inverting level translators that con-vert CMOS-logic levels to 5.0V EIA/TIA-232 levels.The MAX3222/MAX3232/MAX3241 transmitters guaran-tee a 120kbps data rate with worst-case loads of 3k Ωin parallel with 1000pF, providing compatibility with PC-to-PC communication software (such as LapLink™).Typically, these three devices can operate at data rates of 235kbps. Transmitters can be paralleled to drive multi-ple receivers or mice.The MAX3222/MAX3237/MAX3241’s output stage is turned off (high impedance) when the device is in shut-down mode. When the power is off, the MAX3222/MAX3232/MAX3237/MAX3241 permit the outputs to be driven up to ±12V.The transmitter inputs do not have pullup resistors.Connect unused inputs to GND or V CC .MAX3237 MegaBaud OperationIn normal operating mode (MBAUD = G ND), the MAX3237 transmitters guarantee a 250kbps data rate with worst-case loads of 3k Ωin parallel with 1000pF.This provides compatibility with PC-to-PC communica-tion software, such as Laplink.For higher speed serial communications, the MAX3237features MegaBaud operation. In MegaBaud operating mode (MBAUD = V CC ), the MAX3237 transmitters guar-antee a 1Mbps data rate with worst-case loads of 3k Ωin parallel with 250pF for 3.0V < V CC < 4.5V. For 5V ±10%operation, the MAX3237 transmitters guarantee a 1Mbps data rate into worst-case loads of 3k Ωin parallel with 1000pF.Figure 1. Slew-Rate Test CircuitsLapLink is a trademark of Traveling Software, Inc.M A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors8_______________________________________________________________________________________RS-232 ReceiversThe receivers convert RS-232 signals to CMOS-logic out-put levels. The MAX3222/MAX3237/MAX3241 receivers have inverting three-state outputs. In shutdown, the receivers can be active or inactive (Table 1).The complementary outputs on the MAX3237 (R1OUTB)and the MAX3241 (R1OUTB, R2OUTB) are always active,regardless of the state of EN or SHDN . This allows for Ring Indicator applications without forward biasing other devices connected to the receiver outputs. This is ideal for systems where V CC is set to 0V in shutdown to accommodate peripherals, such as UARTs (Figure 2).MAX3222/MAX3237/MAX3241Shutdown ModeSupply current falls to less than 1µA in shutdown mode (SHDN = low). When shut down, the device’s charge pumps are turned off, V+ is pulled down to V CC , V- is pulled to ground, and the transmitter outputs are dis-abled (high impedance). The time required to exit shut-down is typically 100µs, as shown in Figure 3. Connect SHDN to V CC if the shutdown mode is not used. SHDN has no effect on R_OUT or R_OUTB.MAX3222/MAX3237/MAX3241Enable ControlThe inverting receiver outputs (R_OUT) are put into a high-impedance state when EN is high. The complemen-tary outputs R1OUTB and R2OUTB are always active,regardless of the state of EN and SHDN (Table 1). EN has no effect on T_OUT.__________Applications InformationCapacitor SelectionThe capacitor type used for C1–C4 is not critical for proper operation; polarized or nonpolarized capacitors can be used. The charge pump requires 0.1µF capaci-tors for 3.3V operation. For other supply voltages, refer to Table 2 for required capacitor values. Do not use values lower than those listed in Table 2. Increasing the capaci-tor values (e.g., by a factor of 2) reduces ripple on the transmitter outputs and slightly reduces power consump-tion. C2, C3, and C4 can be increased without changing C1’s value. However, do not increase C1 without also increasing the values of C2, C3, and C4, to maintain the proper ratios (C1 to the other capacitors).When using the minimum required capacitor values,make sure the capacitor value does not degrade exces-sively with temperature. If in doubt, use capacitors with a higher nominal value. The capacitor’s equivalent series resistance (ESR), which usually rises at low tempera-tures, influences the amount of ripple on V+ and V-.Figure 2. Detection of RS-232 Activity when the UART and Interface are Shut Down; Comparison of MAX3237/MAX3241(b) with Previous Transceivers (a).MAX3222/MAX3232/MAX3237/MAX3241Transceivers Using Four 0.1µF External Capacitors_______________________________________________________________________________________9Power-Supply DecouplingIn most circumstances, a 0.1µF bypass capacitor is adequate. In applications that are sensitive to power-supply noise, decouple V CC to ground with a capacitor of the same value as charge-pump capacitor C1. Connect bypass capacitors as close to the IC as possible.Operation Down to 2.7VTransmitter outputs will meet EIA/TIA-562 levels of ±3.7V with supply voltages as low as 2.7V.Transmitter Outputs whenExiting ShutdownFigure 3 shows two transmitter outputs when exiting shutdown mode. As they become active, the two trans-mitter outputs are shown going to opposite RS-232 lev-els (one transmitter input is high, the other is low).Each transmitter is loaded with 3k Ωin parallel with 2500pF. The transmitter outputs display no ringing or undesirable transients as they come out of shutdown.Note that the transmitters are enabled only when the magnitude of V- exceeds approximately 3V.Mouse DriveabilityThe MAX3241 has been specifically designed to power serial mice while operating from low-voltage power sup-plies. It has been tested with leading mouse brands from manufacturers such as Microsoft and Logitech. The MAX3241 successfully drove all serial mice tested and met their respective current and voltage requirements.Figure 4a shows the transmitter output voltages under increasing load current at 3.0V. Figure 4b shows a typical mouse connection using the MAX3241.CC = 3.3V C1–C4 = 0.1µF50µs/divFigure 3. Transmitter Outputs when Exiting Shutdown or Powering UpM A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors10______________________________________________________________________________________Figure 4b. Mouse Driver Test Circuit Figure 4a. MAX3241 Transmitter Output Voltage vs. Load Current per TransmitterMAX3222/MAX3232/MAX3237/MAX3241Transceivers Using Four 0.1µF External Capacitors______________________________________________________________________________________11High Data RatesThe MAX3222/MAX3232/MAX3241 maintain the RS-232±5.0V minimum transmitter output voltage even at high data rates. Figure 5 shows a transmitter loopback test circuit. Figure 6 shows a loopback test result at 120kbps, and Figure 7 shows the same test at 235kbps.For Figure 6, all transmitters were driven simultaneously at 120kbps into RS-232 loads in parallel with 1000pF.For Figure 7, a single transmitter was driven at 235kbps,and all transmitters were loaded with an RS-232 receiver in parallel with 1000pF.The MAX3237 maintains the RS-232 ±5.0V minimum transmitter output voltage at data rates up to 1Mbps.Figure 8 shows a loopback test result at 1Mbps with MBAUD = V CC . For Figure 8, all transmitters were loaded with an RS-232 receiver in parallel with 250pF.CC = 3.3V5µs/divFigure 5. Loopback Test CircuitFigure 6. MAX3241 Loopback Test Result at 120kbpsCC = 3.3V2µs/divFigure 7. MAX3241 Loopback Test Result at 235kbps0V +5V 0V -5V +5V 0VT_INT_OUT = R_IN 5k R_OUT 150pF200ns/divCC = 3.3VFigure 8. MAX3237 Loopback Test Result at 1000kbps (MBAUD = V CC )M A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors__________________________________________________Typical Operating CircuitsInterconnection with 3V and 5V LogicThe MAX3222/MAX3232/MAX3237/MAX3241 can directly interface with various 5V logic families, includ-ing ACT and HCT CMOS. See Table 3 for more informa-tion on possible combinations of interconnections.Table 3. Logic-Family Compatibility with Various Supply VoltagesMAX3222/MAX3232/MAX3237/MAX3241Transceivers Using Four 0.1µF External Capacitors______________________________________________________________________________________13_____________________________________Typical Operating Circuits (continued)M A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors14___________________________________________________________________________________________________________________________________Pin Configurations (continued)MAX3222/MAX3232/MAX3237/MAX3241Transceivers Using Four 0.1µF External Capacitors______________________________________________________________________________________15______3V-Powered EIA/TIA-232 and EIA/TIA-562 Transceivers from MaximOrdering Information (continued)*Dice are tested at T A = +25°C, DC parameters only.+Denotes lead-free package.M A X 3222/M A X 3232/M A X 3237/M A X 3241Transceivers Using Four 0.1µF External Capacitors16_________________________________________________________________________________________________________Chip Topography___________________Chip InformationT1INT2IN 0.127"(3.225mm)0.087"(2.209mm)R2OUTR2IN T2OUTV CCV+C1+SHDNENC1- C2+C2-V-MAX3222TRANSISTOR COUNT: 339SUBSTRATE CONNECTED TO GNDTransceivers Using Four 0.1µF External CapacitorsPackage Information (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information, go to /packages.)Revision HistoryPages changed at Rev 7: 1, 15, 16, 17Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.17__________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 (408) 737-7600©2007 Maxim Integrated Products is a registered trademark of Maxim Integrated Products, Inc.。

7խХ խ Ԧ ҃խХ̣˥ ὞ʹ ˦ ?΍ ʹ Ӭͮ὞̾ Ϙ ˦̾ Ϙ ˦ ԌҦͯ̅ ԌҦ ὋʿՎ Ջ ʿՎ Ὃ ͯ nj ˝1 mbar ҁʶ˓ э Ԍ(1013 mbar)njὋ ̾ Ϙ Ὃ̾ ԌҦ˝ эϘὋ˝0 mbar Ὃ ̾ nj ԌҦNj Ӭͮ˖Ὃ ΍ Ӵ(Pa)Nj (kPa)Nj (bar) (mbar)nj Ӵ ˧ ˝ὙSchmalz ˖΍ bar Njmbar % Ӭͮnj ѫ Ԧ Ὃ ˝ ʿԩ ԌҦ ԪӐnj ʼ˶΍ Չ Ф ӬͮὋФ˖ʶ̎ ʽὙ˖Ὃ ̾ Ϙ ὋԀ̾ ˝ эὋΒ Ὃ̾ ˝ԟ Ὃ Ὃ ̾nj̾ʽ ˿ Nj ФӬͮ˧ С njʽ Ϙ Ϙ0.001 bar = 0.1 kPa = 1 mbar =100 Pa1/1̖ ҮҦԌ ˖̖ ʿˀ Й Ὃ ̯-600 mbar ӣ ҁ-900 mbar Ժ Ҫ1.5υ խҦὋͭ խ ԁ Ҫ3υ!Ὃ ˖΍ ʿ nj΍ ˝• ̅( Nj )60%—80%(-600 mbar—-800 mbar)• ̅( Nj NjMDF )20%—40%(-200 mbar—-400 mbar) ˖ὋխҦ Ԧ խ Ҧ խnj˹˖ խ խҦ ̾ -600 mbar ˝Ι nj Ὑ˝( ))ʼ ԌҦ 1013 mbar ὚ ˝600 Ὃ ԌҦ̨˝938 mbar ὚ 2000ԌҦ ҁ˿763mbar njխҦ˶ ͯnj ӣ 100 Ὃ ԌҦ ͯ12.5 mbar Ὃʶ˓ Ԧ ʼ ҁ80%(-800 mbar) Ὃ 2000 ̖ ̨˝-610 mbar(763 mbar Ԍ 80%)Ὃ խ ҁ խҦ ͯnj ʼ ̨ ʶ˓ Β njSchmalz ̖ ˖ ԟ ԌҦ˝1000 mbar ˝20°C njὙ1/2Ձ˖˶΍ ͺԓ ὋՉ Ձ ʿՎ Њ ͇ Ὃʽ Ѵ Schmalz ˖ ʶ̎ ՁnjС Њ ͇ Ժԟ þ ҫÿ ˖ ͺ ӮnjՉ Ц ʽὙˠΒὙ ԦˠΒὙ ˖ ˠΒὙ Ԧ1/32/1խ Ѿխ Ѿ Ջ ͳὋ ̅ Ὃ ̾ ЮխԨ ͇Ὃ ԩ ͇ ̖ Ҧnj խ ͕ҸЦ Ὑ• Џ ͇ὋNj Nj Nj͇ njխ ӣNj Nj ͳ ʶ Њ͇Ὃ Ԧ ͇˧ ͇Ὃ Ὃ խ Nj Ф ԟ nj• խ• խ• Х ͺԓ խ• ΍ ʿՎ Ժ҃ ʿՎ խ (Չ )• ͯὋЮ Ὃ γ • ΞՓҦ• ͳ ὋЮФ ͕ҸὋ΍ ʿՎ Ժ խ njխԟ խ njʼ ˏ խ Չ Ὃ Ѣ˿Չ խ ԟխ ˀʼ խ ͺԓ ʿՎ խխ խ ͕ҸЦխ ̅ ϩ Nj ʿ ͇njխ Ӊ Ԧ Ԍ ̖ Ὃˀ ͳ nj˞ Nj Nj Nj Nj͇njխ Ԍ҃Ὃ ˣ ͳ̖ Ὃ˞խ խԨnj• ˀ ʿ ͇ • խ Х ӣ • ϩ• ͇ խԨ• ʿ ͇Ὃ͇Nj Nj •͇Ὃ Њ ͇Nj ͇• ӉὋі˪2/2խ ү1΍ ͇ ͺ խ ὋΒ Ὑ ˉ Ὃ Nj Ԣ nj ˿Չ Ԣ 2/3խ PFYN ͕Ҹ• • • · •Ю ͳ • • ( Nj Nj Ὃ Ӑ )•і˪ ̅ ͇• ὋխҦ • Ջ ͺֆ • ͇ʿ͗ ˣԪ խխPFYNխ PFYN Տз(mm) NBR -55NBR -5520ˠΒ: PFYNPFYN...PFG...ʿ M 3-AG G 1/2-AG/IG (AG= ὚IG=Ю )1 200NBR-AS -55G 1/8-AG HT 1-60SI -55SI-AS -55PU -55FPM -65FPM-AF-65* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К 2/4PFYN 120 200 IG (Ю )խ PFYNPFYN 1 1.5 AG ( )PFYN 2 10 AG ( )PFYN 15 50 IG (Ю )PFYN 15 50 AG ( )PFYN 6095 IG (Ю )PFYN60 95 AG ( )2/5խ PFYN VU 1 ͕Ҹ• Vulkollan VU 1Ὃ • Ӑ • ͯὙ 10 12 mm ³Ὃ Ջ DIN 53516 э• • Ὑ-4 Ň% Ň%Ὃ Ň%• Ѿ Ὃ Ὃ •ʿԩ ( )•΍ խ 20υ• ͇ʿ͗ ˣԪ • Ջͯ ͇ խ PFYN VU 1 Տ з(mm) VU 1-72VU 1-7230.0 ˠΒ: PFYNPFYN...PFG...ʿ G AG(AG= )G IG(IG=Ю )G 1/8-IG G 1/4-AG G 1/4-IG ·խ PFYN VU 1* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К2/6PFYN VU 1 IG (Ю )PFYN VU 1 AG ( )TV G1/2-IGSPU100.0 400.0NBR-55SI-60G1/4-IG (IG=Ю )G1/2-IGTV...AE...B... ԯխ SPU Տз (mm) ҪҩˠΒὙSPU NBR-55160.0̅Џխ SPU* Ջ M3-DIN 7715 ͇Љ МSPUխ SPU••• Ю ͳ•• ·• Ջ Џ ͇Nj̾Ԣͳ( )• ͇ʿ͗ ˣԪ• ֆ• ՋʿՎ ͇• ὋխҦ͕Ҹ2/7͕Ҹ• Nj խ • ˝ 8×24 խ • ·• • ̅ Nj ͇( Nj )Ҫ ͇• խ ͺ ̖ ʿ Ү• ὋխҦ• ͇ʿ͗ ˣԪխ SGONխὋ Ջ ͇խ SGONխ SGON Տз X (mm)ˠΒ: SGON 30x10 SI -60 G 1/8-IGSGON... SGO...ʿ 4x2 90x30NBR -60NBR-AS -55HT 1-60SI -60M3-AG G 1/4-AG/IG (AG = ὚IG =Ю)SGON 4x2 90x30 AG ( )SGON 4x2 90x30 IG (Ю )* Ջ M 3-DIN 7715 ͇Љ М2/9խ FSGA ͕Ҹ•••1.5 Ὃ ·•խ ʼ Ὃѷ•• Ӑ• Ὃ Ҧ Ὃ ˣ• ՋʿՎ ͇• ʿ ͇Х• ͇ у ὋխҦ• Ү Փ Ҧ• ͇ʿ͗ ˣԪ • ʿԩխ FSGA (1.5 ) Տ(mm) зˠΒ:FSGA FSGA... FGA...ʿ25.0SI -55G 1/8-IG5 78NBR -55SI -55HT 1-60NK -45(AG = IG = Ю )M 5-AG G 1/4-IG/AGG 1/2-IG* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К** խ Ҧ ͯ 40%30.0 110.0VU 1-722/11FSGA 11 78 IG (Ю )FSGA 11 78 AG ( )* Ջ M 3-DIN 7715 ͇Љ МFSGA 30 85 VU 1 IG (Ю )FSGA 110 VU 1 IG (Ю )FSGA 30 85 VU 1 AG ( )2/12͕Ҹ••• 1.5 Ὃ ·• խ ʼ ѷ• • Ջ ͇• ʿ ͇Х• ͇ у ὋխҦ• Ҫ Ү ՓҦ Ҧ• ͇ʿ͗ ˣԪխ FSGA 110/150խ FSGA (1.5 )Nj 110 Ԣ̾ʼ ՏзFSGA... FGA...ʿ ˠΒ: FSGA (mm)110NBR -70G 1/2-IG110 150NBR -70SI -55G 1/2-IG (IG = Ю )ѷ Щխ FSGA (1.5 )Nj 110 Ԣ̾ʼ* Ջ M 3-DIN 7715 ͇Љ МFSGA 110150FGA 110 1502/13խ FSG խխ FSG (2.5 )͕Ҹ• • 2.5 Ὃ · • • • խ ʼ ѷ • Ӑ • VU 1 Ὃ Ҧ Ὃ ˣ• ՋʿՎ ͇• ͇ у ὋխҦ • ʿ ͇Х • ͇ʿ͗ ˣԪ • Ү ՓҦ Ҧ•ʿԩ 32.0NK -45G 1/4-IG 5.0 88.0NBR -55SI -55HT 1-60NK -45 з(mm) FSG...FG...ʿ M 5-IG/AG G 1/4-IG/AG (AG= ὋIG=Ю )խ FSG (2.5 ) ՏˠΒ: FSG30.060.085.0VU 1-72* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Ὃ ͺὋʿӉ К** խ Ҧ ͯ40%2/14խ* Ջ M 3-DIN 7715 ͇Љ МFSG 5 88 IG (Ю )FSG 5 88 AG ( )FSG 30 85 VU 1 IG (Ю )FSG 30 85 VU 1 AG ( )2/15խ FSGB͕Ҹ• 3.5 Ὃ ·••• ͇ у ὋխҦ • ʿ ͇Х • у Ὃ ϩ ͇ 25.0NBR -55 G 1/8-AG FSGB...FGB...ʿ 25.0NBR -55SI -55G 1/8-AG (AG = )G 1/8-IG (IG =Ю )з(mm)խ FSGB (3.5 ) ՏˠΒ: FSGBFSGB 25 IG (Ю )FSGB 25 AG ( )FGB 252/16խ FSGAO ͕Ҹ• VU 1Ὃ ὋѲ͝• 1.5 խ• Ӑ • Ὑ 10 12 mm ³Ὃ ՋDIN 53516 э• 1.5 Ὃ ·• Ὃ Ҧ Ὃ ˣ• Ջ ͇( Nj )NjуԌ͇( ͇)• ʿԩ• ΍ խ 20υ• ͇ у ὋխҦխ ͕Ҹ͔խ FSGAO ( Nj1.5 ) խ FSGAO ( Nj1.5 ) ՏˠΒ: FSGAO 140x65VU 1-72G 1/4-AGFSGAO... FGAO...ʿ 95x40140x65 VU 1-72G 1/8-AG (AG = )G 1/4-AG з X (mm)FSGAO 95x40 140x65VU 1FGAO 95x40 140x65 VU12/17ú ˃խ SAF͕Ҹ• • Ю • • խ • խ ˀ Ӑ Ջ• ՋʿՎ ͇• ʿ͗ Ԫ ὋԀ΍Ι Ժ̾ Θ ΞՓҦ• ὋԀ΍ • ՋՉ ԑ ͇•խ ˣ Ὃ Бխ ͇ Ϣ50.0NBR-60G1/4-AG SAF 30.0 125.0NBR -60NBR -45G 1/4-AG (AG = )G 1/4-IG (IG =Ю )G 3/8-IG M 10-AG M 14x1.5-AGխ SAF Տз(mm) RA...ˠΒὙSAF˃ խ SAF* խ ̅ Ԍ ͇ ʼ Ὃ͗ Ø A 1* ** ՋM 3-DIN 7715 ͇Љ М2/18խ SAB խ Ὃ Ѿ Ջ͕Ҹ•• 1.5 Ὃ ·• խ ʼ Ὃѷ• Ю • ˀխ Ӑ Ջ• ՋʿՎ ͇• ʿ ͇ ὋХ у• Ҧ ՓҦ Ҧ• ʿ͗ Ԫ ὋԀ΍Ι Ժ̾ Θ ΞՓҦ•Бխ ͇ Ϣ60.0 NBR -60 G 3/8-IGSAB 22.0 125.0 NBR -60 G 1/4-AG (AG = )G 1/4-IG (IG =Ю )G 3/8-IGM 10-AG M 14x1.5-AGз (mm)խ SAB (1.5 ) ՏRA...ˠΒ: SAB* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Nj ͇ὋʿӉ К** ՓҦ ͇˝ -0.6 bar Ὃ Џ ͇nj ͇ ʿՎὋ ͇ʽ ϘԺ ͗ Ԫ*ØA 4˝ ͺ խ ** ՋM3-DIN 7715 ͇Љ М2/19խ SAOF ˃͕Ҹ•• Ю• • • ˀխ Ӑ Ջ• ՋʿՎ ͇• ʿ͗ Ԫ ὋԀ΍ Ι Ժ̾ Θ ΞՓҦ• Ջ ͇ Ὃ Ҫ • ὋԀ΍ ̅ ͇խ SAOF ( ) Ձзx (mm) 80x40NBR -60G 1/4-IG SAOF 50x16 140x70NBR -60NBR -45G 1/4-AG (AG = )G 1/4-IG (IG=Ю )G 3/8-IG M 10-AG M 14x1.5-AG RA...ˠΒ: SAOFSAOF խ 16x50SAOF խ 23x60 SAOF 70x140*A 2 E 2˝ ͺ խ ** ՋM 3-DIN 7715 ͇Љ М 2/20խ SAOB ˃խ SAOB ( Nj1.5 )͕Ҹ• 1.5 · • Ю •• խ • • ͇̅ уԌ ͇• ʿ͗ Ԫ ὋՎ˶Ժ• ՋʿՎ ͇• Ҧ ՓҦ Ҧ• ὋԀ΍ ̅ ʿ80x40NBR -60G 1/4-AGSAOB խ SAOB ( Nj1.5 ) Տз Y NNˠΒ: SAOB 60x30 140x70NBR -60G 1/4-AG (AG = )G 1/4-IG (IG =Ю )G 3/8-IG M 10-AGM 14x1.5-AGRA... 2/21SAOB 30x60 SAOB 70x140*A 4 E 4˝ ͺ խ ** ՋM 3-DIN 7715 ͇Љ Мխ ˃˝ ͇խ SAOG ( )͕Ҹ• խ ˝ -• Ю• Nj ˝45NBR ҃ • ͇• ˀ Nj ͇ ·• Ջ ͇Ὃ ͇ʿ͗Ԫ • Ջ Ӧ ͇• ԺΘ ͇ὋΦ̅ խ ՉʼխSAOG80x30NBR-45G 1/4-AG SAOG 80x3060x2095x40NBR -45 G 1/4-AG (AG = ) / G 1/4-IG (IG =Ю )G 3/8-IG / M 10-AG / M 14x1.5-AG / RA...խ SAOG ( ) Տзx (mm) ˠΒ: SAOGSAOG 60x20 95x40 IG (Ю )SAOG60x20 95x40RA( )* խҦ˝ ϘὋ ˝-0.6 bar ὋЏ Ὃ ͇ὋʿӉ К** ՓҦ ͇˝ -0.6 bar Ὃ Џ ͇nj ͇ ʿՎὋ ͇ʽὋ ϘԺ ͗ ԪSAOG 60x20 95x40 AG ( )* Ջ M 3-DIN 7715 ͇Љ М**L 1 D 1˝խ Ԍ ͇ ʼ2/22խՋ ͇խ SGGN 85.0VU 1-72G 1/4-AG SGGN... SGG...ʿ 85.0115.0NBR -60VU 1-72G 1/4-AG (AG = )խ SGGN Տз [mm] ˠΒ: SGGN͕Ҹ• Ὑ VU 1• խ ˝ Ըԯ Ὃ• · • ˶ Ѿ Ὃ ˝ խ 20υ• Ѿ Ջ Юѡ Ѡ ͇Ὃ͇• Ф Ջ ͺֆ хխ SGGNSGGN 85 115.02/23Ԧ Ԧ ԦҮ Ԧ Ὃ խ ˝4 250m ³/h ʽ ҁ nj͕Ҹ• խ ʽ ҁ• Ժͺ˝˖ Ԧ• і˪ʿ Ц• ˖ ˖ Ԧ • Ү ͺ • Ӊ˓ Ὃխ nj˞ ̅ ͳὋ ὋOSB MDF ˖Ю ὋխԨ ծ ҩ ʿ ҃nj ̅К Ү ˖Ὃ Ҫ Ὃ ҃ Ὃ̠҃ Ὃ(85%)nj˞ ̅ ͇ ԦՉ Ԧ ̖ ʽ ʻ1. Ԧ2.3.Ф ὋͭРՎ Ὑ խ ҮҦԦ ʻ Ԧ ˞ ӜѾὙԦ ˇ (Venturi)ԓ ͺnjԌ Й Ԧ ЙԯA Ὃ̯ B ѢὋԀ΍ Ѣԯ ԌҦ ͯ( )Ὃ̯ ΍ ̯ ЙԯD ЙὋˀ Ԍ ʶ ̯C ѢnjԦ ͕Ҹ• Ү ͇Ὃ Ὃʿ• ѓ• ʿԦ•• ̖• Ջ͉ʹ ՓЦ • Չ ˉ ̠ •ˉуԌ ̖ 3/1ʻ ˞ ӜѾὙὋі˪ nj˞ ̅ խХ ˖ ͇ Ὃ -0.98 ba Ὃ ̅ ͇Ὃ ̅ Nj Ջі˪ ὋЮ чԁ, ̅ ͇Ὃ Ѿ ̅ ͺы ՋὋ ˉ Ӊ ͺˉԦ үʶ Փͯ ̖ խ Ὃ˞ ̅խԨ ͳ͕Ҹ• խ• ϩͺ• ̅ ͇Ц• ԀԺ ҁ խ• Ջ ͳὋ NjNj3/2Ԧ SEG ͳ ὋҮҦ ὀԦ SEG͕Ҹ• ˇ (Venturi) • Ὃ Ὃ •Չ ὋʿՎ Ὃ• Ү ͇Ὃ NjБ• Ջ Ү ͇ʼὋˉ ̠Nj• Ὑ ͯԌ ̖ խ 10HS SDA SEG 05...0.5 mm30...3.0 mm HS......LS......HS-S...-........SDA...Ԧ SEG Տз (mm)Ҫҩ Փ ( )ͯ ( խ ) ˠΒ:SEG3/3͕Ҹ• Ὃ Njͳ• Н ʿՎ ԯ• Й• ԯ • Ջ Ү ˖Չ ͮ Ջ• Չ ѢҮҦὋ• ΦὋ• ͯὋ ͯԦ SBPNj ѓNj ὀ-50-100-200-300-400-500-600-700-800SBP 05SDA 0,34 0,68 1,56 2,66 4,02 5,84 8,54 13,22 25,54SBP 07SDA 0,20 0,38 0,84 1,46 2,24 3,26 4,66 6,84 12,56SBP 10SDA 0,06 0,14 0,30 0,52 0,82 1,30 1,98 3,26 6,56SBP 15SDA 0,05 0,08 0,16 0,26 0,40 0,60 0,86 1,30 2,54SBP 20SDA 0,03 0,05 0,09 0,16 0,24 0,34 0,49 0,80 1,74SBP 25SDA 0,02 0,03 0,06 0,09 0,14 0,20 0,28 0,42 0,99Ձ (mbar)Ԧ SBP Տ10G 2SDASBP 05...0.5mm 25...2.5mm G...S... SDA...Փз [mm] ҪҩˠΒ: SBP0-50-100-200-300-400-500-600-700-800SBP 05SDA 8,00 6,62 5,64 4,74 3,81 3,01 2,28 1,42 0,40 0,10SBP 07SDA 16,10 13,60 11,37 9,03 7,25 5,63 3,97 2,65 1,10 0,30SBP 10SDA 37,70 33,20 30,10 26,70 23,00 18,60 14,90 9,80 5,20 1,61SBP 15SDA 71,00 65,00 60,10 52,00 44,00 36,50 29,00 20,50 11,40 2,18SBP 20SDA 127,00 117,80 106,00 94,20 79,10 65,30 49,87 35,99 23,00 8,36SBP25SDA 215,00 172,00 156,10 138,70 118,50 99,10 79,36 58,90 37,2416,24Ձ (mbar)3/4͕Ҹͳ ὋҮҦԦ SBP-C • Ὃ• Н ʿՎ ԯ• Й• Ю ҃• Ջ Ү ˖Չ ͮ ̖ Ջ• Չ ѢҮҦὋ • ΦὋ • ·͕Ӑ ͺֆ3/5 Ԧ SBP -C Տ10S 2NO A VE SBP-C 5...0.5mm7....0.7mm10...1.0mm15...1.5mm20...2.0mm25...2.5mm G... S... NO... NC... A...ծ AI...ծ у-... СVE... С з[mm] խ ѹ ծ ҩ ˠΒ: SBP-CԀ ԀԦ SLP ὋVRԦ SLP 3/6͕Ҹ• Ԧ ˝Փ • =5А• խ Nj••• · ѢԯὋ ͯ • ʼ• Ү ͇ʼ΍•• Ջ Ջ• Ф ͇• ͯԦ VR• խ ˀԌ ˧• Ὃ Ὃ ͕Ҹ• Ὃ ͺ ̖ͮ• Ѿ Ὃ ՋҮ ͇ʼ-50-100-200-300-400-500-600-700-800SLP 050,4 0,7 1,6 2,7 4,0 5,8 8,5 13,1 24,5SLP 070,2 0,4 0,8 1,4 2,2 3,2 4,6 6,7 12,7Ձ (mbar)0-50-100-200-300-400-500-600-700-800SLP 058,00 6,42 4,97 3,76 2,65 1,79 1,06 0,32 0,10 0,05SLP 0715,90 13,30 10,89 8,70 6,67 4,65 2,88 1,29 0,55 0,06 Ձ [mbar]3/7խҦ ҵԦ SEMԦ SEM ͕Ҹ• խ Ҧ•• Ԍ Nj Ԣ͛ ͇• Nj К Չ ͳ• ͯ Ὃ ͺֆ Ὃ ͯ • Nj Φ Nj ͯ* ˝2 OSD... SDA... Փ SDS... ΞՓ3/8Ӭ˓ SXMP ʶ̼ ԦSchmalz X- -SXP/SXMP͕Ҹ• Ὃ ̅• Ὃ ̅• խ ὋծҦ• Ю Ү ҩ• ΦNj• ʿ • ʿԩ•• γ ˝IP 65• ˣ ˓ Ὃђ Ϣ• Φ• ֆ• ͺ ͯ• Ӭ •• КԺ•• γ Ԧ Schmalz X- SXP/SXMP Տ25NO Q M 12SXP... ծ SXMP...ծ 15...1.5mm20...2.0mm 25...2.5mm 30...3.0mm NO...NC... IMP...Ԥ Ὃ̾ уѬ H... V ... Q... ѬM 12...M 12, 8 2x M 12...2xM 12, 5Ձ (mm)խ ѹ Ԍ ˠΒ: SXP15NO AS VD SMP 15...1.5 mmNO... AS...ծ КӬՓ 20...2.0 mmNC... 25...2.5 mm30...3.0 mm Ԧ SMP Տ з (mm)խ ѹ ծ Ԣ К -....... СVE... СVD... СRE... СRD... СˠΒὙSMPԦ SMP͕Ҹ• ҮҦ Θ խ ծ Ҧ• Nj ͕ • Ү ҩ • • •խԨ ͇ Ὃγ ͺֆ• · ҩ Ὃ Չ ͺˉ• Ὃ ͺ••LED Ὃ Φ! С ˝24 VDC* ˝23/915NO AS RDSCP 10...1.0 mm15...1.5 mm 20...2.0 mm 25...2.5 mm 30...3.0 mm NO...NC... AS...ծ ԢӬՓ К Ԧ SCP ՏˠΒ:SCP (mm)խ ѹ ծ Ԣ К-... СVE… СVD… СRE… С ҮRD… С Үз Ԧ SCP͕Ҹ• Ѵ ˝1.0 3.0 mm•• ҩ ( )• ( )•խ Ὃ ·•• Ὃ ͺ• ὋLED Ὃ Φ! С ˝24 VDC* ˝2 0-50-100-200-300-400-500-600-700-800SCP 10...37 35,4 33,2 28,8 24 19,4 16 11,2 6 1,4SCP 15...65 62 58 50 41 32 21 16 9 4SCP 20...116 108 101 90 78 63 48 36 18 5SCP 25...161 149 136 123 107 86 66 49 25 7SCP 30...200 184 168 153 132 107 82 61 319Ձ [mbar]-50-100-200-300-400-500-600-700-800SCP 10...0,087 0,162 0,341 0,591 0,959 1,419 2,035 3,304 7,300SCP 15...0,048 0,088 0,184 0,311 0,480 0,744 1,120 1,692 3,606SCP 20...0,026 0,047 0,095 0,159 0,239 0,349 0,499 0,807 1,652SCP 25...0,015 0,027 0,055 0,089 0,135 0,198 0,288 0,486 0,960SCP 30...0,012 0,021 0,044 0,071 0,108 0,160 0,232 0,392 0,810Ձ [mbar]3/10þ ; ҮҦ ÿԦ SCPM ͕Ҹ• Ὃ•• Ю ҃• Nj ͕• խ ʼ̖ Ὃ Ջ Ү ͇ʼ• • Ӭ ф • խ Ὃ · 07NO A VS-T SCPM 05...0.5mm07...0.7mm10...1.0mm Ԧ SCPM ՏзˠΒ: SCPM (mm*)խ ѹծ -... СA...ծ NO... NC... VS-T... С3/113/13Ϸ ʼEVE-TR.EVE-OG.EVE-WREVE -TR͕Ҹ• • Ԍ ԓ • ˣ Ὃ ҃ч • Չ Ѣ • Ὃ і˪ʿ • Ү Ὃі˪ʿ Ѣ• ҩ • խ Ժ͕Ҹ• Ὃ ʿ Ҫ • ΍ Ӭ ʻ • Ԍ ͗ ҮὋ Ѣ • ѓὋ чԁ ˣ • ͮ ђ • Ջ EVE-WR• Ὃ Ү Ү ҃ Ջ ΍ • Ю • խ Ҧ˝4 250 m 3/h EVE -OG͕Ҹ• • • ˣ ҃ч • Չ Ѣ • Ὃ ̖ Ὃ і˪ʿ • Ү Ὃі˪ʿ Ѣ• ҩ • խ Ժ • Ю ѫ Ὃʻ ͺὋ γ СΘ • Հ ͗ ҮὋ Ѣ • ѓὋ чԁ ˣ • ͇ ˣ Ὃ ὋԺ̾ • ̅ Ү Ү ҃ ͇• խХ ˖ ͺ˖ Ԧ ὋԺ̖ • ̅ • խ Ҧ˝40 255 m 3/h • • Ԍ • Ю чԁҩ ὋԺ • Չ Ѣ • э • ὋБ Ὃ ̅ ͺ ы ҃ː ՋὋ ˉ• Nj ͇Nj • Ѿ Ջ Ս •Ժ Йԯ •Љ Б • Ժ Ѣ Ὃ чԁ ѽ • ʻ Ү • ՀԌ ͗ ҮὋ Ѣ Ὃ Ժ • ͇ ˣ Ὃ Ὃ Ժ̾• ̅ ͺ ы ҃ː Ջ• ̅ ˉ Ӊ ͺˉ•Ջ Ѣ Ὃ γ • ԯ ҃ ͮ• խ Ҧ˝25 65 m 3/hSGBL -DG͕Ҹ• խ • Հ Ԍ ҃ • Չ խ • ˃ ̅ • Ү Ὃխ • Ժ Ὃ · • Հ Ԍ ҃ • Ԍ ԌҦ • γ С ˖ͮ Փ Θխ Ὃ ͯSGBL -DG3/14 ͕Ҹ• ҁ խ Nj ҁ • Ԫ ҩ Ὃ ҃ ҃• ѓNj Φ• ͯ Nj ͯ• Ὃ ͕ • ̅ Ὃ˶Ժ ͇• · խ Ὃ • Ὃ Φ• ђ Ὃ ͯ•Չ ՋNj К• Nj Nj Nj в Ф • խ Ὃ ϩ • խ Ҧ˝80 540 m 3/h• Nj Nj Njв Ф • ̅ ԪӐ ՋὋ̕ԀխՋ• խ Ҧ˝180 335 m 3/h• ̯ ΞԌ ҮὋЮ Ԫ • Ԫ Ү Θ Ԍ γ ҩ4/1 ҃IV Ὃ EMV ὋEMVO ὋEMVP ͕Ҹ• ὋԺ խ ʼ• ѓὋ Φ•Ю Ὃ •ѫ ҃ ὋSchmalz ͛ • ҃Ӭ˓խ • Ὃ Ӭ• К • Ժ Ὃђ Ϣ IV͕Ҹ• • ҃• ̃ͮʻ (EMV-3 ̃ͮ̃ )• С˝ NO (EMV-3 Ὃ˝ NC)• Ջ Ԍ • ը Ջ • /С ҃Ὃ • Ϣ Кγ EMV͕Ҹ• ̃ͮʻ • М • ҃• ҃ /С ҩ • Ջ • ըNj Ջ EMVO͕Ҹ•Ԍ Ў ҃•М •̃ͮʻ • С˝ NO • ըNj Ջ •˶ Ջ • ҃ /С ҩ •Ϣ КγEMVPӠѫ Ὃ ὋӬՓ Ὃ Ү ͕Ҹ• • ԪӐ ͺ • • (SVK ) (SVKG ) •С ʿ΍ խ Ὃγ • Ժ ϩ •˶ Ջ • ՋՉ խ SVK ὋSVKG ὋSVV4/2 ͕Ҹ• •ʿԩ ͇ • •Ե խ ҁ ͇ •˶ ͇• Ջ ΍ TV/TVNӬՓ RSV͕Ҹ• ӬՓ •М • •С (Β Ὃʹʶ )Ὃγ • Ջ ̯ ͯҁ Ջ• Ջ ΍ ͕Ҹ• ̅ Ԍ ˖• М • • • • К Ὃ • ˀМ · • ʿ • Ὃ Ջ̠ͳ • ҩ Ժ ͇ҮHSV5/1 ԺС͕Ҹ• С• Ѭ Ժ • ӬὋ ͺ • Ժ С VS -V -EM -60-C• С• Ѭ Ժ • К ͺὋ • Ժ ͕Ҹ С VS -V -PMС VS -V -SA/SD͕Ҹ• Ὃͳ •͉ ζՁ Ѣ • • M 3 M 5 Ὃ 4 6mm Й • ˖ · Ὃ ̅ Ү Ջ• ՋՉ ͛ • ѢζՁ • Φ СVS -V -AH/AV -T͕Ҹ• þ ÿ Ժ Ѭ • Ԥ Ѣ• Ԥ LED • ̅ • ͛ • Ѭ 200 mA • ͺ• СЊ͇• Nj Ժ • • Ѭ Nj • Ѭ ͕Ҹ• С• Ѣ• Ѭ Ժ • Ѭ • ҃ Ժ Ὃʿ • Ժ Φ С VS -V -A -PNP -SС VS -V͕Ҹ• С• Ѭ Ժ • Ѣ• • Ժ Φ • ҃ Ժ Ὃʿ。

WELLCORE○R SSD MSATA W10 SeriesProduct Specification V1.0 May-2012NOTE:INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH WELLCORE PRODUCTS, NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT, TO ANY INTELLECTUAL PROPERTY RIGHTS IN WELLCORE PRODUCT OR TECHNOLOGY,ALL PRODUCT SPECIFICATIONS ARE PROVIDED FOR REFERENCE ONLY, INFORMATION IN THIS PRODUCT SPECIFICATION IS SUBJECT TO CHANGE AT ANYTIME WITHOUT NOTICE.Wellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved Table of Contents1.Introduction (3)1.0 Overview (3)1.1 Capacity Specifications (3)1.2 Product Specifications (4)2. Product numbering scheme (5)3. Functional Block Diagram (6)4. Mechanical Information (7)4.0 Form factor (7)4.1 Pin Locations (8)4.2 Signal Descriptions (8)5. Electrical Characteristics (9)6. Environmental Conditions (9)6.0 Temperature (9)6.1 Shock, Vibration (10)7. Supported Command Sets (11)7.0 ATA Command set (11)7.1 ATA COMMAND SPECIFICATIONS (13)7.2 S M A R T command set (17)8.NCQ Command (22)Wellcorping Technology Co., Ltd1.Introduction1.0 OverviewWELLCORE SSD MSATA W10 Series purely consists of semiconductor devices and NAND flash moving parts. It gives rugged features against shock and vibration, used in extreme environment such as industrial PC or automotive device to increase reliability,The SSD is designed to use the SATA interface efficiently during both READs and WRITEs while delivering bandwidth-focused performance. SSD technology enables en-hanced boot times, faster application load times, reduced power consumption, and ex-tended reliability.1.1 Capacity Specifications. This chapter is about the specifications of the W10 Series MSATA SSD.Part Numbers Capacity Flash typeW10SM5*C-***2GB MLC/SLC 4GB MLC/SLC 8GB MLC/SLC 16GB MLC/SLC 32GB MLC/SLC 64GB MLC/SLC 128GB MLC 256GB MLCTable 1 ：Capacity Specifications. The letter ‘ * ’ means some information of the products, please visit the table 2 for more information.1.2 Product Specifications◆Form factor:MSATA(JEDEC:MO-300B). Form size : 50.8mm * 30.0mm * 3.85mm（LxWxH）◆SATA 3Gbps Bandwidth Performance. Sequential Read: Up to 160 MB/s. Sequential Write: Up to 160 MB/s. Random 4 KB Reads: Up to 6000 IOPS. Random 4 KB Writes: Up to 1000 IOPS◆Compliant with Serial ATA Revision 2.6 ,◆Support 1.5Gps/3.0Gps SATA I/II interface◆Supports BCH ECC 16 bits or 24 bits in 1024 bytes◆S M A R T (Self-Monitoring, Analysis and Reporting Technology) ◆Supports (NCQ) AND (TRIM) Command set◆Flash management algorithm:. static and dynamic wear-leveling, bad block management algorithm◆Data retention: 10 years◆Read endurance: unlimited◆Write endurance: >9 years. Condition: 100GB write/ day（SSD capacity=100GB, Nand flash endurance =5000 P/E Cycles, SSD WA=1.5）◆MTBF (Mean Time Between Failures): 2,000,000 hours◆Operating temperature:. Commercial: 0℃ ~ +70℃. Industrial: -40℃ ~ +85℃◆Power Consumption:. Active(write/read): 1.4 W. Idle : 0.5 W. Sleep: 0.3 W◆Weight: Up to 10 g◆Certifications: UL; CE; FCC; SATA-IO; Microsoft WHQL ◆Product Ecological Compliance: ROHSWellcorping Technology Co., Ltd2. Product numbering schemeEXAMPLE:P/N: W10SM5MC-032 ，Please refer to the following table content (Table 2).W1010 S M 5 M C-032032WELLCOR WELLCORPING PINGTechnologyTechnology SSD Controller: 10-JMICRON 20-NOVACHIPS 30-SMI 40-SANDFORCE50-PHISON60-S-SATA P-PATA E-PCIE Form Factor : 25-2.5 Inch 18-1.8 Inch 13-1.3 InchM5-50mm MSATA M7-70mm MSATA P5-50mm MSATA(PCIE) P7-70mm MSATA(PCIE)Z3-ZIF 1.3 Inch Z8-ZIF 1.8 Inch MI-MICRO 1.8寸 CF-CF CARD FA-CFAST CARD LF-LIF HS-HALFSLIMNAND NAND FLASH: FLASH: S-SLCM-MLC Operatingtemperature:C-Commercial (0℃~+70℃) I-Industrial (-40℃~+85℃) M-Military (-55℃~+150℃) capacity:001-1GB* * 512-512GB * * 1TB-1000GB* *Table 2: numbering scheme3. Functional Block DiagramFigure 3:Functional Block Diagram4. Mechanical Information4.0 Form Size: 50.8mm*30.0mm*3.85mm(LxWxH),refer Figure 4Figure 4: Form Size4.1 Pin Locations4.2 Signal DescriptionsPin PinDefinitions DefinitionsPin PinDefinitions DefinitionsP1 N o Connect P2 +3.3V P3 N o Connect P4 GND P5 N o Connect P6 +1.5V(No use)P7 N o Connect P8 N o Connect P9 GNDP10 N o Connect P11 N o Connect P12 N o Connect P13 N o Connect P14 N o Connect P15 GND P16 N o Connect P17 N o Connect P18 GND P19 N o Connect P20 N o Connect P21 GNDP22 N o Connect P23 SATA Differential TX+ based on SSD P24 +3.3V P25 SATA Differential TX- based on SSDP26 GND P27 GND P28 +1.5V(No use) P29 GNDP30 N o Connect P31 SATA Differential RX- based on SSD P32 N o Connect P33 SATA Differential RX+ based on SSDP34 GND P35 GND P36 N o Connect P37 GND P38 N o Connect P39 +3.3V P40 GND P41 +3.3V P42 N o Connect P43 GND P44 N o Connect P45 Vendor(No use) P46 N o Connect P47 Vendor(No use) P48 +1.5V(No use)P49 DAS/DSS(No use) P50 GND P51 Presence DetectionP52+3.3V5. Electrical CharacteristicsElectrical Characteristics Value Operating Voltage for 3.3 V (±5%)Min Max 3.14 V 3.47VPower Consumption (TYPE)Active(write/read)IdleSleep 1.4 W 0.5 W 0.3WNotes:1.Active power measured during execution of MobileMark* 2007 with SATA Link PowerManagement (LPM) enabled.2.Idle power defined as SSD at idle with SATA Link Power Management (LPM) enabled.6. Environmental Conditions6.0 TemperatureCase TemperatureOperating Non-operating Commercial :（0℃ ~ +70℃) Industrial: （-40℃ ~ +85℃)-55 ~ 95 ℃Temperature GradientOperating Non-operating 30 (TYP) ℃/hr 30 (TYP) ℃/hrHumidityOperating Non-operating 5 ~ 95% 5 ~ 95%Wellcorping Technology Co., Ltd6.1 Shock and VibrationShockOperating Non-operating 1,500 G (Max) at 0.5 msec 1,500 G (Max) at 0.5 msecVibrationOperating Non-operating 2.17 GRMS (5-700 Hz) Max3.13 GRMS (5-800 Hz) MaxNotes:1.Temperature gradient measured without condensation.2.Shock specifications assume the SSD is mounted securely with the input vibration applied to the drive-mounting screws.Stimulus may be applied in the X, Y or Z axis. Shock specification is measured using Root Mean Squared (RMS) value.3.Vibration specifications assume the SSD is mounted securely with the input vibration applied to the drive-mounting screws. Stimulus may be applied in the X, Y or Z axis. Vibration specification is measured using Root Mean Squared (RMS) value.Wellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved Command Name Code PARAMETERS USEDCommand NameCodeSCSNCYDRHDFTCHECK POWER MODEE5h O X X O X X DEVICE CONFIGURATION OVERLAY B1h X X X O X O EXECUTE DIAGNOSTICS 90h X X X O X X FLUSH CACHE E7h X X X O X X FLUSH CACHE EXT EAh X X X O X X IDENTIFY DEVICE ECh X X X O X X IDLEE3h O X X O X X IDLE IMMEDIATE E1h X X X O X X NOP00h F F F O X O INITIALIZE DEVICE PARAMETERS 91h O X X O O X READ BUFFER E4h X X X O X X READ DMA C8h or C9h O O O O O X READ DMA EXT 25h O O O O O X READ FPDMA QUEUED 60h O O O O O O READ LOG EXT 2Fh O O O O O O READ MULTIPLE C4h O O O O O X READ MULTIPLE EXT 29h O O O O O X READ NATIVE MAX ADDRESS F8h X X X O X X READ NATIVE MAX ADDRESS EXT 27h X X X O X X READ SECTOR(S) 20h or 21h O O O O O X READ SECTOR(S) EXT 24h O O O O O X READ VERIFY SECTOR(S) 40h or 41h O O O O O X READ VERIFY SECTOR(S) EXT 42h O O O O O X RECALIBRATE10h X X X O X X SECURITY DISABLE PASSWORD F6h X X X O X X SECURITY ERASE PREPARE F3h X X X O X X SECURITY ERASE UNIT F4h X X X O X X SECURITY FREEZE LOCK F5h X X X O X X SECURITY SET PASSWORDF1hXXXOXX7 ATA General Feature Command Set7.0 ATA Command set.This table with the following paragraphs summarizes the ATA command set.Command TableWellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved SECURITY UNLOCK F2h X X X O X XSEEK 7xh X X O O O XSET FEATURES EFh O X X O X OSET MAX F9h O O O O O OSET MAX ADDRESS EXT 37h O O O O O XSET MULTIPLE MODE C6h O X X O X XSLEEP E6h X X X O X XSMART B0h X X O O X OSTANDBY E2h X X X O X XSTANDBY IMMEDIATE E0h X X X O X XWRITE BUFFER E8h X X X O X XWRITE DMA CAh or CBh O O O O O XWRITE DMA EXT 35h O O O O O XWRITE DMA FUA EXT 3Dh O O O O O XWRITE FPDMA QUEUED 61h O O O O O OWRITE LOG EXT 3Fh O O O O O XWRITE MULTIPLE C5h O O O O O XWRITE MULTIPLE EXT 39h O O O O O XWRITE MULTIPLE FUA EXT CEh O O O O O XWRITE SECTOR(S) 30h or 31h O O O O O XWRITE SECTOR(S) EXT 34h O O O O O XWRITE VERIFY 3Ch O O O O O ONote:O = Valid, X = Don't careSC = Sector Count RegisterSN = Sector Number RegisterCY = Cylinder Low/High RegisterDR = DEVICE SELECT Bit (DEVICE/HEAD Register Bit 4)HD = HEAD SELECT Bit (DEVICE/HEAD Register Bit 3-0)FT = Features RegisterWellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved 7.1 ATA COMMAND SPECIFICATIONSCHECK POWER MODE (E5h)The host can use this command to determine the current power management mode.Sector Count result value-00h – device is in Standby mode80h – device is in Idle modeFFh – device is in Active mode or Idle modeDEVICE CONFIGURATION OVERLAY (B1h)Individual Device Configuration Overlay (DCO) feature set commands are identified by the value placed in the Feature field.The subcommands and their respective codes are listed below.Device Configuration Overlay Feature field valuesValue CommandsC0h DEVICE CONFIGURATION RESTOREC1h DEVICE CONFIGURATION FREEZE LOCKC2h DEVICE CONFIGURATION IDENTIFYC3h DEVICE CONFIGURATION SETDEVICE CONFIGURATION RESTORE (B1h/C0h)The DEVICE CONFIGURATION RESTORE command provides a method for a host to restore any setting previously changed by a DEVICE CONFIGURATION SET command and to restore the content of the IDENTIFY DEVICE data, IDENTIFY PACKET DEVICE data, and other feature settings in a device to their factory default settings. The results of thisaction are indicated by the data returned from the Input Data of a DEVICE CONFIGURATION IDENTIFY command.DEVICE CONFIGURATION FREEZE LOCK (B1h/C1h)The DEVICE CONFIGURATION FREEZE LOCK command provides a method for the host to prevent accidental modification of a device's DCO settings. After a device has completed a DEVICE CONFIGURATION FREEZE LOCK command without error, the device shall return command aborted for all DEVICE CONFIGURATION SET, DEVICE CONFIGURATION FREEZE LOCK, DEVICE CONFIGURATION IDENTIFY, and DEVICE CONFIGURATIONRESTORE commands until after the device processes a power-on reset. A device shall be in the factory_config state or thereduced_config state after processing a power-on reset. A device shall not exit the DCO_Locked state as the result of processing a hardware reset or a software reset.Wellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved DEVICE CONFIGURATION IDENTIFY (B1h/C2h)DEVICE CONFIGURATION IDENTIFY (B1h/C2h)The DEVICE CONFIGURATION IDENTIFY command causes a device to return a 512-byte data structure. The content of this data structure indicates the selectable commands, modes, and feature sets that the device is capable of disabling or modifying through processing of a DEVICE CONFIGURATION SET command. If a DEVICE CONFIGURATION SET command reducing a device's capabilities has completed without error, then:a) the response by a device to an IDENTIFY DEVICE, IDENTIFY PACKET DEVICE, and other commands, exceptthe DEVICE CONFIGURATION IDENTIFY command, shall reflect the reduced set of capabilities; andb) the response by a device to a DEVICE CONFIGURATION IDENTIFY command shall reflect the entire set of selectable capabilities.The phrase “is changeable” indicates that the feature may be disabled by the host using a DEVICE CONFIGURATION SET command. If the feature is not changeable then the device may support the feature but the DEVICE CONFIGURATION SET command shall not affect support of the feature.The format of the Device Configuration Overlay data structure is listed below.DCO Identify data structureWordValueDescription0002hData structure revision number1 0007hMultiword DMA modes supported Bit15:3 ReservedBit2 1 = Reporting support for Multiword DMA mode 2 and below is changeable Bit1 1 = Reporting support for Multiword DMA mode 1 and below is changeable Bit0 1 = Reporting support for Multiword DMA mode 0 is changeable 2 007FhUltra DMA modes supported Bit15:7 ReservedBit6 1 = Reporting support for Ultra DMA mode 6 and below is changeable Bit5 1 = Reporting support for Ultra DMA mode 5 and below is changeable Bit4 1 = Reporting support for Ultra DMA mode 4 and below is changeable Bit3 1 = Reporting support for Ultra DMA mode 3 and below is changeable Bit2 1 = Reporting support for Ultra DMA mode 2 and below is changeable Bit1 1 = Reporting support for Ultra DMA mode 1 and below is changeable Bit0 1 = Reporting support for Ultra DMA mode 0 is changeable 3-6Native MAXLBAMaximum LBA (QWord) Bit63:48 ReservedBit47:0 Maximum LBAWellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved Word Value Description7 0089h Command set/feature set supported part 1Bit15ReservedBit14 1 = Reporting support for the Write-Read-Verify feature set is changeableBit13 1 = Reporting support for the SMART Conveyance self-test is changeableBit12 1 = Reporting support for the SMART Selective self-test is changeableBit11 1 = Reporting support for the Forced Unit Access is changeable Bit10 Reserved for TLCBit9 1 = Reporting support for the Streaming feature set is changeableBit8 1 = Reporting support for the 48-bit Addressing feature set is changeableBit7 1 = Reporting support for the HPA feature set is changeableBit6 1 = Reporting support for the AAM feature set is changeable Bit5 1 = Reporting support for the TCQ feature set is changeableBit4 1 = Reporting support for the PUIS feature set is changeable Bit3 1 = Reporting support for the Security feature set is changeable Bit2 1 = Reporting support for the SMART error log is changeable Bit1 1 = Reporting support for the SMART self-test is changeable Bit0 1 = Reporting support for the SMART feature set is changeable8 0000h Serial ATA Command set/feature set supportedBit15:5 Reserved for Serial ATABit4 1 = Reporting support for the SSP feature set is changeableBit3 1 = Reporting support for asynchronous notification is changeableBit2 1 = Reporting support for interface power management is changeableBit1 1 = Reporting support for non-zero buffer offsets is changeable Bit0 1 = Reporting support for the NCQ feature set is changeable9 0000h Reserved for Serial ATA 10-20 0000h Reserved21 0000h Command set/feature set supported part 2Bit15 1 = Reporting support for the NV Cache feature set is changeable Bit14 1 = Reporting support for the NV Cache Power Management feature set is changeableBit13 1 = Reporting support for WRITE UNCORRECTABLE EXT is changeableBit12 1 = Reporting support for the Trusted Computing feature set is changeableBit11 1 = Reporting support for the Free-fall Control feature set is changeableBit10:0 Reserved22 0000h Command set/feature set supported part 3Bit15:0 Reserved23-207 0000h Reserved208-254 0000h Vender Specific255Checksum +A5h Integrity wordBit15:8 Checksum Bit7:0 SignatureWellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved DEVICE CONFIGURATION SET (B1h/C3h)The DEVICE CONFIGURATION SET command allows a host to reduce the set of optional commands, modes, or feature sets supported by a device as indicated by a DEVICE CONFIGURATION IDENTIFY command. The DEVICE CONFIGURATION SET command may modify the data returned by IDENTIFY DEVICE or IDENTIFY PACKET DEVICE. When the IDENTIFY DEVICE data or IDENTIFY PACKET DEVICE data is changed, the device shall respond ina manner consistent with the new data.If a bit is set to one in the DEVICE CONFIGURATION SET data transmitted to the device that is not set in the DCO data received from a DEVICE CONFIGURATION IDENTIFY command, no action is taken for that bit.Modifying the maximum LBA of the device also modifies the LBA value returned by a READ NATIVE MAX ADDRESSor READ NATIVE MAX ADDRESS EXT command.EXECUTE DIAGNOSITICS (90h)This command performs the internal diagnostic tests implemented by the drive. See ERROR register for diagnostic codes.FLUSH CACHE (E7h)This command is used by the host to request the device to flush the write cache. If there is data in the write cache, that data shall be written to the media. The BSY bit shall remain set to one until all data has been successfully written or an error occurs.FLUSH CACHE EXT (EAh)48-bit feature set mandatory command. This command is used by the host to request the device to flush the write cache. If there is data in the write cache, that data shall be written to the media. The BSY bit shall remain set to one until all data has been successfully written or an error occurs.IDENTIFY DEVICE (ECh)This commands read out 512Bytes of drive parameter information. Parameter Information consists of the arrangement and value as shown in the following table. This command enables the host to receive the Identify Drive Information from the device.Wellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved 7.2 SMART COMMAND SETSMART Function Set (B0h)Performs different processing required for predicting device failures, according to the subcommand specified in the Features register. If the Features register contains an unsupported value, the Aborted Command error is returned. If the SMART function is disabled, any subcommand other than SMART ENABLE OPERATIONS results in the Aborted Command error.Code Smart SubcommandD0h READ DATAD1h READ ATTRIBUTE THRESHOLDSD2h ENABLE/DISABLE ATTRIBUTE AUTOSAVED3h SAVE ATTRIBUTE VALUESD8h ENABLE OPERATIONSD9h DISABLE OPERATIONSDAh RETURN STATUSSMART READ DATA (B0h/D0h)This command returns 512-byte SMART Data Structure to the host with PIO data-in protocol. The register file has to contain D0h for Features register, 4Fh for LBA Mid register and C2h for the LBA High register.Byte Description0-1 Data structure revision number2-13 1st attribute data14-361 2nd-30th Individual attribute data362 Off-line data collection status363 Self-test execution status364-365 Total time in seconds to complete off-line data collection366 Reserved367 Off-line data collection capability368-369 SMART capability370 Error logging capability371 Self-test Failure Checkpoint372 Short self-test routine recommended polling time(in minutes)373 Extended self-test routine recommended polling time(in minutes)374-510 Reserved511 Data structure ChecksumWellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved Byte 2-361: Individual attribute dataByte Description0 Attribute ID1-2 Status Flag3 Attribute Value4 Worst Ever normalized Attribute Value5-10 Raw Attribute Value11 ReservedThe attribute ID information is listed in the following table:ID Description01h Read Error Rate02h Throughput Performance03h Spin Up Time05h Reallocated Sector Count07h Seek Error Rate08h Seek Time performance09h Power-On hours Count0Ah Spin Retry Count0Ch Drive Power Cycle CountA8h SATA PHY Error CountAAh Bad Block CountADh Erase CountAFh Bad Cluster Table CountC0h Unexpected Power Loss CountC2h TemperatureC5h Current Pending Sector CountF0h Write HeadWellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved MART READ ATTRIBUTE THRESHOLD (B0h/D1h)This command transfers 512 bytes of drive failure threshold data to the host.Byte Description0-1 Data structure revision number2-361 st th1 – 30 Individual attribute threshold data362-510 Reserved1 – 30 Individual attribute threshold data511 Data structure checksumSMART ENABLE/DISABLE ATTRIBUTE AUTOSAVE (B0h/D2h)This command enables and disables the optional attribute autosave feature of the device. This command may either allow the device, after some vendor specified event, to save the device updated attributes to non-volatile memory; or this command may cause the autosave feature to be disabled. The state of the attribute autosave feature, either enabled or disabled, shall be preserved by the device during all power and reset events.A value of zero written by the host into the device’s Count field before issuing this command shall cause this feature to be disabled. Disabling this feature does not preclude the device from saving SMART data to non-volatile memory during some other normal operation (e.g., during a power-on or power-off sequence or during an error recovery sequence).A value of F1h written by the host into the device’s Count field before issuing this command shall cause this feature to be enabled. Any other other non-zero value written by the host into this field before issuing this command is vendor specific. The meaning of any non-zero value written to this field at this time shall be preserved by the device during all power and reset events.SMART SAVE ATTRIBUTE VALUE (B0h/D3h)Saves any modified attribute values.SMART ENABL OPERATIONS (B0h/D8h)Enables the SMART function. This setting is maintained when the power is turned off and then back on. Once the SMART function is enabled, subsequent SMART ENABLE OPERATIONS commands do not affect any parameters.SMART DISABLE OPERATIONS (B0h/D9h)Disables the SMART function. Upon receiving the command, the drive disables all SMART operations. This setting is maintained when the power is turned off and then back on. Once this command has been received, all SMART commands other than SMART ENABLE OPERATIONS are aborted with the Aborted Command error.This command disables all SMART capabilities including any and all timer and event count functions related exclusively to this feature. After command acceptance, this controller will disable all SMART operations. SMART data in no longer be monitored or saved. The state of SMART is preserved across power cycles.Wellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved SMART RETURN STATUS (B0h/DAh)Reports the drive reliability status.Values reported when a predicted defect has not been detected:Cylinder Low register: 4FhCylinder High register: C2hValues reported when a predicted defect has been detected:Cylinder Low register: F4hCylinder High register: 2ChSTANDBY (E2h)This command causes the device to enter the Standby mode. If the Count field is non-zero then the Standby timer shall be enabled. The value in the Count field shall be used to determine the time programmed into the Standby timer. If the Count field is zero then the Standby timer is disabled.STANDBY IMMEDIATE (E0h)This command causes the drive to set BSY, enter the Sleep mode (which corresponds to the ATA “Standby” Mode), clear BSY and return the interrupt immediately.WRITE BUFFER (E8h)This command enables the host to write the contents of one 512-byte block of data to the device’s buffer. The READ BUFFER and WRITE BUFFER commands shall be synchronized within the device such that sequential WRITE BUFFER and READ BUFFER commands access the same bytes within the buffer.WRITE DMA (CAh)Write data to sectors during Ultra DMA and Multiword DMA transfer. Use the SET FEATURES command to specify the mode value.WRITE DMA EXT (35h)48-bit feature set mandatory command. Write data to sectors during Ultra DMA and Multiword DMA transfer. Use the SET FEATURES command to specify the mode value.WRITE DMA FUA EXT (3Dh)48-bit feature set mandatory command. This command provides the same function as the WRITE DMA EXT command except that regardless of whether volatile and/or non-volatile write caching in the device is enabled or not, the user data shall be written to non-volatile media before command completion is reported.WRITE FPDMA QUEUED (61h)NCQ feature set mandatory 48-bit command. This command causes data to be transferred from the host to the device.Wellcorping Technology Co., Ltd© WELLCORE 2011. All rights reserved WRITE LOG EXT (3Fh)This command writes a specified number of 512 byte blocks of data to the specified log.WRITE MULTIPLE (C5h)This command writes the number of logical sectors specified in the Count field. The number of logical sectors per DRQ data block is defined by the content of IDENTIFY DEVICE data word 59. If the number of requested logical sectors is not evenly divisible by the DRQ data block count, as many full blocks as possible are transferred, followed by a final, partial block transfer. The partial block transfer is for n logical sectors, where:n = Remainder (Count / DRQ data block count).Device errors encountered during WRITE MULTIPLE commands are posted after the attempted device write of the DRQ data block or partial DRQ data block is transferred. The command ends with the logical sector in error, even if the error was in the middle of a DRQ data block. Subsequent DRQ data blocks are not transferred in the event of an error.The contents of the Command Structure following the transfer of a DRQ data block that had a logical sector in error are undefined. The host should retry the transfer as individual requests to obtain valid error information. If IDENTIFY DEVICE data word 59 bit 8 is cleared to zero or IDENTIFY DEVICE data word 59 bits (7:0) are set to zero, and a WRITE MULTIPLE command is received by the device, and no successful SET MULTIPLE MODE command has been processed by the device, the device shall return command aborted. A successful SET MULTIPLE MODE command should precede a WRITE MULTIPLE command.WRITE MULTIPLE EXT (39h)48-bit feature set mandatory command. This command is similar to the Write Sectors command. Interrupts are not presented on each sector, but on the transfer of a block which contains the number of sectors defined by Set Multiple command.WRITE MULTIPLE FUA EXT (CEh)48-bit feature set mandatory command. This command provides the same functionality as the WRITE MULTIPLE EXT command except that regardless of whether volatile and/or non-volatile write caching in the device is enabled or not, the user data shall be written to non-volatile media before command completion is reported.WRITE SECTOR(S) (30h/31h)Write data to a specified number of sectors (1 to 256, as specified with the Sector Count register) from the specified address. Specify “00h” to write 256 sectors.WRITE SECTOR(S) EXT (34h)48-bit feature set mandatory command. Write data to a specified number of sectors (1 to 65536, as specified with the Sector Count register) from the specified address. Specify “00h” to write 65536 sectors.WRITE VERIFY (3Ch)This command is similar to the WRITE SECTOR(S) command, except that each sector is verified before the command is completed.Wellcorping Technology Co., Ltd8 NCQNCQ-Native Command QueuingThe WELLCORE W10 Series supports the Native Command Queuing (NCQ) command set, which includes:•READ FPDMA QUEUED•WRITE FPDMA QUEUEDNote:With a maximum queue depth equal to 32.Wellcorping Technology Co., Ltd。

PACKAGING INFORMATIONOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)MAX3232CD ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDB ACTIVE SSOP DB1680Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDBE4ACTIVE SSOP DB1680Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDBG4ACTIVE SSOP DB1680Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDBR ACTIVE SSOP DB162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDBRE4ACTIVE SSOP DB162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDBRG4ACTIVE SSOP DB162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDE4ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDG4ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDR ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDRE4ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDRG4ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDW ACTIVE SOIC DW1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDWG4ACTIVE SOIC DW1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDWR ACTIVE SOIC DW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CDWRG4ACTIVE SOIC DW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CPW ACTIVE TSSOP PW1690Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CPWE4ACTIVE TSSOP PW1690Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CPWG4ACTIVE TSSOP PW1690Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CPWR ACTIVE TSSOP PW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CPWRE4ACTIVE TSSOP PW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232CPWRG4ACTIVE TSSOP PW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232ID ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDB ACTIVE SSOP DB1680Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDBE4ACTIVE SSOP DB1680Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)MAX3232IDBG4ACTIVE SSOP DB1680Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDBR ACTIVE SSOP DB162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDBRE4ACTIVE SSOP DB162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDBRG4ACTIVE SSOP DB162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDE4ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDG4ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDR ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDRE4ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDRG4ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDW ACTIVE SOIC DW1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDWE4ACTIVE SOIC DW1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDWG4ACTIVE SOIC DW1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDWR ACTIVE SOIC DW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDWRE4ACTIVE SOIC DW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IDWRG4ACTIVE SOIC DW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IPW ACTIVE TSSOP PW1690Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IPWE4ACTIVE TSSOP PW1690Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IPWG4ACTIVE TSSOP PW1690Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IPWR ACTIVE TSSOP PW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IPWRE4ACTIVE TSSOP PW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMMAX3232IPWRG4ACTIVE TSSOP PW162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIM(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan-The planned eco-friendly classification:Pb-Free(RoHS),Pb-Free(RoHS Exempt),or Green(RoHS&no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free(RoHS):TI's terms"Lead-Free"or"Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all6substances,including the requirement that lead not exceed0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Pb-Free(RoHS Exempt):This component has a RoHS exemption for either1)lead-based flip-chip solder bumps used between the die and package,or2)lead-based die adhesive used between the die and leadframe.The component is otherwise considered Pb-Free(RoHS compatible)as defined above.Green(RoHS&no Sb/Br):TI defines"Green"to mean Pb-Free(RoHS compatible),and free of Bromine(Br)and Antimony(Sb)based flame retardants(Br or Sb do not exceed0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.OTHER QUALIFIED VERSIONS OF MAX3232:•Enhanced Product:MAX3232-EPNOTE:Qualified Version Definitions:•Enhanced Product-Supports Defense,Aerospace and Medical ApplicationsTAPE AND REEL INFORMATION*All dimensions are nominal Device Package Type Package DrawingPinsSPQ Reel Diameter (mm)Reel Width W1(mm)A0(mm)B0(mm)K0(mm)P1(mm)W (mm)Pin1Quadrant MAX3232CDBR SSOPDB 162000330.016.48.2 6.6 2.512.016.0Q1MAX3232CDR SOICD 162500330.016.4 6.510.3 2.18.016.0Q1MAX3232CDWR SOICDW 162000330.016.410.7510.7 2.712.016.0Q1MAX3232CPWR TSSOPPW 162000330.012.4 6.9 5.6 1.68.012.0Q1MAX3232IDBR SSOPDB 162000330.016.48.2 6.6 2.512.016.0Q1MAX3232IDR SOICD 162500330.016.4 6.510.3 2.18.016.0Q1MAX3232IDWR SOICDW 162000330.016.410.7510.7 2.712.016.0Q1MAX3232IPWR TSSOP PW 162000330.012.4 6.9 5.6 1.68.012.0Q1*All dimensions are nominalDevice Package Type Package Drawing Pins SPQ Length(mm)Width(mm)Height(mm) MAX3232CDBR SSOP DB162000346.0346.033.0 MAX3232CDR SOIC D162500333.2345.928.6 MAX3232CDWR SOIC DW162000346.0346.033.0 MAX3232CPWR TSSOP PW162000346.0346.029.0 MAX3232IDBR SSOP DB162000346.0346.033.0 MAX3232IDR SOIC D162500333.2345.928.6 MAX3232IDWR SOIC DW162000346.0346.033.0MAX3232IPWR TSSOP PW162000346.0346.029.0IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,modifications,enhancements,improvements, and other changes to its products and services at any time and to discontinue any product or service without notice.Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty.Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty.Except where mandated by government requirements,testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design.Customers are responsible for their products and applications using TI components.To minimize the risks associated with customer products and applications,customers should provide adequate design and operating safeguards.TI does not 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Global Air Preparation SystemCompact Semi-Precision Filter / Regulator - P32SymbolsFlow ‡3Max.Height Width Depth†• Integral 1/4", 3/8" or 1/2" ports (NPT, BSPP & BSPT)• High efficiency 5 micron element as standard • Excellent water removal efficiency• Robust but lightweight aluminum construction • Positive bayonet latch to ensure correct & safe fitting • Secondary pressure ranges 0-2 bar (0-30 psig), 0-4 bar, (0-60 psig), 0-8 bar (0-125 psig), 0-17 bar (0-250 psig)• Secondary aspiration plus balanced poppet provides quick response and accurate pressure regulation‡ Flow with 10 bar (145 psig) inlet pressure, 6.3 bar (91.3) psig) set pressure and 1 bar (14.5 psig) pressure drop.1Options:Global Air Preparation SystemFor best performance, regulated pressure should always be set by increasing the pressure up to the desired setting.Flow ChartsSpecificationsFlow capacity* 1/4 35 dm 3/s (75 scfm) 3/8 35 dm 3/s (75 scfm) 1/2 35 dm 3/s (75 scfm)Effect of supply pressure variation 0.04 bar (0.6 PSIG) for 1.7 bar (25 PSIG) change in P1Operating Plastic bowl -25°C to 52°C (-13°F to 125°F) temperature Metal bowl -25°C to 65.5°C (-13°F to 150°F)Max. supply Plastic bowl 10 bar (150 psig)pressure Metal bowl 17 bar (250 psig)Standard filtration 5 micronUseful retention † 51 cm 3(1.7 US oz.)Adjusting range pressure 0-2 bar (30 psig) 0-4 bar (60 psig) 0-8 bar (125 psig) 0-17 bar (250 psig)Port size BSPP / BSPT / NPT 1/4, 3/8, 1/2Gauge port (2 ea.) BSPP / BSPT / NPT 1/4Weight 0.53 kg (1.17 lbs)* Inlet pressure 10 bar (145 psig). Secondary pressure 6.3 bar (91.3 psig).†Useful retention refers to volume below the quiet zone baffle.Air quality :Within ISO 8573-1: 1991 Class 3 (Particulates); 2001 Class 6 (Particulates)Material SpecificationsBody Aluminum Adjustment knob Acetal Element retainer / Baffle Acetal Bowl Plastic bowl Polycarbonate Metal bowl Zinc Bowl guard Nylon Filter element Sintered polyethyleneSealsNitrile Springs Main regulating / valve Steel / S.S.Valve assemblyBrass / Nitrile Diaphragm assembly Nitrile / ZincPanel nutAcetal Sight gauge Metal bowl PolycarbonateRepair and Service KitsPlastic bowl / Bowl guard manual drain P32KB00BGM Metal bowl / Sight gauge manual drain P32KB00BSM Auto drainP32KA00DA 5µ particle filter elementP32KA00ESE Regulator repair kit - relieving P32KB00RB Regulator repair kit - non-relieving P32KB00RC Panel mount nut - aluminum P32KA00MM Panel mount nut - plasticP32KA00MP Angle bracket (fits to panel mount threads) P32KB00MR T -bracket (fits to body connector) P32KA00MB T -bracket with body connector P32KA00MT Body connectorP32KA00CB1/4 Filter / Regulator3/8 Filter/Regulator1/2 Filter/RegulatorWARNINGProduct rupture can cause serious injury.Do not connect regulator to bottled gas.Do not exceed Maximum primary pressure rating.!Manual DrainDimensions mm (inches)Gauges50mm (2") Round 1/4" center back mount0-30 psig / 0-2 barK4520N140300-60 psig / 0-4 bar K4520N140600-160 psig / 0-11 bar K4520N141600-300 psig / 0-20 barK4520N14300S e c o n d a r y P r e s s u r e - b a r S e c o n d a r y P r e s s u r e - (p s i g )0204060801001201400Flow - dm 3/s Flow - (scfm)2040103060805070S e c o n d a r y P r e s s u r e - b a r S e c o n d a r y P r e s s u r e - (p s i g )0204060801001201400Flow - dm 3/s Flow - (scfm)2040103060805070S e c o n d a r y P r e s s u r e - b a r S e c o n d a r y P r e s s u r e - (p s i g )0204060801001201400Flow - dm 3/s Flow - (scfm)2040103060805070。

5零件手册Parts ManualA4 系列 A4 Series14. 压料、自动抬压脚分组件/Presser Presser Bar Bar ，Auto Auto Lifter Lifter Components公司件号 Part NO.名称 PartName零件描述 Description压脚扳手螺钉SM9/64"x40 L=11Screw SM9/64"x40 L=11压脚扳手螺钉垫圈Washer 压脚扳手Hand lifter O 型圈Rubber ring 压脚扳手凸轮分部件Hand lifter cam asm.前杠杆螺纹销Screw 螺纹销橡胶垫圈(厚)Washer （H ）抬压脚前杠杆分部件Lift front lever component 抬压脚拉杆Knee lifter pull rod 5. 送料分组件/Feed Feed Mechanism Mechanism ComponentsGB/T896-1986挡圈 5Snap ring Main Shaft & Thread Take-up Components压脚升降板Lifting plate序号NO.公司件号 Part NO.名称 PartName零件描述 Description数量 Number抬压脚拉杆螺钉SM3/16"x32Hinge Screw SM3/16"x32Part NO.名称 PartName零件描述 Description后杠杆轴位螺钉SM15/64"x28Hinge screw SM15/64"x28111405015倒送料连杆Reverse feed connecting rod 11. 机壳、外装分组件/Machine Frame & Miscellaneous Cover Components抬压脚后杠杆Knee lifter back lever 11305015倒送料连杆（-7）Reverse feed connecting rod(-7)1挑线连杆销 (厚料）Thread take-up connecting rod pin （抬压脚顶杆Knee lifter connecting rod 211426021倒送料连杆销Connecting rod pin 1公司件号 Part NO.名称 PartName零件描述 Description挑线连杆销Thread take-up connecting rod pin 松线导管上支架Wire release bracket upper 11326011倒送料连杆销（-7）Connecting rod pin(-7)1上轮螺钉 SM15/64"x28 L=15Screw SM15/64"x28 L=15松线导管压板Wire release press plate 3101S11005螺钉 SM9/64"x40 L=6Screw SM9/64"x40 L=66101S11001后窗板螺钉SM3/16"×28 L=9Screw SM3/16"×28 L=9挑线连杆（厚料）Thread take-up connecting rod （H)油管压板螺钉SM3/16"x28 L=7Screw SM3/16"x28 L=7410101053送料调节器Feed regulator 110122003面板调节孔螺塞Rubber plug 挑线连杆Thread take-up connecting rod 松线导管压板螺钉M4x8Screw M4x8511403043送料调节器轴套Feed regulator bushing 113837002商标牌Head card GB/T896-1986挡圈Snap ring 抬压脚前杠杆组件Knee lifter lever asm 6101S11023送料调节器轴端螺钉SM3/16"x28 L=6.5Screw SM3/16"x28 L=6.51302591面板（喷漆）Face plate asm 垫片washer713826005标盘螺柱Feed regulator stud 113813005左线钩Thread guide left 针杆曲柄护板Needle bar crank protecting plate 810122016送料调节螺钉O形圈Rubber ring 1101S11007右线钩螺钉SM11/64"×40 L=6Screw SM11/64"×40 L=6挑线杆分组件Thread take-up lever asm.913811008固定表盘Fixing dial plate 113822006面板垫Face plate gasket 挑线杆组件（厚料）Thread take-up lever asm.（H ）13811008固定表盘（-7）Fixing dial plate(-7)1101S11027防油板螺钉SM1/8"×44 L=3.4Screw SM1/8"×44 L=3.4挑线杆滚针轴承Needle bearing 13811013固定表盘（H-M ）Fixing dial plate(H-M)110412007面部防油板Face oil shield asm.挑线曲柄分部件Thread take-up crank 10H05018GB/T896-1986挡圈3.5Snap ring 3.5111412082面部防油板（厚料）Face oil shield asm.(H)挑线曲柄分部件（厚料）Thread take-up crank （H ）1113811009标盘按钮Dial plate button 110122013针杆上衬套孔塞Rubber plug 挑线曲柄分部件（H-M ）Thread take-up crank （H-M ）1213827002按钮复位簧Spring110122005挑线连杆销螺孔塞Rubber plug 针杆连杆Needle bar connecting rod 1313812010上限位片Upper limit patch 110122004针杆曲柄螺孔塞Rubber plug挑线曲柄螺钉（左旋）Screw141381100700标盘旋钮组件Knob component 1101S11004挑线杆护罩螺钉SM3/16"×28 L=7Screw SM3/16"×28 L=7针杆曲柄紧固螺钉 SM9/32"x28 L=16Screw SM9/32"x28 L=1615101S11022送料距旋钮螺钉SM3/16"x28 L=18Screw SM3/16"x28 L=181********挑线杆防护罩Thread take-up lever cover 针杆曲柄定位螺钉SM9/32"x28 L=16Screw SM9/32"x28 L=16101S11004挑线杆护罩螺钉SM3/16"×28 L=7Screw SM3/16"×28 L=7针杆曲柄Needle bar crank 13512004三孔线勾3-hole thread guide 针杆曲柄（厚料）Needle bar crank （H ）10122005挑线连杆销螺孔塞Rubber plug送料轴挡圈螺钉SM1/4"x40 L=6Screw SM1/4"x40 L=6114S11015割线刀螺钉SM9/64"×40 L=6Screw SM9/64"×40 L=6上轴前轴套组件Main shaft bushing front 11419001割线刀Knife 夹线器螺钉SM15/64"x28 L=7Screw SM15/64"x28 L=720722002油塞Rubber plug 主轴中轴套Main shaft bushing mid 13822001操作屏孔塞Rubber plug 上轴中套挡圈螺钉Screw13822007后窗板垫Side plate gasket 上轴挡圈Main shaft thrust collar 302592后窗板（喷漆）Side plate挡圈20Snap ring 20101S11001后窗板螺钉SM3/16"×28 L=9Screw SM3/16"×28 L=9送料偏心轮 Feed eccentric cam 13811031一体机电控罩壳(鲍麦克斯)Electronic control box 送料偏心轮(厚料)Feed eccentric cam (H)W01009GB/T97.1-1985垫圈 5Washer 5送料偏心轮(H-M)Feed eccentric cam (H-M)114S13001直驱电机螺钉M5×20Screw M5×20送料偏心轮盖板Cover plate 114S30001螺栓(内六角)M5×25Screw M5×25送料偏心轮盖板(H-M)Cover plate(H-M)13833010一体机电控组件（琦星）Electronic control box(Q)送料偏心轮螺钉 SM1/4"x40 L=13Screw SM1/4"x40 L=1313833013一体机电控组件（鲍麦克斯）Electronic control box 护针片螺钉 SM9/64"x40 L=5Screw SM9/64"x40 L=510122006送料调节器孔塞Rubber plug 上轴后轴套The rear axle sleeve 10122007下轴工艺孔塞Rubber plug 上轴后套挡油油封Oil seal 138S05001操作面板螺钉ScrewGB/T894.1-1986挡圈15Snap ring 1513833012一体机电控面板组件（琦星）Control panel(Q)上轴Main shaft 13833015一体机电控面板组件（鲍麦克斯）Control panel 手轮贴条Handwheel lable 101S12001底板支柱Machine head stud 螺钉Screw 13822002装饰条Decorative article 手轮（喷漆）Handwheel 101S11004螺钉Screw电机罩壳组件（配琦星）Motor cover asm(Q)1381300400小夹线器组件Thread tension asm.电机罩壳组件（配鲍麦克斯）Motor cover asm138S16019小夹线器螺母Thread tension nut 电机光栅组件（配鲍麦）Motor grating sensor asm 11227001小夹线弹簧Thread tension spring6`12. 机头附件(1)-线架组件/Machine Head Accessories(1)-Thread Stand Components公司件号 Part NO.名称 PartName零件描述 Description8. 润滑、油量检测组件/Oil Oil Lublication 、Oil Oil Measuring Measuring Components20131019线架杆顶防护橡皮Spool rest rod rubber cap 公司件号 Part NO.名称 PartName零件描述 Description数量 S04050 十字槽凹穴六角头螺栓 M5 L=16 Screw M5 L=16 W01047垫圈M5Washer M5油窗Oil sight window N01034 螺母 M5Nut M510122019油窗O形圈Rubber ring 13831022上线架过线杆 Spool rest arm upper 上轴供油管Main shaft oil tube 10113011过线圈（内）Thread guide ring 112S30005油泵连接螺柱Oil pump connecting stud 10113010过线圈(外) Thread guide ring 11329010开口挡圈10Snap ring 1013831019线架杆上节Spool rest rod upper 6. 切线装置部件/Thread Trimmer Components供油管Hook oil tube13831021线架杆接头 Spool rest rod joint 10112020油泵安装板Oil pump installing base 13831020线架杆下节Spool rest rod lower 序号NO.公司件号 Part NO.名称 PartName零件描述 Description数量 NumberW03002弹垫Spring washer10122106橡胶垫圈Spool rest rod rubber ring 209S12001压脚螺钉SM11/64＂×40 L=10.5Screw SM11/64＂×40 L=10.5W01048垫圈M16Washer M161113S15002定刀调节螺钉SM1/8"x44 L=9.5Screw SM1/8"x44 L=9.5110103022油泵体衬套Oil pump bushing N02008六角薄螺母 M16Spool rest rod nut M16211319001定刀Secant knife 1101S30007柱塞螺钉Plunger Screw 10. 绕线器组件/ Bobbin ComponentsS04051十字槽凹穴六角头螺栓 M5Spool rest arm lower screw M53113S17001螺钉SM9/64"x40Screw SM9/64"x40110127013柱塞簧Plunger spring N01034 螺母 M5Nut M5411312003护针片Needle guard patch 110122018回油柱塞Plunger 公司件号 Part NO.名称 PartName零件描述 Description数量 W03002弹簧垫圈 5Spring washer 55201S11009螺钉SM9/64"x40 L=5.5Screw SM9/64"x40 L=5.5110120001油泵体Oil pump 6113S11001螺钉SM11/64"x40 L=12Screw SM11/64"x40 L=122油泵螺钉Screw1383103900绕线器组件Bobbin winder asm.油泵叶轮Oil pump impeller 114S11008螺钉M4x6Screw M4x6油泵叶轮托板Oil pump impeller cover GB/T97.1 垫圈4Washer油泵盖Lubricating oil pump cover 10113030压线控制板Thread press control plate 101S30006螺钉Screw10111120绕线衬垫Winding pad 1012000100油泵分部件Lubricating oil pump component 13831101绕线器装置主座Bobbin winder bed116S30003抬牙叉固定螺钉SM15/64＂×28 L=14.5Screw SM15/64＂×28 L=14.5GB/T 896-1986 开口挡圈5Snap ring 10136001供油管接头Rubber joint 10127061复位板拉簧Spring13812110调节板Regulating plate 10110030绕线凸轮Bobbin winder cam S09045螺钉Screw1380510600绕线器连杆组件Bobbin winder connecting rod 13827103满线复位簧spring 10127060弹簧Spring GB/T 896-1986开口挡圈4Snap ring13802111绕线器主轴Bobbin winder mian shaft 13802026绕线凸轮轴Bobbin winder cam shaft S09103绕线轮螺钉Screw13831102绕线轮Bobbin winder wheel O01110O 型圈Ring 11422062密封垫Washer114S11003螺钉SM3/16"×28 L=10Screw SM3/16"×28 L=101381300600底线夹线器Bobbin thread tension asm.13811004夹线螺母Thread tension nut 11427006小夹线弹簧Spring10112005夹线板Thread tension disk 11413022夹线过线板Thread tension guide plate 112S13004夹线螺钉Screw114S16001螺母SM11/64"×40Nut SM11/64"×4012. 机头附件(2)/Machine Head Accessories(2)公司件号 Part NO.名称 PartName零件描述 Description数量 1011203100机头连接钩部件 Hinge component10122060机头连接钩座 Head connecting rubber cushion 10117021机针（14#）Needle (14#)10117022机针DP×5#21（厚料）Needle (H)101S30010 机头连接钩座钉 Nail 10118003梭心 Bobbin机头支柱 Machine head rest pin 20731047螺丝刀(大)Screw driver10131003螺丝刀（中） Screw driver,medium9. 自动倒送料开关、感应抬压脚组件/Automatic Automatic Reverse Reverse Feed Feed ComponentsNO.公司件号 Part NO.名称 PartName零件描述 Description数量 NumberS05254GB/T70.1-2000螺钉M2.5×4Screw M2.5×411383004600下感应探头Lower sensor1201S11012螺钉SM9/64"×40 L=7.7Screw SM9/64"×40 L=7.7113813022过线压板Screw M4x8113822030橡皮塞（单孔）Rubber plug1101S11004挑线杆护罩螺钉SM3/16"×28 L=7Screw SM3/16"×28 L=711403003600双开关组件Auto reverse feed switch asm 1116S30003抬牙叉固定螺钉SM15/64"×28 L=14.5Screw SM15/64"×28 L=14.52W02004GB/T93-1987弹垫M6Spring washer M621011628005抬牙叉固定螺钉垫圈Washer2杰克缝纫机股份有限公司杰克缝纫机全球销量遥遥领先1383003400自动倒送料电磁铁Auto reverse feed solenoid 111. 油盘、膝抬压脚分组件/Oil Ceservoir，Knee Lifter Components1383003500自动倒送料电磁铁（-7）Auto reverse feed solenoid(-7)11211326005销子Pin 1序号NO.公司件号 Part NO.名称 PartName零件描述 Description数量 Number110122022油盘座垫Oil reservoir rubber cushion 1213801020油盘Oil Reservoir 1公司地址(Address of Company）：310111005抬压脚顶杆Knee lifter push rod 1台州市椒江区机场南路15号410122020油盘垫Oil Reservoir gasket 1No.15 Rd Airport South，Jiaojiang District Taizhou City，Zhejiang，P.R.C 7. 自动抬压脚组件/Auto Lifter Components510122021O 型圈Rubber ring1邮编( Zip Code )：3180006101S11028排油孔螺钉SM5/16"×24 L=7Screw SM5/16"×24 L=72国内销售部(Domestic Trade Department)：Part NO.名称 PartName零件描述 710131001油盘磁铁Oil reservoir magnet 1电话(TEL)：0086-0576-******** 88177789810122023油盘支架Oil reservoir rubber cushion 1传真(FAX)：0086-0576-********销子Pin 910112027抬压脚双向曲柄Knee lifter crank 1国贸部(International Trade Department)：开口销 GB/T91 2×14Cotter pin电话(TEL)：0086-0576-******** 88177774电磁铁接头Solenoid connector 传真(FAX)：0086-0576-********法兰螺母M8Flange nuts M8服务热线：400-8876858电磁铁组件Solenoid asm.2018.12后窗板螺钉SM3/16"×28 L=9screw SM3/16"×28 L=9资料如有更改，恕不另行通知，以实物为准。

500伏铜芯绝缘导线长期连续负荷允许载流量表注：导电线芯最高允许温度+65ºC0.6/1KV聚氯乙烯绝缘及护套铠装电力电缆在空气中和地下敷设长期连续负荷载流量适用电缆型号：VV22、VLV22导电线芯最高允许工作温度：70℃，周围环境温度：30℃0.6/1KV聚氯乙烯绝缘及护套电力电缆在空气中和地下敷设长期连续负荷载流量适用电缆型号：VV，VLV导电线芯最高允许工作温度：70℃，周围环境温度：30℃聚氯乙烯绝缘控制电缆KVV电缆直径|KVV电缆重量|KVV电缆外径|KVV电缆规格电缆结构: 有屏蔽---- 1.铜导线2.聚氯乙烯绝缘3.包带4.镀锡铜丝编织5.聚氯乙烯护套电缆的型号、名称及使用范围聚氯乙烯绝缘控制电缆KVV电缆直径|KVV电缆重量|KVV电缆外径|KVV电缆规格生产范围注：芯数为 2,3,4,5,7,10,12,14,16,19,24,27,30,37,41,44,48,52,61铜(铝)芯聚氯乙烯绝缘聚氯乙烯(聚乙烯)护套电力电缆标准：本产品按国家标准GB12706-91或国际电工委员会IEC502-1994标准制造型号： VV，VLV一铜(铝)芯聚氯乙烯绝缘、聚氯乙烯护套电力电缆VV，VLV一铜(铝)芯聚氯乙烯绝缘、聚乙烯护套电力电缆用途：供固定敷设在额定交流电压UO/U为0．6/1KV及以下的室内、架空、电缆沟道、管道内的输配电力线路用。

铜(铝)芯聚氯乙烯绝缘(铠装)聚氯乙烯(聚乙烯)护套电力电缆标准：本产品按国家标准GB12706-91或国际电工委员会IEC502-1994标准制造型号： VV22,VLV22-铜(铝)芯聚氯乙烯绝缘、钢带铠装聚氯乙烯护套电力电缆VV23,VLV23-铜(铝)芯聚氯乙烯绝缘、钢带铠装聚乙烯护套电力电缆用途：供固定敷设在额定交流电压U/0U为0.6/1KV及以下的室内、电缆沟道、管道内或直埋等能承受较大机械外力等固定场合的输配电力线路用。