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º≈‘µ¿—≥±å‰øøÑ“·√ߵ˔
MASTERPACT NW08-63L o w Vo l t a g e P r o d u c t s
User manual
§Ÿà¡◊Õ°“√„™âß“π
Masterpact NW08-63 Schneider Electric1
Masterpact Schneider Electric2
√Ÿâ®—°°—∫ Masterpact NW 3
°“√„™âß“π Masterpact 8
°“√∑”ß“π¢Õß™ÿ¥§«∫§ÿ¡·≈–°“√· ¥ß°“√∑”ß“π 8
°“√™“√宇∫√§‡°Õ√å 9
°“√ªî¥«ß®√‡∫√§‡°Õ√å 10
°“√‡ªî¥«ß®√‡∫√§‡°Õ√å 11
°“√√’‡´Á∑¿“¬À≈—ß°“√∑√‘ª 12
°“√≈ÁÕ§ à«π§«∫§ÿ¡ 13
°“√„™âß“π Masterpact ·∫∫‚§√ß√“߇≈◊ËÕπ 16
°“√√–∫ÿ ∂“π–¢Õ߇∫√§‡°Õ√å 16
°“√¥÷߇∫√§‡°Õ√凢â“ÕÕ°®“°‚§√ß√“߇≈◊ËÕπ 17
°“√®—∫§Ÿà‡∫√§‡°Õ√å Masterpact °—∫‚§√ß√“߇≈◊ËÕπ 19
°“√≈ÁÕ§ª√–µŸµŸâ «‘∑´å∫Õ√å¥ 20
°“√≈ÁÕ§‡∫√§‡°Õ√å„ÀâÕ¬Ÿà„πµ”·Àπàß 21
°“√≈ÁÕ§‡´øµ’È´—∑‡µÕ√å 24
°“√°”Àπ¥¢—È«‰øøÑ“ 26
°“√°”Àπ¥¢—È«¢Õß°“√µàÕ “¬ 26
·ºπº—ß∑“߉øøÑ“ 27
°“√∑”ß“π 29
¢âÕ¡Ÿ≈¢ÕßÕÿª°√≥å‡ √‘¡ Masterpact 30
™ÿ¥§«∫§ÿ¡‰¡‚§√≈Õ®‘§ 30
°“√∫Õ° ∂“π–§Õπ·∑§ 31
Õÿª°√≥åª√–°Õ∫ ”À√—∫§«∫§ÿ¡√–¬–‰°≈ 33
Õÿª°√≥åª√–°Õ∫¥â“π°≈‰° 35
Õÿª°√≥åª√–°Õ∫‚§√ß√à“ß 37
°“√µ√«® Õ∫·≈–∑¥ Õ∫°àÕπ„™âß“π 40
°“√∑¥ Õ∫‡√‘Ë¡µâπ 40
∑”Õ¬à“߉√‡¡◊ËÕ‡∫√§‡°Õ√å∑√‘ª 41
°“√∫”√ÿß√—°…“‡∫√§‡°Õ√å∑”ß“πÕ¬à“ß¡’ª√– ‘∑∏‘¿“æ 42
¢âÕ·π–π”„π°“√∫”√ÿß√—°…“ 42
«‘∏’°“√∫”√ÿß√—°…“ 43
°“√ —Ëß ◊ÈÕÕ–‰À≈à 45
°“√·°â‰¢ªí≠À“·≈–·π«∑“ß°“√·°â‰¢ 46
°“√µ√«® Õ∫ ¿“«–°“√∑”ß“π¢Õß Masterpact 48
§Ÿà¡◊Õ°“√„™âß“π
‡∫√§‡°Õ√å Masterpact NW “√∫—≠
Masterpact NW08-63 Schneider Electric3
¢âÕ¡Ÿ≈¢Õß Masterpact
‡∫√§‡°Õ√å¡“ ‡µÕ√å·æ§ NW range ·≈– Swithch-disconnectors ¡’¢π“¥æ‘°—¥°√–· 800 - ∂÷ß 6300 A ·Õ¡ªá·ª√å·∫àߧÿ≥ ¡∫—µ‘∑’Ë·µ°µà“ß°—π‡ªìπ 5 √–¥—∫ N1: ·∫∫¡“µ√∞“π ·≈– discrimination; H1: ·∫∫ ¡√√∂¿“æ Ÿß ·≈– discrimination; H2: ·∫∫ current limiting ·≈– discrimination; H3: ·∫∫µ—¥µÕπ °√–· Ÿß ·≈– discrimination; L1: ·∫∫ current limiting Ÿß ·≈– discrimination;
E60
350A
Ui 1000V
Ics = 100% Icu
220/440 42480/690 42
Icw 42kA/1s cat.B
UTE VDE BS CEI UNE AS NEMAIEC 60947-2 50/60Hz
Ue Icu(V) (kA)
Masterpact
Uimp 12kV
NW08 N1
E51
288A
E60
036A
Icu kA at 415 VIcs = 100% Icu150
100
65
42
L1 H3H2
H1
N1
160012001000800 2000 2500 3200 4000 5000 6300
E46
004A
masterpact II
MERLIN GERIN
NX 08 HA10
Ui 1000V Uimp 12kV
Ue690
(V)
50kA/1s
IEC 947-2
50/60Hz
EN 60947-2
UTE VDE BS CEI UNE AS NBMA
∑’Ë
ªÑ“¬æ‘°—¥
æ‘°—¥°√–· (x 100 A)
√–¥—∫ ¡√√∂π–≈—°…≥–°“√µ—¥«ß®√ª√–‡¿∑Õÿª°√≥å: ‡∫√§‡°Õ√åÀ√◊Õ «‘∑´åµ—¥µÕπ
√–¥—∫æ‘°—¥¢Õß©π«π·√ߥ—π°√–™“°∑’Ë∑π‰¥â§«“¡ “¡“√∂„π°“√µ—¥µÕπ Ÿß ÿ¥
°√–· æ‘°—¥∑’Ë∑π‰¥â
Ics : ·√ߥ—πæ‘°—¥∑’Ë„™âß“π
Icu : §«“¡ “¡“√∂„π°“√µ—¥µÕπ Ÿß ÿ¥
§«“¡∂’Ë¡“µ√∞“π
Masterpact NW08-63 Schneider Electric4
¢âÕ¡Ÿ≈¢Õß Masterpact
Masterpact ‡∫√§‡°Õ√å¡’∑—Èß√ÿàπ√“߇≈◊ËÕπ·≈–√ÿàπ¬÷¥µ‘¥√ÿàπ√“߇≈◊ËÕπ®–µ‘¥µ—Èß∫π‚§√ß√“߇≈◊ËÕπ·≈–√ÿàπ¬÷¥µ‘¥ (fixed) ®–µ‘¥µ—Èß∫π·§√à√—∫
√ÿàπ√“߇≈◊ËÕπ
√ÿàπ¬÷¥µ‘¥
E51
205C
E51
289C
Masterpact NW08-63 Schneider Electric5
Carrying grip
Drawout grip
"Connected", "test" or "disconnected"position indicator
Locking by keylocks
Safety shutters
Shutter position indication and locking
Crank storage
Locking by padlocks
Door interlock Crank
Arc-chute cover
Disconnecting-contact cluster
Crank socketPosition release button
Carriage switch terminals
Auxiliary terminal shield
Racking interlock
Mismatchprotection
Shutterlockingblocks
Carriageswitchterminals
Carriage switchterminals
Control-unitcontact terminals
Controlauxiliaryterminals
ON/OFFindicationcontactterminals
‚§√ß√“߇≈◊ËÕπ
E60
037A
µ—«™’È√–∫ÿON/OFF·ºàπªî¥™àÕߥ—∫Õ“√å§
¢—È«µàÕ “¬ «‘∑´å
ÀŸÀ‘È«
°“√ªÑÕß°—π„ à‡∫√§‡°Õ√庑¥√ÿàπ
°â“π≈ÁÕ§ª√–µŸ
ÀŸ ”À√—∫¥÷ßÕÕ°
Ω“ªî¥¢—È«µàÕ “¬
°“√≈ÁÕ§‚¥¬„™â°ÿ≠·®
°“√≈ÁÕ§‚¥¬„™â°ÿ≠·® “¬¬ŸªÿÉ¡· ¥ß ∂“π– "°“√µàÕ", "∑¥ Õ∫" À√◊Õ "ª≈¥ÕÕ°"
®ÿ¥ ”À√—∫°“√ Interlock
ªÿÉ¡§≈“¬≈ÁÕ§
™àÕ߇°Á∫¥â“¡À¡ÿπ
®ÿ¥ ”À√—∫ª≈¥ÀπⓧÕπ·∑§
¥â“¡À¡ÿπ
∫“π‡ªî¥‡æ◊ËÕ°“√≈ÁÕ§
™àÕß„ à¥â“¡À¡ÿπ
¢—È«µàÕ “¬ «‘∑´å
¢—È«µàÕ “¬§«∫§ÿ¡¢—È«µàÕ “¬ «‘∑´å
∫“πªî¥‡æ◊ËÕ§«“¡ª≈Õ¥¿—¬
¢—È«µàÕ‡ √‘¡°“√§«∫§ÿ¡
∫“π‡≈◊ËÕπ∫Õ°µ”ªÀπàߢÕß ∂“π–·≈–°“√≈ÁÕ§
Masterpact NW08-63 Schneider Electric6
MCH gear motor forelectrical charging ofthe operating mechanism
Operating-mechanismcharging handle
PF "ready to close"contact
SDE/2 "fault-trip"indication contactor Res electricalremote reset
Terminal block forthe control unit andthe SDE contact(s)
MX/2 opening release orMN undervoltage release
XF closing release
MX/1 opening release
Closing pushbutton
Opening pushbutton
Operation counter
Carrying grip
SDE/1 "fault-trip"indication contact
Arc chute
Block of 4 OF "ON/OFF"indication contacts
Terminal block forthe control auxiliaries
2 Blocks of 4 additional OF"ON/OFF" contacts or EF combined"connected/closed" contacts
Keylocking kit
Locking by padlocks
BPFE electrical closing pushbutton
Control unit
Terminal block for the ON/OFFindication contacts
¢âÕ¡Ÿ≈¢Õß Masterpact
‡∫√§‡°Õ√å / «‘∑´åµ—¥µàÕ
E60
038A
®ÿ¥µàÕ “¬§«∫§ÿ¡
MX/1 à«π‡ªî¥ à«π‡ªî¥«ß®√ MX/2MN undervoltage
SDE/1 §Õπ·∑§· ¥ß "fault-trip"
™àÕߥ—∫Õ“√å§
®ÿ¥µàÕ “¬ ”À√—∫∫Õ° ¿“«–¢ÕߧÕπ·∑§ (ON/OFF)
™àÕß 2 ™àÕß ”À√—∫‡æ‘Ë¡§Õπ·∑§ "ON/OFF" ‡æ‘Ë¡‰¥â 4 ™ÿ¥À√◊Õ§Õπ·∑§√à«¡ EF "connected/closed"
¥â“¡™“√å®°≈‰°∑”ß“π
MCH ¡Õ‡µÕ√凰’¬√å„™â‰øøÑ“™“√å®°≈‰°°“√∑”ß“π
SDE/2 §Õπ·∑§· ¥ß "fault-trip"À√◊Õ√’‡´Á∑√–¬–‰°≈
™ÿ¥°ÿ≠·®≈ÁÕ§
Àπâ“ —¡º— PF"ready to close"
≈ÁÕ§¥â«¬ “¬¬Ÿ
ªÿÉ¡°¥ªî¥¥â«¬‰øøÑ“ BPFE
ªÿÉ¡°¥‡ªî¥«ß®√
µ—«π—∫®”π«π§√—Èß°“√∑”ß“π
™ÿ¥§«∫§ÿ¡
®ÿ¥µàÕ “¬ ”À√—∫™ÿ¥§«∫§ÿ¡·≈–§Õπ·∑§‡ √‘¡ SDE
ÀŸÀ‘È«
™àÕß∫Õ° ∂“π––§Õπ·∑§("ON/OFF" 4 ™ÿ¥)
XF ”À√—∫°“√ªî¥«ß®√√–¬–‰°≈
ªÿÉ¡°¥µàÕ«ß®√
Masterpact NW08-63 Schneider Electric7
¥â“πÀπâ“
E60
039A
RESET
Indicator for positionof the main contacts
"Springs charged"and "Ready to close"indicator
Locking by padlockor lead-seal coverfor pushbuttons
Rating plate
Trip indication buttonused to reset before closing
ªÿÉ¡· ¥ß ¿“«–°“√∑√‘ª„™â ”À√—∫°“√√’‡´Á∑°àÕπªî¥«ß®√
µ—«· ¥ßµ”·ÀπàߢÕ߇¡π§Õπ·∑§
µ—«· ¥ßµ”·Àπàß "Spring charged"·≈– "Ready to close"
°“√≈ÁÕ§ªÿÉ¡‚¥¬°“√„ à°ÿ≠·®,°“√ªî¥¥â«¬´’≈µ–°—Ë« À√◊Õ≈ÁÕ§¥â«¬ °√Ÿ ”À√—∫ªÿÉ¡°¥
ªÑ“¬æ‘°—¥
Masterpact NW08-63 Schneider Electric8
°“√∑”ß“π¢Õß™ÿ¥§«∫§ÿ¡·≈–°“√· ¥ß°“√∑”ß“π
°“√„™âß“π Masterpact
‡∫√§‡°Õ√凪߮√·≈– ª√‘ß∂Ÿ°¥‘ ™“√å®
‡∫√§‡°Õ√åªî¥«ß®√·≈– ª√‘ß∂Ÿ°¥‘ ™“√å®
‡∫√§‡°Õ√凪߮√, ª√‘ß∂Ÿ°™“√å® ·µà¬—߉¡àæ√âÕ¡ªî¥«ß®√
‡∫√§‡°Õ√åªî¥«ß®√, ª√‘ß∂Ÿ°™“√å® ·µà¬—߉¡àæ√âÕ¡∑’Ë®–ªî¥«ß®√
‡∫√§‡°Õ√凪߮√, ª√‘ß∂Ÿ°™“√å® ·≈–æ√âÕ¡∑’Ë®–ªî¥«ß®√
E51
320B
Push OFFO
IPush ON
Push OFFO
IPush ON
Push OFFO
IPush ON
Push OFFO
IPush ON
E51
207A
E51
210A
E51
206A
E51
211
E51
209A
Push OFFO
IPush ON
Test
RESET
Masterpact NW08-63 Schneider Electric9
°“√™“√宇∫√§‡°Õ√å
™ÿ¥ ª√‘ß„π°≈‰°°“√∑”ß“π¢Õ߇∫√§‡°Õ√å®–µâÕ߉¥â√—∫°“√™“√宇æ◊ËÕ‡°Á∫æ≈—ßß“π∑’Ë„™â„π°“√ªî¥«ß®√¢ÕßÀπâ“ —¡º— À≈—° ™ÿ¥ ª√‘ßÕ“®®–∂Ÿ°™“√审◊ե⫬¥â“¡‚¬° À√◊Õ‚¥¬Õ—µ‚π¡—µ‘ ¥â«¬™ÿ¥¡Õ‡µÕ√凰’¬√å (option MCH)
¿“«–°“√™“√客Õß ª√‘ß∂Ÿ°√–∫ÿ¥—ßπ’È
°“√™“√审◊Õ¥÷ߥⓡ™“√å®≈ß 6 §√—Èß®π‰¥â¬‘π‡ ’¬ß·§≈Á§
°“√™“√å®Õ—µ‚π¡—µ‘∂⓵‘¥µ—Èß™ÿ¥¡Õ‡µÕ√凰’¬√åMCH ™ÿ¥ ª√‘ß®–∂Ÿ°™“√å®Õ—µ‚π¡—µ‘À≈—ß®“°°“√‡ªî¥«ß®√„π·µà≈–§√—Èß
Test
E60
370A
E51
213A
E51
290A
Push OFFO
IPush ON
or
Masterpact NW08-63 Schneider Electric10
°“√„™âß“π Masterpact °“√ªî¥«ß®√‡∫√§‡°Õ√å
∑’˵—«‡∫√§‡°Õ√å (·∫∫‰øøÑ“)
‡ß◊ËÕπ‰¢°“√ªî¥«ß®√°“√ªî¥«ß®√®–∑”‰¥â°ÁµàÕ‡¡◊ËÕ‡∫√§‡°Õ√åÕ¬Ÿà„π ¿“«–æ√âÕ¡ªî¥«ß®√ "ready to close" ‘Ëß®”‡ªìπ≈à«ßÀπâ“¡’¥—ßπ’È Õÿª°√≥å‡ªî¥ (OFF) ª√‘߉¥â√—∫°“√™“√å® ‰¡à¡’§” —Ë߇ªî¥¡“√ÕÕ¬Ÿà
∂Ⓡ∫√§‡°Õ√剡à "æ√âÕ¡ªî¥«ß®√" ‡¡◊ËÕ∂Ÿ° —Ëß„Àâ∑”ß“π „ÀâÀ¬ÿ¥·≈– —Ëß„À¡à‡¡◊ËÕ‡∫√§‡°Õ√å"æ√âÕ¡ªî¥«ß®√"
°“√ªî¥«ß®√‡∫√§‡°Õ√å∑’˵—«‡∫√§‡°Õ√å (·∫∫·¡§§“π‘§)°¥ªÿÉ¡ ON
Remotely
®ÿ¥¡ÿàßÀ¡“¬¢Õß°≈‰°¢Õß Anti-pumpingFunction ‡æ◊ËÕ∑’Ë„Àâ·πà„®«à“‡¡◊ËÕ‡∫√§‡°Õ√剥â√—∫§” —Ë߇ªî¥·≈–ªî¥«ß®√æ√âÕ¡°—π®–‰¡à‡ªî¥·≈–ªî¥·∫∫‰¡à·πàπÕπ„π¢≥–‡ªî¥«ß®√Õ¬Ÿà À“°¡’§” —Ëߪ߮√Õ¬à“ßµàÕ‡π◊ËÕß™ÿ¥‡∫√§‡°Õ√嬗ߧ߇ªî¥«ß®√Õ¬Ÿà„π¿“«–‡¥‘¡®π°√–∑—Ëߧ” —Ëߪî¥À¬ÿ¥ ·≈–®–µâÕß¡’§” —Ëߪ߮√„À¡à®÷ß®–ªî¥«ß®√‡∫√§‡°Õ√剥⠷µà∂â“™ÿ¥ªî¥«ß®√µàÕ°—∫™ÿ¥ PF §Õπ·∑§ "ready to close" °Á‰¡à®”‡ªìπµâÕß¡’§” —Ëߪ߮√„À¡à
BPFE XF
‡¡◊ËÕµàÕ·ºß§«∫§ÿ¡√–¬–‰°≈ ™ÿ¥ XF (0.85-1.1 Un)®–„™â„π°“√ªî¥«ß®√√–¬–‰°≈
XF
Õÿª°√≥å "æ√âÕ¡ªî¥«ß®√"
°¥ªÿÉ¡ —Ëߪ߮√¥â«¬‰øøÑ“™ÿ¥‡∫√§‡°Õ√å®–ªî¥«ß®√‚¥¬„™â‰øøÑ“ (locally) ¥â«¬°“√‡æ‘Ë¡Õÿª°√≥å XF
Õÿª°√≥剡à "æ√âÕ¡‡ªî¥«ß®√"
E51
293A
E51
294A
E51
215A
E51
294A
Push OFFO
Pus
E51
216A
E51
214A
E51
291A
E51
292A
Masterpact NW08-63 Schneider Electric11
°“√‡ªî¥«ß®√‡∫√§‡°Õ√å
∑’˵—«‡∫√§‡°Õ√å°¥ªÿÉ¡ OFF
°“√§«∫§ÿ¡®“°√–¬–‰°≈„™â„π«‘∏’µàÕ‰ªπ’È à«π‡ªî¥«ß®√ (MX1 and MX2, 0.7 ∂÷ß 1.1 Un); ™ÿ¥ undervoltage MN (0.35 ∂÷ß 0.7 Un); ™ÿ¥ undervoltage MN (0.35 ∂÷ß 0.7 Un) æ√âÕ¡™ÿ¥Àπà«ß‡«≈“ (R À√◊Õ Rr)
MX1, MX2, MN Delay unit
‡¡◊ËÕµàÕ‡¢â“°—∫·ºß§«∫§ÿ¡√–¬–‰°≈ “¡“√∂„™â™‘Èπ à«π‡À≈à“π’È„π°“√‡ªî¥«ß®√‡∫√§‡°Õ√å√–¬–‰°≈‰¥â
E51
216A
E51
293A
E51
294
E51
296A
E51
217A
3 6
MNUVR
1012
100/130 V
AC/DC
S
0.5 1
3 1.5
Retardateur de MN
Time delay for UVR
4 5 6
1 2 3
1 2 3
Push
IPush ON
Masterpact NW08-63 Schneider Electric12
°“√„™â Masterpact
‡∫√§‡°Õ√å àß —≠≠“≥∑√‘ª‚¥¬ªÿÉ¡· ¥ßº≈°“√∑√‘ª¢â“ßÀπⓧÕπ·∑§· ¥ßº≈∑√‘ª SDE ™ÿ¥∑’Ë 1 À√◊Õ 2 (SDE/2 ‡ªìπ option)
°“√√’‡´Á∑À≈—ß°“√∑√‘ª
∑’˵—«‡∫√§‡°Õ√å∂Ⓡ∫√§‡°Õ√å‰¡à‰¥âª√–°Õ∫¥â«¬™ÿ¥√’‡´Á∑Õ—µ‚π¡—µ‘¡“¥â«¬ µâÕß√’‡´Á∑¥â«¬¡◊Õ
°“√§«∫§ÿ¡®“°√–¬–‰°≈„™âÕÿª°√≥å‡ √‘¡‡æ◊ËÕ√’‡´Á∑√–¬–‰°≈¥â«¬‰øøÑ“ Res (‰¡à “¡“√∂„™â°—∫ SDE/2)
E51
216A
E51
297B
E51
293A
E51
298B
RESET
Masterpact NW08-63 Schneider Electric13
E51
283A
E51
300B
E51
301B
E51
302B
E51
303B
E51
303B
E51
304B
E51
305B
Test
Push OFF
O IPush ON
Push OFF
O IPush ON
E51
337A
∂Õ¥·¡à°ÿ≠·®, ‡Õ“µ–°—Ë«∑’Ë´’≈ À√◊Õ °√ŸÕÕ°
¬°Ω“ªî¥·≈–‡ªî¥≈ß ªÿÉ¡°¥®–Õ¬Ÿà„π ¿“æ‰¡à∂Ÿ°≈ÁÕ§
°“√§≈“¬≈ÁÕ§
·¡à°ÿ≠·® ´’≈¥â«¬µ–°—Ë«
°“√≈ÁÕ§
°√Ÿ
°“√≈ÁÕ§ à«π§«∫§ÿ¡°“√≈ÁÕ§°“√‡ªî¥/ªî¥«ß®√¢Õ߇∫√§‡°Õ√å∑’˵—«‡∫√§‡°Õ√å
°“√≈ÁÕ§ªÿÉ¡°¥‚¥¬„™â·¡à°ÿ≠·® (‡ âπºà“»Ÿπ¬å°≈“ß 5-8 mm),
´’≈¥â«¬µ–°—Ë« À√◊Õ¢—π °√Ÿ
ªî¥¥â«¬·ºàπªî¥ „ à°ÿ≠·®, ’≈¥â«¬µ–°—Ë«À√◊Õ¢—π¥â«¬ °√Ÿ
Masterpact NW08-63 Schneider Electric14
°“√„™â Masterpact
E51
217A
E51
306A
E51
307A
E51
218A
E51
308A
Push
IPush ON
Push
IPush ON
Push OFFO
Pus
°“√≈ÁÕ§ à«π§«∫§ÿ¡Àâ“¡°“√ªî¥«ß®√∑’Ë®ÿ¥„™âß“π (local) ·≈–√–¬–‰°≈ (remote)
°“√≈ÁÕ§
‡ª‘¥«ß®√‡∫√§‡°Õ√å ¥÷ßÀŸ¢â“ßÕÕ°¡“ ·¢«π·¡à°ÿ≠·®
°“√µ√«® Õ∫™ÿ¥ªî¥«ß®√‰¡à∑”ß“π
°“√§≈“¬≈ÁÕ§∂Õ¥·¡à°ÿ≠·®ÕÕ°
°“√·¢«π·¡à°ÿ≠·® 1-3 ™ÿ¥(√Ÿ·¢«π 5-8 mm)
√–∫∫≈ÁÕ§√«¡
‡æ◊ËÕ‰¡à„Àâªî¥«ß®√‡∫√§‡°Õ√å∑—Èß∑’Ë®ÿ¥„™âß“π (local) ·≈–√–¬–‰°≈ (remote) „Àℙ⫑∏’¥—ßπ’È ≈ÁÕ§¥â«¬·¡à°ÿ≠·® °ÿ≠·®≈ÁÕ§ 1 À√◊Õ 2 ™ÿ¥ ≈ÁÕ§√«¡∑—Èß 2 √–∫∫
Masterpact NW08-63 Schneider Electric15
E51
218A
Push
IPush ON
Push OFFO
Pus
§’¬å≈ÁÕ§ 4 ·∫∫∑’Ë„™â‰¥â
E51
271A
E51
312A
E51
313A
E51
319A
E51
269A
RONIS PROFALUX CASTELL
E51
272A
KIRK
°“√≈ÁÕ§™ÿ¥§«∫§ÿ¡¥â«¬°ÿ≠·®≈ÁÕ§ 1 À√◊Õ 2 ™ÿ¥
E51
217A
E51
310A
E51
311A
Push
IPush ON
E51
270A
°“√§≈“¬≈ÁÕ§
°“√≈ÁÕ§
‡ª‘¥«ß®√‡∫√§‡°Õ√å À¡ÿπ°ÿ≠·® ∂Õ¥°ÿ≠·®ÕÕ°
°“√µ√«® Õ∫™ÿ¥ªî¥«ß®√‰¡à∑”ß“π
‡ ’¬∫°ÿ≠·® À¡ÿπ°ÿ≠·® °ÿ≠·®‰¡à “¡“√∂∂Õ¥ÕÕ°‰¥â
Masterpact NW08-63 Schneider Electric16
°“√„™âß“π Masterpact·∫∫‚§√ß√“߇≈◊ËÕπ
°“√√–∫ÿ ∂“π–¢Õ߇∫√§‡°Õ√å
µ”·Àπàß "µàÕ"
E51
222A
E51
219A
µ”·Àπàß "∑¥ Õ∫"
E51
220A
E51
314A
µ”·Àπàß "‰¡àµàÕ"
E51
221A
E51
316A
E51
315A
Test
Test
Test
Test
26 mm
Test
∑’Ë¥â“πÀπâ“¢Õ߇∫√§‡°Õ√å®–¡’µ—«∫Õ°µ”·Àπàß°“√∑”ß“π¢Õ߇∫√§‡°Õ√å
Masterpact NW08-63 Schneider Electric17
°“√¥÷߇∫√§‡°Õ√凢â“ÕÕ°®“°‚§√ß√“߇≈◊ËÕπ
°“√∂Õ¥ÕÕ°®“°√“ß
E51
223B
E51
226B
E51
224B
Test
Test
1
Test
Test
2
Test
Test
3
Test
56
4
Test
2
1
Test
3
§”‡µ◊Õπ : √“ߥâ“π¢«“®–‰¡à “¡“√∂∂Õ¥ÕÕ°‰¥â∂⓬—߉¡à‰¥â∂Õ¥¥â“¡¢—πÕÕ° À√◊Õ‡∫√§‡°Õ√å‰¡à‰¥â‡ªî¥«ß®√
°“√¥”‡π‘π°“√π’ȵâÕߪî¥øíß°å™—Ëπ°“√≈ÁÕ§‚§√ß√“߇≈◊ËÕπ (¥ŸÀπâ“ 21)
‘Ëß®”‡ªìπ∑’˵âÕß∑”°àÕπ°“√¥÷߇∫√§‡°Õ√åÕÕ°®“°‚§√ß√“߇≈◊ËÕπ‡π◊ËÕß®“°°“√µàÕ·≈–ª≈¥«ß®√ Masterpact µâÕß„™â¥â“¡À¡ÿπ ‡æ◊ËÕ¥÷߇∫√§‡°Õ√åÕÕ°¥—ßπ—Èπ√–∫∫°“√≈ÁÕ§µà“ßÊ ®–µâÕßÀâ“¡„™âß“π°“√¥÷߇∫√§‡°Õ√åÕÕ°®“°‚§√ß√“߇≈◊ËÕπµâÕ߉¡à„™âß“πøíß°å™—Ëπ°“√≈ÁÕ§
‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "µàÕ"
‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "∑¥ Õ∫" ∂Õ¥¥â“¡À¡ÿπÕÕ°À√◊ÕÀ¡ÿπµ—«‰ªµ”·Àπàß "‰¡àµàÕ"
‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "‰¡àµàÕ"
°“√ª≈¥‡∫√§‡°Õ√宓°µ”·ÀπàßµàÕ«ß®√‰ª¬—ßµ”·Àπàß∑¥ Õ∫ ·≈–µ”·Àπà߉¡àµàÕ«ß®√
‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "∑¥ Õ∫"
°¥®ÿ¥§≈“¬≈ÁÕ§·≈â«¥÷ßÕÕ°®“°√à“ß
„π°“√„ à°≈—∫ °¥®ÿ¥§≈“¬≈ÁÕ§·≈⫺≈—°√“ß°≈—∫‡¢â“‰ª
Masterpact NW08-63 Schneider Electric18
°“√„™âß“π Masterpact
·∫∫‚§√ß√“߇≈◊ËÕπ
‡æ◊ËÕ¢âÕ¡Ÿ≈∑’Ë ¡∫Ÿ√≥å„π°“√„™âß“π·≈–µ‘¥µ—ÈߥŸ„π§Ÿà¡◊Õ°“√µ‘¥µ—Èß
°àÕπ∑”°“√µ‘¥µ—È߇∫√§‡°Õ√å µ√«® Õ∫„Àâ¡—Ëπ„®«à“‡‡∫√§‡°Õ√å “¡“√∂„ à‡¢â“°—∫‚§√ß√à“߉¥â
°“√„ à Masterpactµ√«® Õ∫µ”·ÀπàߢÕ߇∫√§‡°Õ√å∫π√“ß«à“«“ßÕ¬Ÿà∫π®ÿ¥√Õß√—∫∑—Èß 4
‡ªî¥«ß®√‡∫√§‡°Õ√å(„π∑ÿ°°√≥’ √–À«à“ß°“√µ‘¥µ—È߇∫√§‡°Õ√å®–‡ªî¥«ß®√‚¥¬Õ—µ‚π¡—µ‘)
º≈—°‡∫√§‡°Õ√凢Ⓞπ‚§√ß√“߇≈◊ËÕπ, √–«—ßÕ¬à“„Àâ‚¥π™ÿ¥§«∫§ÿ¡∂Ⓣ¡à “¡“√∂„ à‡∫√§‡°Õ√å≈ß„π‚§√ß√“߇≈◊ËÕπ‰¥â„Àâµ√«® Õ∫√ÿàπ¢Õ߇∫√§‡°Õ√å·≈–‚§√ß√“߇≈◊ËÕπ«à“¡’≈—°…≥–µ√ß°—πÀ√◊Õ‰¡à
E51
227A
E51
217A
Test
Push
IPush ON
E51
228B
°“√„ à‡∫√§‡°Õ√宓°µ”·Àπàß "‰¡àµàÕ" ‰ª¬—ßµ”·Àπàß "∑¥ Õ∫" ·≈⫉ªµ”·Àπàß "µàÕ"Õÿª°√≥åÕ¬Ÿàµ”·Àπàß "‰¡àµàÕ" Õÿª°√≥åÕ¬Ÿàµ”·Àπàß "∑¥ Õ∫"
Õÿª°√≥åÕ¬Ÿà„πµ”·Àπàß "∑¥ Õ∫"¥÷ߥⓡÀ¡ÿπÕÕ°À√◊ÕÀ¡ÿπµàÕ‰ª¬—ßµ”·Àπàß "µàÕ"
Õÿª°√≥åÕ¬Ÿà„πµ”·Àπàß "µàÕ"
E51
230B
12
Test
Test
56
Test Test
TestTest
Test
3 4
Masterpact NW08-63 Schneider Electric19
°“√®—∫§Ÿà Masterpact‡∫√§‡°Õ√å°—∫‚§√ß√à“ß
‡æ◊ËÕªÑÕß°—π°“√®—∫§Ÿàº‘¥¢Õ߇∫√§‡°Õ√å·≈–‚§√ß√—∫„À⥟§Ÿà¡◊Õ°“√µ‘¥µ—Èß °“√ªÑÕß°—π°“√®—∫§Ÿàº‘¥
E51
317B
A B C DA B C EA B C FA B C GA B D EA B D FA B D GA B E FA B E GA B F GA C D EA C D FA C D GA C E FA C E GA C F GA D E FA D E GA D F GA E F G
B C D EB C D FB C D GB C E FB C E GB D E FB D E GB D F GC D E FC D E GC E F GD E F G
5 6 74 6 74 5 74 5 63 6 73 5 73 5 63 4 73 4 63 4 52 6 72 5 72 5 62 4 72 4 62 4 52 3 72 3 62 3 52 3 4
1 6 71 5 71 4 71 4 61 3 71 3 61 3 51 3 41 2 71 2 61 2 41 2 3
12
34
65
7
AB
CD
FE
G
°“√ªÑÕß°—π®—∫§Ÿàº‘¥®–∑”„Àâ¡—Ëπ„®‰¥â«à“‡∫√§‡°Õ√å®–µ‘¥µ—Èß∫π‚§√ß√à“ß∑’Ë¡’≈—°…≥–µ√ß°—π
“¡“√∂®—∫§Ÿà°—π‰¥âµ“¡µ“√“ß
Masterpact NW08-63 Schneider Electric20
°“√≈ÁÕ§ª√–µŸ «‘∑´å∫Õ√å¥
°“√ªÑÕß°—πª√–µŸ‡ªî¥
E51
234A
°“√¬°‡≈‘°°“√ªÑÕß°—πª√–µŸ‡ªî¥
E51
236A
E51
231B
E51
232A
E51
235A
E51
233A
Test
Test
Test
°“√„™âß“π Masterpact
·∫∫‚§√ß√“߇≈◊ËÕπ
Õÿª°√≥å≈ÁÕ§®–∂Ÿ°µ‘¥µ—ÈßÕ¬Ÿà¥â“π ⓬À√◊Õ¢«“¢Õß‚§√ß√à“ß ‡¡◊ËÕ‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "µàÕ" À√◊Õµ”·Àπàß "∑¥ Õ∫", ≈—°°≈Õπ®–∂Ÿ°
ª≈àÕ¬≈ß·≈–ª√–µŸ≈ÁÕ§ ‡¡◊ËÕ‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "‰¡àµàÕ", ≈—°°≈Õπ®–∂Ÿ°¬°¢÷Èπ∑”„Àâª√–µŸ§≈“¬≈ÁÕ§
ªî¥ª√–µŸ „ à Masterpact „πµ”·Àπàß'∑¥ Õ∫" À√◊Õµ”·Àπàß "µàÕ"
ª√–µŸ≈ÁÕ§
„ à Masterpact „πµ”·Àπàß"‰¡àµàÕ"
ª√–µŸ®–∂Ÿ°§≈“¬·≈–‡ªî¥‰¥â
Masterpact NW08-63 Schneider Electric21
°“√≈ÁÕ§‡∫√§‡°Õ√å„ÀâÕ¬Ÿà„πµ”·Àπàß
E51
237A
E51
239A
E51
238A
E51
243B
E51
240A
°ÿ≠·® “¬¬Ÿ·≈–§’¬å≈ÁÕ§Õ“®®–∂Ÿ°„™âß“π√à«¡°—π
°“√§≈“¬≈ÁÕ§
E51
241A
E51
242A
Test
Test
Test
OK
Test
Test
Test
Test
°“√Àâ“¡°“√µàÕ«ß®√‡∫√§‡°Õ√凡◊ËÕ‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "‰¡àµàÕ"‚¥¬„™â°ÿ≠·® “¬¬Ÿ®”π«π 1 ∂÷ß 3 ™ÿ¥ ( “¬¬Ÿ ø Ÿß ÿ¥ 5-8 mm.)
‡∫√§‡°Õ√å„πµ”·Àπàß "‰¡àµàÕ"
°“√√«¡√–∫∫≈ÁÕ§‡¢â“¥â«¬°—π‡æ◊ËÕªÑÕß°—π°“√ —Ë߇ªî¥-ªî¥‡∫√§‡°Õ√å∑’Ë®ÿ¥§«∫§ÿ¡ (local) À√◊Õ√–¬–‰°≈ (remote) ®–µâÕß„™â :
·¡à°ÿ≠·®®”π«π 1-3 ™ÿ¥ §’¬å≈ÁÕ§®”π«π 1 À√◊Õ 2 ™ÿ¥ √«¡√–∫∫≈ÁÕ§∑—Èß 2 √–∫∫‡¢â“¥â«¬°—π
¥÷ßÀŸ¢â“ßÕÕ°¡“
°“√≈ÁÕ§
Õ¥°â“π¢Õß·¡à°ÿ≠·®(¢π“¥ ø 5-8 mm.)
¥â“¡À¡ÿ¥®– Õ¥‰¡à‰¥â
∂Õ¥·¡à°ÿ≠·®ÕÕ° ª≈àÕ¬ÀŸ¢â“ߧ◊π
Õ¥¥â“¡À¡ÿπ‰¥â
Masterpact NW08-63 Schneider Electric22
Test
OK
Test
E51
247A
E51
246A
E51
243B
E51
270A
E51
269A
E51
271A
E51
272A
Test
E51
245A
E51
240A
Test
E51
237A
E51
244A
Test
Test
Test
°“√§≈“¬≈ÁÕ§
RONIS PROFALUX CASTELL
°ÿ≠·® “¬¬Ÿ·≈–§’¬å≈ÁÕ§Õ“®®–∂Ÿ°„™âß“π√à«¡°—π
°“√≈ÁÕ§‡∫√§‡°Õ√å„ÀâÕ¬Ÿà„πµ”·Àπàß
°“√≈ÁÕ§‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß"‰¡àµàÕ"
°“√Àâ“¡°“√µàÕ«ß®√‡∫√§‡°Õ√凡◊ËÕ‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß "‰¡àµàÕ"‚¥¬„™â§’¬å≈ÁÕ§®”π«π 1 À√◊Õ 2 ™ÿ¥
À¡ÿπ°ÿ≠·®
∂Õ¥°ÿ≠·®ÕÕ° ¥â“¡À¡ÿπ‰¡à “¡“√∂ Õ¥‡¢â“‰¥â
Õ¥°ÿ≠·® À¡ÿπ°ÿ≠·®¥â“¡À¡ÿπ “¡“√∂ Õ¥‰¥â
§’¬å≈ÁÕ§ 4 ·∫∫∑’Ë„™â‰¥â
KIRK
Masterpact NW08-63 Schneider Electric23
ª√—∫‡∫√§‡°Õ√剪∑’˵”·Àπàß "‰¡àµàÕ"·≈â«∂Õ¥‡∫√§‡°Õ√åÕÕ°®“°‚§√ß√à“ß
E51
237A
„ à¥â“¡À¡ÿπ
E51
318B
E51
248A
À¡ÿπ∑’Ë®—∫‰ª∑“ß â“¬ ‡∫√§‡°Õ√å®– “¡“√∂≈ÁÕ§‰¥â∑ÿ°µ”·Àπàß
E51
251A
°“√∑”ß“π„π‚À¡¥π’È ‡∫√§‡°Õ√å®–µâÕß∂Ÿ°∂Õ¥ÕÕ°®“°‚§√ß√à“ß
°“√≈ÁÕ§‡∫√§‡°Õ√å„π¢≥–∑’˪√–µŸ∂Ÿ°‡ªî¥
‡¡◊ËÕª√–µŸ‡ªî¥ ¥â“¡À¡ÿπ®–‰¡à “¡“√∂„ à‰¥â
E51
285A
‡¡◊ËÕª√–µŸªî¥ ®– “¡“√∂„ à¥â“¡À¡ÿπ‰¥â
“¡“√∂ª√—∫øíß°å™—Ëπ°“√≈ÁÕ§¥â«¬ “¬¬ŸÀ√◊Õ°ÿ≠·®≈ÁÕ§‰¥â ‰¡à‡æ’¬ß·µà°“√≈ÁÕ§∑’˵”·Àπàß "‰¡àµàÕ" ‡∑à“π—Èπ ¬—ß “¡“√∂≈ÁÕ§‡∫√§‡°Õ√剥â∑ÿ°µ”·Àπàß
E51
250A
Test
Test
Test
Test
Test
Test
All-positionlocking
Locking in"disconnected" position
rear view
Test
¬°‡≈‘°°“√„™â¥â“¡À¡ÿπ„π∑ÿ°µ”·Àπàß
≈ÁÕ§∑ÿ°µ”·Àπàß
≈ÁÕ§‡©æ“–µ”·Àπàß "‰¡àµàÕ"
¥â“πÀ≈—ß
Masterpact NW08-63 Schneider Electric24
°“√„™âß“π Masterpact
·∫∫√“߇≈◊ËÕπ
°“√≈ÁÕ§ ‡´øµ’È ™—∑‡µÕ√å°“√≈ÁÕ§°ÿ≠·® “¬¬Ÿ ¿“¬„π‚§√ß√à“ß√Õß√—∫
°“√„™âµ—«≈ÁÕ§™—∑‡µÕ√å
≈—°…≥–°“√≈ÁÕ§ 4 ·∫∫
E51
338A
∂Õ¥µ—«≈ÁÕ§ÕÕ°®“°∑’ˇ°Á∫
E51
339A
„ ൗ«≈ÁÕ§∫π√“ß
E51
340A
≈ÁÕ§µ—«≈ÁÕ§¥â«¬ “¬¬Ÿ
E51
341A
E51
343A
™—∑‡µÕ√å∫π·≈–≈à“߉¡à≈ÁÕ§ ™—∑‡µÕ√å∫π≈ÁÕ§™—∑‡µÕ√å≈à“߉¡à≈ÁÕ§
™—∑‡µÕ√å∫π‰¡à≈ÁÕ§™—∑‡µÕ√å≈à“ß≈ÁÕ§
™—∑‡µÕ√å∫π·≈–≈à“ß≈ÁÕ§
1
2
3Ø5 Ø8
Masterpact NW08-63 Schneider Electric25
E60
042A
E51
252A
E51
254A
E51
255A
√–∫∫π’È¡’ 2 øíß°å™—Ëπ : ≈ÁÕ§¥â«¬ “¬Ÿ∑’Ë∫πÀ√◊Õ≈à“ß™—∑‡µÕ√å ; · ¥ßµ”·ÀπàߢÕß≈–™—∑‡µÕ√å ; ™—∑‡µÕ√å‡ªî¥ ; ™—∑‡µÕ√åªî¥
°“√≈ÁÕ§¥â«¬ “¬¬ŸÀ√◊Õ°“√∫Õ°µ”·Àπàß°“√≈ÁÕ§∑’Ë· ¥ß∑’Ë¥â“πÀπⓇ∫√§‡°Õ√å
E51
253A
E51
257A
E51
256A
Test
Test
TestTest
TestTest
E51
345A
E51
346A
Test
Test
Test
Test
Test
Test
Test
Top shutter closed.Bottom shutter open.
Top shutter open.Bottom shutter closed.
Top and bottomshutters open.
Top and bottomshutters closed.
°“√≈ÁÕ§
ª≈¥≈ÁÕ§
¥÷ß·∑ª¥â“π´â“¬‡æ◊ËÕ≈ÁÕ§™—∑‡µÕ√å∫π „ à “¬¬Ÿ (¢π“¥√Ÿ 5 ∂÷ß 8 ¡¡.)
¥÷ß·∑ª¥â“π¢«“‡æ◊ËÕ≈ÁÕ§™—∑‡µÕ√å≈à“ß „ à “¬¬Ÿ (¢π“¥√Ÿ 5 ∂÷ß 8 ¡¡.)
¥÷ß·∑ª∑—Èß 2 ®ÿ¥ ‡æ◊ËÕ≈ÁÕ§∑—Èß 2 ™—∑‡µÕ√å „ à “¬¬Ÿ (¢π“¥√Ÿ 5 ∂÷ß 8 ¡¡.)
‡Õ“ “¬¬Ÿ≈ÁÕ§ÕÕ° §≈“¬·∑ª
—µ‡µÕ√å∫πªî¥´—µ‡µÕ√å≈à“߇ªî¥
´—µ‡µÕ√å∫π‡ªî¥´—µ‡µÕ√å≈à“ߪî¥
´—µ‡µÕ√å∫π·≈–≈à“߇ªî¥
´—µ‡µÕ√å∫π·≈–≈à“ߪî¥
Masterpact NW08-63 Schneider Electric26
°“√°”Àπ¥¢—È«‰øøÑ“
(auxiliaries)
°“√°”Àπ¥¢—È«¢Õß°“√µàÕ “¬º—ß°“√®—¥«“ߢ—È«µàÕ “¬
E60
352A
Com UC1 UC2 UC3 UC4 M2C/M6C SDE1E5E3E1
E6E4E2
Z5Z3Z1
M1Z4Z2
M2T3T1
M3T4T2
F2 +VNF1 -
V3V2V1
484/Q3474/Q2471/Q1
184/K2182181/K1
848281
MN/MX2D2/C12
/C13D1/C11
MX1C2C3C1
XFA2A3A1
PF254252251
MCHB2B3B1
OF24244242241
OF23234232231
OF22224222221
OF21214212211
OF14144142141
OF13134132131
OF12124122121
OF11114112111
OF4444241
OF3343231
OF3343231
OF2242221
OF11412
CE3334
332331
CE2324
322321
CE1314
312311
ComUC1
UC2UC3
UC4M2C
/M6C
SDE1
E5E3
E1
E6E4
E2
Z5Z3
Z1
M1Z4
Z2
M2T3
T1
M3T4
T2F2
+VNF1
-
V3V2
V1484
/ Q3474
/ Q2471
/ Q1
184/ K
2182181
/ K1
8482
81
MN/MX2D2/
C12
/
C13
D1/ C1
1
MX1C2
C3C1
XFA2
A3A1
PF254
252251
MCHB2
B3B1
OF24244
242241
OF23234
232231
OF22224
222221
OF21214
212211
OF14144
142141
OF13134
132131
OF12124
122121
OF11114
112111
OF444
4241
3231
OF334 OF2
2422
21
OF114
1211
CT3934
932931
CT2924
922921
CT1914
912911
CD3834
832831
CD2824
822821
CD1814
812811
EF24248246245
EF23238236235
EF22228226225
EF21218216215
EF14148146145
EF13138136135
EF12128126125
EF11118116115
CE3334332331
CE2324322321
CE1314312311
Com UC1 UC2 UC3 UC4 M2C/M6C SDE1E5E3E1
E6E4E2
Z5Z3Z1
M1Z4Z2
M2T3T1
M3T4T2
F2 +VNF1 -
V3V2V1
484/Q3
474/Q2471/Q1
184/K2182
181/K1
848281
CD3834832831
CD2824822821
CD1814812811
MN/MX2D2/C12
/C13D1/C11
MX1C2C3C1
XFA2A3A1
PF254252251
MCHB2B3B1
OF24244242241
OF23234232231
OF22224222221
OF21214212211
OF14144142141
OF13134132131
OF12124122121
OF11114112111
OF4444241
3231
OF334
OF2242221
OF11412
CT3934932931
CT2924922921
CT1914912911
11
11
or
or or or or or or or or
CE6364362361
CE5354352351
CE4344342341
or
or
CE9394392391
CE8384382381
CE7374372371
CD6864862861
CD5854852851
CD4844842841
Masterpact NW08-63 Schneider Electric27
°“√°”Àπ¥¢—È«‰øøÑ“
(auxiliaries)
·ºπº—߉øøÑ“·∫∫¬÷¥µ‘¥·≈–·∫∫√“߇≈◊ËÕπ
A P H
/
/
E60
062A
º—ß«ß®√∂Ÿ°· ¥ß¥â«¬«ß®√ de-energised, °“√‡ªî¥«ß®√∑—ÈßÀ¡¥,°“√µàÕ·≈–°“√™“√å®, ¿“«–ª°µ‘¢Õß√’‡≈¬å
E60
063A
E60
064A
E60
067A
‰øøÑ“°”≈—ß
Com: E1-E6 communication
UC1: Z1-Z5 °“√Õ‘π‡µÕ√å≈ÁÕ§‚¥¬°“√‡≈◊Õ°‚´π;Z1 = ZSI OUT SOURCEZ2 = ZSI OUT; Z3 = ZSI IN SOURCEZ4 = ZSI IN ST (short time)Z5 = ZSI IN GF (≈—¥«ß®√≈ߥ‘π)M1 = Vigi module input (Micrologic 7)
UC2: T1, T2, T3, T4 = π‘«∑√Õ≈¿“¬πÕ°;M2, M3 = Vigi module input(Micrologic 7)
UC3: F2+, F1– ·À≈àß®à“¬‰øøÑ“¿“¬πÕ°24 V DCVN ®ÿ¥µàÕ‚«≈∑凵®¿“¬πÕ°
UC4: V1, V2, V3 ®ÿ¥µàÕ‚«≈∑凵®¿“¬πÕ°(Õÿª°√≥å‡ √‘¡)
À√◊ÕM2C: 2 §Õπ·∑§‚ª√·°√¡‰¥â (√’‡≈¬å¿“¬„π)
µâÕß°“√·À≈àß®à“¬‰øøÑ“¿“¬πÕ° 24 V DCÀ√◊ÕM6C: 6 §Õπ·∑§‚ª√·°√¡‰¥â (√’‡≈¬å¿“¬„π)
µâÕß°“√·À≈àß®à“¬‰øøÑ“¿“¬πÕ° 24 V DC
™ÿ¥§«∫§ÿ¡
™ÿ¥§«∫§ÿ¡ °“√§«∫§ÿ¡√–¬–‰°≈
SDE2: °“√∫Õ° ∂“π–°“√∑√‘ª¥â«¬°“√≈—¥«ß®√¢ÕߧÕπ·∑§À√◊ÕRes: °“√√’‡´∑√–¬–‰°≈
SDE1: °“√∫Õ° ∂“π–°“√∑√‘ª¥â«¬°“√≈—¥«ß®√ (Õÿª°√≥å¡“µ√∞“π)
MN: °“√ª≈¥ª≈àÕ¬®“°‚«≈∑凵®µË”À√◊ÕMX2: °“√ª≈¥ª≈àÕ¬·∫∫¢π“π
MX1: °“√ª≈¥ª≈àÕ¬·∫∫¢π“π (¡“µ√∞“πÀ√◊Õµ‘¥µàÕ)
XF: °“√ª≈¥ª≈àÕ¬ªî¥«ß®√ (¡“µ√∞“πÀ√◊Õµ‘¥µàÕ)
PF: §Õπ·∑§ "æ√âÕ¡ªî¥"
MCH: ‡°’¬√å¡Õ‡µÕ√å (*)
‡¡◊ËÕ communicating MX À√◊Õ XF releases ∂Ÿ°„™âß“π “¬‰ø‡ âπ∑’Ë 3
(C3, A3) ®–µâÕß∂Ÿ°µàÕ‰¡à«à“®–µ‘¥µ—Èß‚¡¥Ÿ≈ communication À√◊Õ‰¡à
A : ¥‘®‘µÕ≈·Õ¡ªá¡‘‡µÕ√åP : A + ¡‘‡µÕ√å«—¥°”≈—߉øøÑ“ + °“√ªÑÕß°—π∑’Ë‚ª√·°√¡‰¥âH : P + Œ“√å‚¡π‘§
471
S1
474
484
S2
474
Q1
Q2
Q3
M6C
M2C M6Cor
MX1
C2
C3
C1
BPO
A2
A3
A1
BPF
XFPF
252
254
251
read
y to
clos
e
B1
MCH
B3
B2
char
ged
CH
E60
065A
E46
136A
E46
137A
E60
066A
/
/
T4
T3
T2
T1
Micrologic
Z4
Z3
Z2
Z1
Z2
Z1N L3L2L1
Q
power upstream cb
Z5
VN
V1
V2
V3
M3
M2
M1
F2+
F1
I
U
downstream cb
24 V DCX2
X1
SG
2
SG
1
Z3
Z4
Z5
Z2
Z1
Z3
Z4
Z5
181
182
184
SDE2
faul
t
81
82 84
SDE1
K2
Res
K1
faul
t
or
D2
D1
AT
MN MX2
C12
C11
or
°“√§«∫§ÿ¡√–¬–‰°≈
°“√§«∫§ÿ¡√–¬–‰°≈SDE2 / Res SDE1 MN / MX2 MX1 XF PF MCH
184 K2 84 D2 C12 C2 A2 254 B2
182 82 C3 A3 252 B3
181 K1 81 D1 C11 C1 A1 251 B1
™ÿ¥§«∫§ÿ¡Com UC1 UC2 UC3 UC4 / M2C / M6C
E5 E6 Z5 M1 M2 M3 F2+ V3 484 Q3
E3 E4 Z3 Z4 T3 T4 VN V2 474 Q2
E1 E2 Z1 Z2 T1 T2 F1 – V1 471 Q1
/
/
/
/
/
/
cb µâπ∑“ß cb ª≈“¬∑“߉øøÑ“°”≈—ß
≈—¥«ß
®√
≈—¥«ß
®√
æ√âÕ¡
ªî¥
™“√å®
Masterpact NW08-63 Schneider Electric28
°“√°”Àπ¥¢—È«‰øøÑ“
(auxiliaries)
·ºπº—߉øøÑ“·∫∫¬÷¥µ‘¥·≈–·∫∫√“߇≈◊ËÕπ
OF 24 or · ¥ß ∂“π–§Õπ·∑§‡ªî¥/ªî¥
EF 24 √à«¡°—∫°“√· ¥ß ∂“π–§Õπ·∑§ "µàÕ/ªî¥"
OF 23 À√◊ÕEF 23
OF 22 À√◊ÕEF 22
OF 21 À√◊ÕEF 21
OF 14 À√◊ÕEF 14
OF 13 À√◊ÕEF 13
OF12 À√◊ÕEF12
OF11 À√◊ÕEF11
OF4: ‡ªî¥/ªî¥OF3 · ¥ß ∂“π–OF2 §Õπ·∑§OF1
OF24 OF23 OF22 OF21 OF14 OF13 OF12 OF11
244 234 224 214 144 134 124 114
242 232 222 212 142 132 122 112
241 231 221 211 141 131 121 111
E60
357A
EF24 EF23 EF22 EF21 EF14 EF13 EF12 EF11
248 238 228 218 148 138 128 118
246 236 226 216 146 136 126 116
245 235 225 215 145 135 125 115
E60
358A
E60
361A
E60
371A
E60
362A
°“√∫Õ° ∂“π–§Õπ·∑§
°“√∫Õ° ∂“π–§Õπ·∑§
CD3: ‰¡àµàÕ
CD2 µ”·Àπàß
CD1 §Õπ·∑§
À√◊Õ
CE6: µàÕCE5 µ”·ÀπàßCE4 §Õπ·∑§
or or or or or or or or
CD3 CD2 CD1 CE3 CE2 CE1 CT3 CT2 CT1
834 824 814 334 324 314 934 924 914
832 822 812 332 322 312 932 922 912
831 821 811 331 321 311 931 921 911
CE6 CE5 CE4 CE9 CE8 CE7
364 354 344 394 384 374
362 352 342 392 382 372
361 351 341 391 381 371
or or
CE3: µàÕ
CE2 µ”·Àπàß
CE1 §Õπ·∑§
OF4 OF3 OF2 OF1
44 34 24 14
42 32 22 12
41 31 21 11
§Õπ·∑§∑’Ë‚§√ß√à“ß
Õÿª°√≥å·∫∫√“߇≈◊ËÕπ‡∑à“π—Èπ
SDE1, OF1, OF2, OF3, OF4 ªìπÕÿª°√≥å¡“µ√∞“π
®ÿ¥µàÕ‡™◊ËÕ¡ (1 “¬µàÕ 1 ®ÿ¥‡∑à“π—Èπ)
XXX
§Õπ·∑§∑’Ë‚§√ß√à“ß
§Õπ·∑§∑’Ë‚§√ß√à“ß
12 1411
22 2432 3431 21
OF4
42 4441
OF3 OF2 OF1
open closed
OF . .
closed connectedandclosed
OF . .
CE
EF
not connectedorconnectedand open
or
. . 1
. . 2
. . 4
. . 6
. . 8
. . 5 331
332
334
CE3
connected
321
322
324
CE2
311
312
314
CE1
914
912
911
924
922
921
CT3
934
932
931
CT2 CT1
test
331
332
334
CE3
connected
321
322
324
CE2
311
312
314
CE1
CT3: µ”·Àπàß∑¥ Õ∫
CT2 §Õπ·∑§
CT1
À√◊ÕCE9: µàÕ
CE8 µ”·Àπàß
CE7 §Õπ·∑§À√◊Õ
CD6: ‰¡àµàÕ
CD5 µ”·Àπàß
CD4 §Õπ·∑§
√À—
*or = À√◊Õ
°“√∫Õ° ∂“π–§Õπ·∑§
µàÕ µàÕ ∑¥ Õ∫‰¡àµàÕÀ√◊ÕµàÕ·≈–‡ªî¥«ß®√
µàÕ·≈–ªî¥«ß®√ªî¥‡ªî¥ ªî¥
Masterpact NW08-63 Schneider Electric29
E60
363A
°“√∑”ß“π
·∑àπ «‘∑´å®–√–∫ÿ ¿“«– "µàÕ", "∑¥ Õ∫" ·≈–"‰¡àµàÕ"
‡∫√§‡°Õ√å
‚§√ß√“߇≈◊ËÕπ
E60
364A
ON/OFF ‡ªìπ√À— ∫Õ° ∂“π–¢ÕßÀπâ“ —¡º— À≈—°¢ÕßÕÿª°√≥å
test position
separation of the auxiliary circuits separation of the main circuits
completely connected
completely disconnected
open
open
open
closed
closed
d> 12.7 mm d> 25.4 mm
open
open
open
closed
closed
closed
closedCT: test positioncarriage switch
CD: disconnected-positioncarriage switch
CE: connected-positioncarriage switch
open
closed
open
closed
closed
completely closed completely open
main contacts
OF : ON/OFF (closed/open)indication changeover contacts
closed
open
open
ªî¥«ß®√ ¡∫Ÿ√≥å ‡ªî¥«ß®√ ¡∫Ÿ√≥å
Àπâ“ —¡º— À≈—°
ON/OFF (‡ªî¥/ªî¥)°“√√–∫ÿ°“√‡ª≈’ˬπÀπâ“ —¡º— *close = ª‘¥ open = ‡ª‘¥
µàÕ ¡∫Ÿ√≥å
°“√·¬°«ß®√À≈—°
µ”·Àπàß∑¥ Õ∫
°“√·¬°«ß®√√Õß (auxiliary)
·¬° ¡∫Ÿ√≥å
·∑àπ «‘∑´å· ¥ß°“√ "µàÕ"
·∑àπ «‘∑´å· ¥ß°“√ "∑¥ Õ∫"
·∑àπ «‘∑´å· ¥ß°“√ "‰¡àµàÕ"
*close = ª‘¥ open = ‡ª‘¥
Masterpact NW08-63 Schneider Electric30
¢âÕ¡Ÿ≈¢ÕßÕÿª°√≥åª√–°Õ∫
Masterpact
™ÿ¥§«∫§ÿ¡‰¡‚§√≈Õ®‘§
E51
329A
E46
108A
¢—Õ¡Ÿ≈∑’Ë≈–‡Õ’¬¥°«à“π’È„À⥟®“°§Ÿà¡◊Õ°“√„™âß“π™ÿ¥§«∫§ÿ¡
™ÿ¥§«∫§ÿ¡‰¡‚§√≈Õ®‘§
ª≈—Í°ªÑÕß°—π°√–· ‡°‘π (long-time)
‡ªìπÕÿª°√≥å¡“µ√∞“π1 ™ÿ¥ ”À√—∫ 10 Õÿª°√≥å À¡“¬‡≈¢¢Õß™‘Èπ à«π
(ª≈—Í°°√–· long-time, ·≈–¢—È«µàÕ‰¡à√«¡Õ¬Ÿà¥â«¬) ¥Ÿ®“°¢â“ß≈à“ßMicrologic 2.0: 33069Micrologic 5.0: 33070Micrologic 2.0A: 33071Micrologic 5.0A: 33072Micrologic 6.0A: 33073Micrologic 7.0A: 33074Micrologic 5.0P: 47058Micrologic 6.0P: 47059Micrologic 7.0P: 47060Micrologic 5.0H: 47061Micrologic 6.0H: 47062Micrologic 7.0H: 47063 À¡“¬‡≈¢¢Õß™‘Èπ à«π
”À√—∫¢—È«µàÕ¢Õß A, P, H:
”À√—∫Õÿª°√≥嵑¥µ“¬:
47065
”À√—∫Õÿª°√≥å√ÿàπ√“߇≈◊ËÕπ:
47066.
¢÷ÈπÕ¬Ÿà°—∫‚¡‡¥≈,™ÿ¥§«∫§ÿ¡ª√–°Õ∫¥â«¬:
°“√· ¥ß ∂“π–°“√∑√‘ª °“√µ√«®«—¥§à“µà“ßÊ∑“ß
‰øøÑ“ (°√–· , °”≈—߉øøÑ“,‚«≈∑凵® œ≈œ) °“√«‘‡§√“–À匓√å‚¡π‘§ °“√ ◊ËÕ “√
M2C: 2 §Õπ·∑§(5 A - 240 V) M6C: 6 §Õπ·∑§
(5 A - 240 V). ‚À≈¥∑’ˬա„Àℙ≥â¢Õß
√’‡≈¬å‡Õ“∑åæÿ∑ M6C 240 V AC:
5 A §à“ p.f = 0.7 380 V AC:
3 A §à“ p.f = 0.7 24 V DC:
8 A §à“ L/R = 0 48 V DC:
1.5 A §à“ L/R = 0 125 V DC:
0.4 A §à“ L/R = 0 250 V DC:
0.15 A §à“L/R = 0 M6C ·À≈àß®à“¬‰ø:
24 V DC ± 5% M6C °”≈—߉øøÑ“ Ÿß ÿ¥:
100 mA
‡ªìπÕÿª°√≥å¡“µ√∞“π1 ™ÿ¥ ”À√—∫ 10 Õÿª°√≥å À¡“¬‡≈¢¢Õß™‘Èπ à«π
”À√—∫Õÿª°√≥å‡ √‘¡∑’Ë„™â„π°“√ª√—∫µ—Èß: Õÿª°√≥åª√—∫µ—Èß¡“µ√∞“π
0.4 ∂÷ß 1 x Ir : 33542 Õÿª°√≥åª√—∫µ—Èß√–¥—∫µË”
0.4 ∂÷ß 0.8 x Ir : 33543 Õÿª°√≥åª√—∫µ—Èß√–¥—∫ Ÿß
0.8 ∂÷ß 1 x Ir : 33544 ‰¡à¡’°“√ªÑÕß°—π°√–· ‡°‘π
(long-time) : 33545
ª≈—Í°‡ªìπµ—«°”Àπ¥™à«ß°“√ª√—∫µ—Èß°“√ªÑÕß°—π°√–· ‡°‘π (long-time)
§Õπ·∑§ M2C ·≈– M6C ( “¡“√∂‚ª√·°√¡‰¥â)
‡ªìπÕÿª°√≥å‡ √‘¡„™â√à«¡°—∫,„™â√à«¡°—∫‰¡‚§√≈Õ®‘§ P·≈– H À¡“¬‡≈¢™‘Èπ à«π¥Ÿ¢â“ß≈à“ß
(‰¡à√«¡™ÿ¥µàÕ “¬) 2 §Õπ·∑§ M2C:
47086 + 47087 6 §Õπ·∑§ M6C: 47066 À¡“¬‡≈¢™‘Èπ à«π¢Õß
™ÿ¥µàÕ “¬ ”À√—∫™ÿ¥µ‘¥µ“¬: 47074 ”À√—∫™ÿ¥√“߇≈◊ËÕπ : 47849
“¡“√∂‚ª√·°√¡§Õπ·∑§‚¥¬„™âÀπ⓪í∑¡å∫π™ÿ¥§«∫§ÿ¡∑“ßÕÿª°√≥å‡ √‘¡ COM °“√· ¥ßº≈ ™π‘¥¢Õß°“√≈—¥«ß®√ °“√≈—¥«ß®√·∫∫
Instantaneous À√◊Õ¡’°“√Àπà«ß‡«≈“
Masterpact NW08-63 Schneider Electric31
°“√∫Õ° ∂“π–§Õπ·∑§
°“√∫Õ° ∂“π–§Õπ·∑§ ON/OFF (OF) 4 changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫·À≈àß®à“¬‰ø AC(AC12 µ“¡ 947-5-1): 480 V: 10 A (rms) 600 V: 6 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫·À≈àß®à“¬‰ø DC(DC12 µ“¡ 947-5-1):250 V: 3 A.
E51
331A
‡æ‘Ë¡‡µ‘¡°“√∫Õ° ∂“π–§Õπ·∑§ ON/OFF (OFF) ‡ªìπÕÿª°√≥å‡ √‘¡ 2 ™ÿ¥
¢Õß 4 OF §Õπ·∑§µàÕ 1Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π (‰¡à√«¡
™ÿ¥µàÕ “¬, ¥Ÿ¢â“ß≈à“ß): 1 ™ÿ¥¢Õß 4 OF §Õπ·∑§ : 47887 À¡“¬‡≈¢™‘Èπ à«π ”À√—∫
™ÿ¥µàÕ “¬ : ”À√—∫Õÿª°√≥å·∫∫µ‘¥µ“¬: 47074 ”À√—∫Õÿª°√≥å√“߇≈◊ËÕπ: 47849
4 changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫·À≈àß®à“¬‰ø AC(AC12 µ“¡ 947-5-1): 480 V: 10 A (rms) 600 V: 6 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫·À≈àß®à“¬‰ø DC(DC12 as per 947-5-1):250 V: 3 A.
§Õπ·∑§√à«¡ "µàÕ/ªî¥«ß®√" (EF) ‡ªìπÕÿª°√≥å‡ √‘¡ 8 EF
§Õπ·∑§µàÕ 1 Õÿª°√≥å §Õπ·∑§·µà≈–™ÿ¥®–µ‘¥µ—Èß
∑’Ë™ÿ¥µàÕ¢ÕߧÕπ·∑§‡æ‘Ë¡ OF À¡“¬‡≈¢™‘Èπ à«π : 1 EF
§Õπ·∑§ : 48477
§Õπ·∑§®–√«¡¢âÕ¡Ÿ≈"Õÿª°√≥å∂Ÿ°µàÕ" ·≈–"Õÿª°√≥åªî¥«ß®√" ‡æ◊ËÕ∫Õ°«à“ "ªî¥«ß®√Õ¬Ÿà"
4 changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫·À≈àß®à“¬‰ø AC(AC12 µ“¡ 947-5-1): 240 V: 10 A (rms) 380 V: 10 A (rms) 480 V: 10 A (rms) 600 V: 6 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫·À≈àß®à“¬‰ø DC(DC12 as per 947-5-1): 48 V: 2.5 A 130 V: 0.8 A 250 V: 0.3 A.
°“√∫Õ° ∂“π–§Õπ·∑§ "≈—¥«ß®√-∑√‘ª" (SDE/1) ‡ªìπÕÿª°√≥å¡“µ√∞“π
¢Õ߇∫√§‡°Õ√å, 1 SDE/1µàÕ 1 Õÿª°√≥å ‰¡à¡’‡«Õ√å™—Ëπ¢Õß Switch-
disconnector
4 changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫·À≈àß®à“¬‰ø AC(AC12 µ“¡ 947-5-1): 240 V: 10 A (rms) 380 V: 10 A (rms) 480 V: 10 A (rms) 600 V: 6 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫·À≈àß®à“¬‰ø DC(DC12 as per 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.15 A.
‡ªìπÕÿª°√≥å¡“µ√∞“π4 OF µàÕ 1 Õÿª°√≥å
§Õπ·∑§ OF · ¥ß ∂“π–¢ÕߧÕπ·∑§À≈—° ®–∑√‘ª‡¡◊ËÕ∂÷ß√–¬–ª≈¥
µË” ÿ¥√–À«à“߇¡π§Õπ·∑§
§Õπ·∑§ OF · ¥ß ∂“π–¢ÕߧÕπ·∑§À≈—° ®–∑√‘ª‡¡◊ËÕ∂÷ß√–¬–ª≈¥
µË” ÿ¥√–À«à“߇¡π§Õπ·∑§
§Õπ·∑§√–¬–‰°≈· ¥ß°“√‡ªî¥«ß®√¢ÕßÕÿª°√≥å‡π◊ËÕß¡“®“°º≈¢Õß°“√≈—¥«ß®√
Masterpact NW08-63 Schneider Electric32
E51
298B
E51
298B
E51
332A
‡ªìπÕÿª°√≥å‡ √‘¡ ”À√—∫‡∫√§‡°Õ√å 1 §Õπ·∑§‡æ‘Ë¡SDE/2 µàÕ 1 Õÿª°√≥å ‰¡à “¡“√∂„™â√à«¡°—∫
Õÿª°√≥å‡ √‘¡ Res À¡“¬‡≈¢™‘Èπ à«π¢Õß:
(‰¡à√«¡™ÿ¥µàÕ “¬¥Ÿ¢â“ß≈à“ß)1 §Õπ·∑§ SDE/2 :47915 À¡“¬‡≈¢™‘Èπ à«π¢Õß
™ÿ¥µàÕ “¬ ”À√—∫™ÿ¥µ‘¥µ“¬: 47074 ”À√—∫™ÿ¥√“߇≈◊ËÕπ : 47849
‡æ‘Ë¡‡µ‘¡°“√∫Õ° ∂“π–§Õπ·∑§ "°“√≈—¥«ß®√-∑√‘ª" (SDE/2)
§Õπ·∑§√–¬–‰°≈· ¥ß°“√‡ªî¥«ß®√¢ÕßÕÿª°√≥å‡π◊ËÕß¡“®“°º≈¢Õß°“√≈—¥«ß®√
changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫®à“¬‰ø AC(AC12 µ“¡ 947-5-1): 240 V: 10 A (rms) 380 V: 5 A (rms) 480 V: 5 A (rms) 600 V: 3 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫®à“¬‰ø DC(DC12 µ“¡ 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.15 A.
‡ªìπÕÿª°√≥å‡ √‘¡ ”À√—∫1 Res µàÕ 1 Õÿª°√≥å ‰¡à “¡“√∂„™â√à«¡°—∫
Õÿª°√≥å‡ √‘¡ SDE/2 À¡“¬‡≈¢™‘Èπ à«π¢Õß:
(‰¡à√«¡™ÿ¥µàÕ “¬¥Ÿ¢â“ß≈à“ß): 110/130 V AC: 47082 220/240 V AC: 47083 À¡“¬‡≈¢™‘Èπ à«π¢Õß
™ÿ¥µàÕ “¬ ”À√—∫™ÿ¥µ‘¥µ“¬: 47074 ”À√—∫™ÿ¥√“߇≈◊ËÕπ : 47849
Electrical reset after fault trip (Res) §Õπ·∑§®–√’‡´∑Õÿª°√≥å
√–¬–‰°≈ ‡¡◊ËÕ‡°‘¥°“√∑√‘ª®“°°“√≈—¥«ß®√∑“߉øøÑ“
"Springs charged" limit switch contact (CH) §Õπ·∑§®–· ¥ß ∂“π–
"charged" ¢Õß°≈‰°°“√∑”ß“π ( ª√‘ß™“√å®)
Õÿª°√≥åª√–°Õ∫¥â«¬, 1 CH§Õπ·∑§µàÕ 1 Õÿª°√≥å
changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫®à“¬‰ø AC(AC12 µ“¡ 947-5-1): 240 V: 10 A (rms) 380 V: 5 A (rms) 480 V: 5 A (rms) 600 V: 3 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫®à“¬‰ø DC(DC12 µ“¡ 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.15 A.
§Õπ·∑§ "æ√âÕ¡‡ªî¥" (PF) ‡ªìπÕÿª°√≥å 1 §Õπ·∑§
PF µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π¢Õß:
(‰¡à√«¡™ÿ¥µàÕ “¬¥Ÿ¢â“ß≈à“ß)1 §Õπ·∑§ PF : À¡“¬‡≈¢™‘Èπ à«π¢Õß
™ÿ¥µàÕ “¬ ”À√—∫™ÿ¥µ‘¥µ“¬: 47074 ”À√—∫™ÿ¥√“߇≈◊ËÕπ : 33098
§Õπ·∑§Õ“®®–· ¥ß«à“Õÿª°√≥凪߮√Õ—π‡π◊ËÕß¡“®“° ‡∫√§‡°Õ√凪߮√Õ¬Ÿà °≈‰°¢Õß ª√‘ß∂Ÿ°™“√å® ‰¡à¡’§” —Ëß„Àâªî¥«ß®√§â“߉«â ‰¡à¡’§” —Ëß„À⇪߮√§â“߉«â
changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫®à“¬‰ø AC(AC12 µ“¡ 947-5-1): 240 V: 10 A (rms) 380 V: 5 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫®à“¬‰ø DC(DC12 µ“¡ 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.15 A.
¢âÕ¡Ÿ≈¢ÕßÕÿª°√≥åª√–°Õ∫
Masterpact
°“√∫Õ° ∂“π–§Õπ·∑§
Masterpact NW08-63 Schneider Electric33
Õÿª°√≥åª√–°Õ∫ ”À√—∫°“√§«∫§ÿ¡√–¬–‰°≈
‡°’¬√å¡Õ‡µÕ√å (MCH) ‡°’¬√å¡Õ‡µÕ√å®–™“√å®·≈–
√’™“√å® ª√‘ß ‚¥¬Õ—µ‚π¡—µ‘ ‡«≈“°“√™“√å® :
4 «‘π“∑’ Ÿß ÿ¥ °”≈—߉øøÑ“: 180 VA AC
180 W DC
°√–· æÿà߇¢â“ :2 ∂÷ß 3 In „π 0.1 «‘π“∑’ Õ—µ√“°“√∑”ß“π :
Ÿß ÿ¥ 3 §√—ÈßµàÕπ“∑’
E51
290A
E51
294A
‡ªìπÕÿª°√≥å‡ √‘¡ MX 1À√◊Õ 1 ™ÿ¥µàÕ 1 Õÿª°√≥å·≈–MX 1 À√◊Õ™ÿ¥µàÕ 1 Õÿª°√≥å : °“√∑”ß“π¢Õß MX ·≈–
XF ®–∂Ÿ°°”À𥂥¬µ”-·Àπàß∑’˵‘¥µ—Èߧլ≈å À¡“¬‡≈¢™‘Èπ à«π
(‰¡à√«¡™ÿ¥µàÕ “¬, ¥Ÿ¢â“ß≈à“ß) :
√ÿàπ¡“µ√∞“π12 V AC50/60 Hz / DC: 3365824/30 V AC50/60 Hz / DC: 3365948/60 V AC50/60 Hz / DC: 33660100/130 V AC50/60 Hz / DC: 33661200/250 V AC50/60 Hz / DC: 33662277 V AC50/60 Hz / DC: 33663380/480 V AC50/60 Hz / DC: 33664500/550 V AC50/60 Hz / DC: 33665. √ÿàπ Communication
(¡’Õÿª°√≥å‡ √‘¡ com) :12 V AC50/60 Hz / DC: 3303224/30 V AC50/60 Hz / DC: 3303348/60 V AC50/60 Hz / DC: 33034100/130 V AC50/60 Hz / DC: 33035200/250 V AC50/60 Hz / DC: 33036240/277 V AC50/60 Hz / DC: 33037380/480 V AC50/60 Hz / DC: 33038
À¡“¬‡≈¢™‘Èπ à«π¢Õß™ÿ¥µàÕ “¬ : ”À√—∫Õÿª°√≥嵑¥µ“¬ : 47074 ”À√—∫Õÿª°√≥å√“߇≈◊ËÕπ : 47849 Õÿª°√≥å MX ®– —Ë߇ªî¥
«ß®√¢Õ߇∫√§‡°Õ√å∑—π∑’∑’Ë∂Ÿ°°√–µÿâπ Õÿª°√≥å MF ®– —Ëߪ߮√
¢Õ߇∫√§‡°Õ√å∑—π∑’∑’Ë∂Ÿ°°√–µÿâπ, ∂â“Õÿª°√≥åπ—Èπ"æ√âÕ¡ªî¥"
‡«≈“µÕ∫ πÕߢÕßÕÿª°√≥å : MX: 50 ms ± 10 XF: 70 ms +10 / -15
> 3200 A: 80 ms ± 10 operating threshold: MX: 0.7 to 1.1 x Un XF: 0.85 to 1.1 x Un
“¡“√∂®à“¬‰øøÑ“‰¥âµàÕ‡π◊ËÕß
°”≈—߉øøÑ“: pick-up (80 ms):
200 VA ¢≥–∑”ß“π : 4.5 VA.
‡ªìπÕÿª°√≥å‡ √‘¡, ‡°’¬√å¡Õ‡µÕ√åµàÕ 1 Õÿª°√≥å : À¡“¬‡≈¢™‘Èπ à«π
(‰¡à√«¡™ÿ¥µàÕ “¬, ¥Ÿ¢â“ß≈à“ß) :100/130 V AC: 47893200/240 V AC: 47894277 V AC: 47895380/415 V AC: 47896400/440 V AC: 47897480 V AC: 4789824/30 V DC: 4788848/60 V DC:47889100/125 V DC: 47890200/250 V DC: 47891. À¡“¬‡≈¢™‘Èπ à«π ”À√—∫
™ÿ¥µàÕ “¬ : ”À√—∫Õÿª°√≥嵑¥µ“¬ : 47074 ”À√—∫Õÿª°√≥å√“߇≈◊ËÕπ : 47849
Õÿª°√≥åª≈¥ª≈àÕ¬°“√‡ªî¥«ß®√ MX/1 ·≈– MX/2, Õÿª°√≥åª≈¥ª≈àÕ¬°“√ªî¥«ß®√ XF
Masterpact NW08-63 Schneider Electric34
E51
296A
E51
333A
3 6
MNUVR
1012
100/130 V
AC/DC
S
0.5 1
3 1.5
Retardateur de MN
Time delay for UVR
4 5 6
1 2 3
1 2 3
E51
294A
¢âÕ¡Ÿ≈¢ÕßÕÿª°√≥åª√–°Õ∫
Masterpact
Õÿª°√≥åª≈¥ª≈àÕ¬∑—π∑’ˇ¡◊ËÕ‚«≈∑凵®µË” (MN) ‡ªìπÕÿª°√≥å‡ √‘¡ MN
1 ™ÿ¥µàÕ 1 Õÿª°√≥å ‰¡à “¡“√∂„™â√à«¡°—∫ MX/2 À¡“¬‡≈¢™‘Èπ à«π¢Õß:
(‰¡à√«¡™ÿ¥µàÕ “¬ ¥Ÿ¢â“ß≈à“ß):24/30 V AC50/60 Hz / DC: 3366848/60 V AC50/60 Hz / DC: 33669100/130 V AC50/60 Hz / DC: 33670200/250 V AC50/60 Hz / DC: 33671380/480 V AC50/60 Hz / DC: 33673500/550 V AC50/60 Hz / DC: 33674 À¡“¬‡≈¢™‘Èπ à«π¢Õß
™ÿ¥µàÕ “¬ ”À√—∫™ÿ¥µ‘¥µ“¬: 47074 ”À√—∫™ÿ¥√“߇≈◊ËÕπ : 47849
Õÿª°√≥åª≈¥ª≈àÕ¬ MN®– —Ë߇ªî¥«ß®√¢Õ߇∫√§‡°Õ√å∑—π∑’∑’Ë‚«≈∑凵®¢Õß√–∫∫‰øøÑ“∑’Ë®à“¬µ°≈ß
Õÿª°√≥åª√–°Õ∫ ”À√—∫°“√§«∫§ÿ¡√–¬–‰°≈
‡ªìπÕÿª°√≥å‡ √‘¡ MN ·≈–™ÿ¥Àπà«ß‡«≈“ 1 ™ÿ¥µàÕ 1Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π¢Õß™ÿ¥
Àπà«ß‡«≈“ (µâÕß —Ë߇æ‘Ë¡®“°MN):48/60 V AC50/60 Hz / DC: 33680100/130 V AC50/60 Hz / DC: 33681200/250 V AC50/60 Hz / DC: 33682380/480 V AC50/60 Hz / DC: 33683.
™ÿ¥Àπà«ß‡«≈“ ”À√—∫Õÿª°√≥åª≈¥ª≈àÕ¬ MN °“√∑”ß“π¢Õß™ÿ¥Àπà«ß‡«≈“
¢ÕßÕÿª°√≥åª≈¥ª≈àÕ¬ MN‡ªìπ°“√ªÑÕß°—π°“√∑√‘ª¢Õ߇∫√§‡°Õ√å„π™à«ß‡«≈“ —ÈπÊ¢Õß‚«≈∑凵®µ° Õÿª°√≥åπ’È®–µàÕ “¬§«∫§ÿ¡
Õπÿ°√¡°—∫ MN ·≈–®–µâÕßµ‘¥µ—Èß¿“¬πÕ°µ—«‡∫√§‡°Õ√å
‡ªìπÕÿª°√≥å‡ √‘¡BPFE 1 ™ÿ¥µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π:
(‰¡à√«¡™ÿ¥µàÕ “¬ ¥Ÿ¢â“ß≈à“ß):48534 À¡“¬‡≈¢™‘Èπ à«π¢Õß
™ÿ¥µàÕ “¬ ”À√—∫Õÿª°√≥嵑¥µ“¬:
47074 ”À√—∫Õÿª°√≥å√“߇≈◊ËÕπ :
47849
ªÿÉ¡°¥§«∫§ÿ¡¥â«¬‰øøÑ“ ”À√—∫ªî¥«ß®√ (BPFE) Õ¬Ÿà∑’Ë®ÿ¥≈ÁÕ§‡∫√§‡°Õ√å
¥â«¬ “¬¬ŸÀ√◊ե⫬°ÿ≠·®,ªÿÉ¡°¥π’È®– àß —≠≠“≥§«∫§ÿ¡¥â«¬‰øøÑ“‰ªªî¥«ß®√‡∫√§‡°Õ√åºà“π∑“ßÕÿª°√≥åª≈¥ª≈àÕ¬XF ‚¥¬®–µ√«® Õ∫øíß°å™—Ëπ¥â“𧫓¡ª≈Õ¥¿—¬µà“ßÊ∑—Èß∑“ߥâ“π°“√§«∫§ÿ¡·≈–°“√µ√«® Õ∫
‡«≈“µÕ∫ πÕߢÕßÕÿª°√≥å:0.5, 1, 1.5, 3 «‘π“∑’ operating threshold: °“√‡ªî¥«ß®√:
0.35 to 0.7 x Un °“√ªî¥«ß®√: 0.85 x Un
°”≈—߉øøÑ“: pick-up (80 ms):
200 VA ¢≥–∑”ß“π: 4.5 VA
‡«≈“µÕ∫ πÕߢÕßÕÿª°√≥å:90 ms ±5 operating threshold: °“√‡ªî¥«ß®√:
0.35 to 0.7 x Un °“√ªî¥«ß®√: 0.85 x Un
°”≈—߉øøÑ“: pick-up (80 ms):
200 VA ¢≥–∑”ß“π: 4.5 VA
Masterpact NW08-63 Schneider Electric35
Õÿª°√≥åª√–°Õ∫¥â“π°≈‰°E
4610
3AE
4612
0AE
4611
8A
0399
µ—«π—∫®”π«π°“√∑”ß“π (CDM)
‡ªìπÕÿª°√≥å‡ √‘¡ CDM1 ™ÿ¥µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π: 48535
µ—«π—∫®”π«π°“√∑”ß“π®–π—∫®”π«π√«¡¢Õß°“√∑”ß“π
·ºàπªî¥™àÕß«à“ß (CDP) ‡ªìπÕÿª°√≥å‡ √‘¡ CDP
1 ™ÿ¥µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π: ”À√—∫™ÿ¥µ‘¥µ“¬: 48601 ”À√—∫™ÿ¥√“߇≈◊ËÕπ : 48603
CDP ®–∑”„Àâ√–∫∫°“√ªÑÕß°—π IP ‡æ‘Ë¡¢÷Èπ‡ªìπ 40·≈– IK ‡æ‘Ë¡¢÷Èπ‡ªìπ 07(Õÿª°√≥å·∫∫µ‘¥µ“¬·≈–√“߇≈◊ËÕπ)
Ω“§√Õ∫„ à (CCP) ‡ªìπÕÿª°√≥å‡ √‘¡ CCP
1 ™ÿ¥µàÕ 1 Õÿª°√≥åª√–°Õ∫¥â«¬ CDP À¡“¬‡≈¢™‘Èπ à«π: 48604
( ”À√—∫‡∫√§‡°Õ√å·∫∫µ‘¥µ“¬·≈–·∫∫√“߇≈◊ËÕπ)
‡¡◊ËÕª√–°Õ∫‡¢â“°—∫ CDPÕÿª°√≥å CCP ®–∑”„Àâ√–¥—∫°“√ªÑÕß°—π IP ‡æ‘Ë¡‡ªìπ 54·≈– IK ‡æ‘Ë¡‡ªìπ 10(Õÿª°√≥å·∫∫µ‘¥µ“¬·≈–√“߇≈◊ËÕπ)
Masterpact NW08-63 Schneider Electric36
¢âÕ¡Ÿ≈¢ÕßÕÿª°√≥åª√–°Õ∫
Masterpact
E46
238A
E46
579A
E51
286A
E51
273A
E51
287A
E51
274A
Ronis
Profalux
Õÿª°√≥åª√–°Õ∫¥â“π°≈‰°
Ω“ªî¥·∫∫„ ªÑÕß°—πªÿÉ¡°¥≈ÁÕ§¥â«¬ “¬¬Ÿ, ºπ÷°µ–°—Ë«À√◊Õ °√Ÿ
‡ªìπÕÿª°√≥å‡ √‘¡ Ω“ªî¥≈ÁÕ§1 ™ÿ¥µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π: 48536
Ω“ªî¥·∫∫„ ªÑÕß°—π°“√°¥ªÿÉ¡°¥‡æ◊ËÕ°“√‡ªî¥À√◊ժ∫√§‡°Õ√å µâÕß°“√Õÿª°√≥å≈ÁÕ§ ‡™àπ
“¬¬Ÿ, ºπ÷°µ–°—Ë« À√◊Õ °√Ÿ Õßµ—«
™ÿ¥≈ÁÕ§‡∫√§‡°Õ√å„ÀâÕ¬Ÿà„πµ”·Àπàß OFF ‚¥¬„™â “¬¬Ÿ ‡ªìπÕÿª°√≥å‡ √‘¡, √–∫∫°“√
≈ÁÕ§ 1 ™ÿ¥µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π: 48539
Õÿª°√≥åπ’ȪÑÕß°—π°“√ªî¥‡∫√§‡°Õ√å∑’˵—«‡∫√§‡°Õ√åÀ√◊Õ®“°°“√§«∫§ÿ¡√–¬–‰°≈ “¡“√∂„™â “¬¬Ÿ≈ÁÕ§‰¥â∂÷ß
3 ™ÿ¥
™ÿ¥≈ÁÕ§‡∫√§‡°Õ√å„ÀâÕ¬Ÿà„πµ”·Àπàß OFF ‚¥¬°ÿ≠·®≈ÁÕ§ ‡ªìπÕÿª°√≥å‡ √‘¡, ™ÿ¥≈ÁÕ§
1 ™ÿ¥ µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π:
(‰¡à√«¡™ÿ¥≈ÁÕ§) ”À√—∫™ÿ¥°ÿ≠·®≈ÁÕ§·∫∫Profalux À√◊Õ Ronis :48541 ”À√—∫™ÿ¥°ÿ≠·®≈ÁÕ§·∫∫Castell : 48543 ”À√—∫™ÿ¥°ÿ≠·®≈ÁÕ§·∫∫Kirk : 48542
™ÿ¥≈ÁÕ§ªÑÕß°—π°“√ªî¥‡∫√§‡°Õ√å∑’˵—«‡∫√§‡°Õ√åÀ√◊Õ®“°°“√§«∫§ÿ¡√–¬–‰°≈
°ÿ≠·®≈ÁÕ§„™â ”À√—∫™ÿ¥≈ÁÕ§ °ÿ≠·®≈ÁÕ§ 1 À√◊Õ 2 µ—«
µàÕ 1 ™ÿ¥≈ÁÕ§ À¡“¬‡≈¢™‘Èπ à«π: Ronis :
°ÿ≠·®≈ÁÕ§ 1 µ—« : 41940
°ÿ≠·®≈ÁÕ§ 2 µ—« : 41950
Profalux :
°ÿ≠·®≈ÁÕ§ 1 µ—« : 42888
°ÿ≠·®≈ÁÕ§ 1 µ—« : 42878
Masterpact NW08-63 Schneider Electric37
Õÿª°√≥åª√–°Õ∫¢Õß‚§√ß√à“ß
‡ªìπÕÿª°√≥å‡ √‘¡ À¡“¬‡≈¢™‘Èπ à«π
(™ÿ¥¢Õß∫“πªî¥ ”À√—∫¥â“π∫π·≈–¥â“π≈à“ß) NW08/NW40:
3 poles: 485874 poles: 48589 NW40b/NW63
3 poles: 485884 poles: 48590
µ‘¥µ—Èß∫π‚§√ß√à“ß∫“πªî¥‡æ◊ËÕ§«“¡ª≈Õ¥¿—¬®–ªÑÕß°—π°“√‡¢â“∂÷ß™ÿ¥§Õπ-·∑§ª≈¥«ß®√‚¥¬Õ—µ‚π¡—µ‘‡¡◊ËÕÕÿª°√≥åÕ¬Ÿà„πµ”·Àπàß"‰¡àµàÕ" À√◊Õ "∑¥ Õ∫"
IP20.
E51
334A
E46
293A
Ronis
Profalux
µ—«≈ÁÕ§∫“πªî¥ ‡ªìπÕÿª°√≥å‡ √‘¡ :
2 ™ÿ¥ ”À√—∫ NW08 ∂÷ßNW404 ™ÿ¥ ”À√—∫ NW40b ∂÷ßNW63 À¡“¬‡≈¢™‘Èπ à«π (2 ™ÿ¥)
: 48591
µ—«≈ÁÕ§Õ“®≈ÁÕ§¥â«¬ “¬¬Ÿ‡æ◊ËÕ ªÑÕß°—π°“√µàÕÕÿª°√≥å ≈ÁÕ§∫“πªî¥„ÀâÕ¬Ÿà„π
µ”·Àπàߪ‘¥
°“√· ¥ßµ”·ÀπàߢÕß∫“πªî¥·≈–°“√≈ÁÕ§Ω“Àπâ“ ‡ªìπÕÿª°√≥å‡ √‘¡ À¡“¬‡≈¢™‘Èπ à«π : NW08/NW040:
3 ·≈– 4 ¢—È« : 48592 NW40b/NW63
3 ¢—È« : 485934 ¢—È« : 48594
Õÿª°√≥å‡ √‘¡π’ȵ‘¥µ—ÈßÕ¬Ÿà∑’Ë¥â“πÀπâ“¢Õß‚§√ß√à“ß ∫Õ°„Àâ∑√“∫«à“∫“πªî¥
Õ¬Ÿà„πµ”·Àπàßªî¥ “¡“√∂„™âß“πÕ¬à“ßÕ‘ √–
À√◊Õ„™âß“π√à«¡°—∫ “¬¬Ÿ≈ÁÕ§¢Õß∫“πªî¥∑—Èß 2 ™ÿ¥(∫π·≈–≈à“ß)
™ÿ¥≈ÁÕ§‡∫√§‡°Õ√å„πµ”·Àπàߪ≈¥«ß®√
°ÿ≠·®≈ÁÕ§„™âß“π√à«¡°—∫√–∫∫°“√≈ÁÕ§„πµ”·Àπàß "‰¡àµàÕ" °ÿ≠·®≈ÁÕ§ 1 À√◊Õ 2 ™ÿ¥µàÕ√–∫∫°“√≈ÁÕ§ À¡“¬‡≈¢™‘Èπ à«π : Ronis:
1 °ÿ≠·®≈ÁÕ§: 41940
2 °ÿ≠·®≈ÁÕ§: 41950
Profalux:
1 °ÿ≠·®≈ÁÕ§: 42888
2 °ÿ≠·®≈ÁÕ§: 42878
E46
946A
E46
561A
E51
286A
E51
273A
E51
287A
E51
274A
Top shutter closed Bottom shutter closed
‡ªìπÕÿª°√≥å‡ √‘¡ √–∫∫°“√≈ÁÕ§ 1 ™ÿ¥µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π
”À√—∫°ÿ≠·®≈ÁÕ§ ProfauxÀ√◊Õ Ronis : 48564 ”À√—∫°ÿ≠·®≈ÁÕ§ Castell: 48566 ”À√—∫°ÿ≠·®≈ÁÕ§ Kirk: 48565
µ‘¥µ—Èß∫π‚§√ß√à“ß·≈– “¡“√∂‡¢â“∂÷߉¥â„π¢≥–ª√–µŸªî¥ √–∫∫≈ÁÕ§°“√π’È®–≈ÁÕ§‡∫√§‡°Õ√å„ÀâÕ¬Ÿà„πµ”·Àπàß"‰¡àµàÕ" ‚¥¬„™â°ÿ≠·®≈ÁÕ§1 À√◊Õ 2 ™ÿ¥ °“√≈ÁÕ§„πµ”·Àπàß
" ‰¡àµàÕ" Õ“®ª√—∫„Àâ≈ÁÕ§‡∫√§‡°Õ√剥â∑—Èß 3 µ”·Àπàß
∫“πªî¥‡æ◊ËÕ§«“¡ª≈Õ¥¿—¬
Masterpact NW08-63 Schneider Electric38
E46
652A
E46
124A
E46
111A
E51
351A
°“√≈ÁÕ§ª√–µŸ ‡ªìπÕÿª°√≥å‡ √‘¡, ¥â“¡≈ÁÕ§
ª√–µŸ 1 ™ÿ¥µàÕ 1 ‚§√ß≈à“ß À¡“¬‡≈¢™‘Èπ à«π: 47914
Õÿª°√≥åπ’ȪÑÕß°—π°“√‡ªî¥Ω“µŸâ ”À√—∫ «‘∑´å∫Õ√奇¡◊ËÕ‡∫√§‡°Õ√åÕ¬Ÿà„πµ”·Àπàß"µàÕ" À√◊Õ "∑¥ Õ∫"
“¡“√∂µ‘¥µ—È߉¥â∑—Èߥâ“π´â“¬·≈–¥â“π¢«“¢Õß‚§√ß√à“ß
Õÿª°√≥åª√–°Õ∫¢Õß‚§√ß√à“ß
Ω“ªî¥¢—È«µàÕ “¬ (CB) ‡ªìπÕÿª°√≥å‡ √‘¡, 1 Ω“ªî¥
1 ™ÿ¥µàÕ 1 ‚§√ß√à“ß À¡“¬‡≈¢™‘Èπ à«π NW08/NW040
3 ¢—È«: 485954 ¢—È«: 48596 NW40b/NW63
3 ¢—È«: 485974 ¢—È«: 48598
Ω“ªî¥ªÑÕß°—π°“√‡¢â“∂÷ß®ÿ¥µàÕ “¬§«∫§ÿ¡∑“߉øøÑ“
™ÿ¥Ω“≈ÁÕ§Àπâ“ ‡ªìπÕÿª°√≥å‡ √‘¡, ™ÿ¥Ω“
≈ÁÕ§Àπâ“ 1 ™ÿ¥µàÕ 1 Õÿª°√≥å À¡“¬‡≈¢™‘Èπ à«π: 48582
Õÿª°√≥åπ’ȪÑÕß°—π°“√„ à¥â“¡ rack Ω“µŸâ «‘∑´å∫Õ√奇ªî¥Õ¬Ÿà
µ‘¥µ—ÈßÕ¬Ÿà¥â“π¢«“¢Õß‚§√ß√à“ß
™ÿ¥ªÑÕß°—π°“√„ à‡∫√§‡°Õ√庑¥ ‡ªìπÕÿª°√≥å‡ √‘¡, ™ÿ¥
ªÑÕß°—π°“√„ à‡∫√§‡°Õ√庑¥1 ™ÿ¥µàÕ 1 ‚§√ß√à“ß À¡“¬‡≈¢™‘Èπ à«π: 33767
™ÿ¥ªÑÕß°—π°“√„ à‡∫√§‡°Õ√庑¥¡’„Àâ‡≈◊Õ° 20 ·∫∫ ºŸâ„™â “¡“√∂‡≈◊Õ°„™â„π°“√ªÑÕß°—π°“√„ à‡∫√§‡°Õ√庑¥µ—«‡¢â“°—∫‚§√ß√à“ß
Masterpact NW08-63 Schneider Electric39
E46
095A «‘∑´å· ßµ”·Àπàß "µàÕ", "‰¡àµàÕ" ·≈– "∑¥ Õ∫"
(carriage switches/CE, CD, CT)
‡ªìπÕÿª°√≥å‡ √‘¡,1 ∂÷ß 9 «‘∑´å ‚§√ß √â“ß¡“µ√∞“π,
0 ∂÷ß 3 CE, 0 ∂÷ß 3 CD,0 ∂÷ß 3 CT √Ÿª·∫∫Õ◊ËπÊ (‚¥¬°“√ —Ëß
Actuator ‡æ‘Ë¡‡µ‘¡) :0 ∂÷ß 9 CE, 0 CD, 0 CT0 ∂÷ß 6 CE, 0 ∂÷ß 3 CD,0 CT0 ∂÷ß 6 CE, 0 CD, 0 ∂÷ß3 CT À¡“¬‡≈¢™‘Èπ à«π
(‰¡à√«¡™ÿ¥µàÕ “¬, ¥Ÿ¢â“ß≈à“ß) «‘∑´å Carriage 1 ™ÿ¥ :
33170 Actuator 1 ™ÿ¥ ”À√—∫
°“√‡æ‘Ë¡ «‘∑´å Carriage :48560 À¡“¬‡≈¢™‘Èπ à«π ”À√—∫
™ÿ¥µàÕ “¬ (µàÕ «‘∑´åCarriage) : 478449
«‘∑´å Carriage · ¥ßµ”·Àπàß 3 µ”·Àπàß ¥—ßπ’È :CE : µ”·Àπàß "µàÕ"CD : µ”·Àπàß "‰¡àµàÕ"(‡¡◊ËÕ∂÷ß√–¬–Àà“ßπâÕ¬∑’Ë ÿ¥¢ÕߧÕπ·∑§À≈—°°—∫§Õπ·∑§™à«¬)CT : µ”·Àπàß∑¥ Õ∫
changeover §Õπ·∑§ æ‘°—¥°√–· : 10 A §«“¡∑πµàÕ°“√≈—¥«ß®√
50/60 Hz ”À√—∫®à“¬‰ø AC(AC12 µ“¡ 947-5-1):240 V: 10 A (rms)380 V: 5 A (rms) §«“¡∑πµàÕ°“√≈—¥«ß®√
”À√—∫®à“¬‰ø DC(DC12 µ“¡ 947-5-1):250 V: 0.3 A.
Masterpact NW08-63 Schneider Electric40
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°àÕπ„™âß“π
°“√∑¥ Õ∫‡√‘Ë¡µâπ«‘∏’°“√
°“√µ√«® Õ∫∑—Ë«‰ª¢Õ߇∫√§‡°Õ√å®–„™â‡«≈“ 2-3 «‘π“∑’‡∑à“π—Èπ ·≈–®–∑”„ÀâÀ≈’°‡≈’ˬߧ«“¡‡ ’ˬߵàÕ°“√‡°‘¥§«“¡º‘¥æ≈“¥‰¥â °“√µ√«® Õ∫∑—Ë«‰ªµâÕß∑”¥—ßπ’È °àÕπ°“√„™âß“π§√—Èß·√° À≈—ß°“√‰¡à‰¥â„™â‡∫√§‡°Õ√凪ìπ‡«≈“π“π
°“√µ√«®®–µâÕß∑”„π¢≥–∑’˪≈¥‰øøÑ“ÕÕ°®“° «‘∑´å∫Õ√å¥∑—ÈßÀ¡¥ «‘∑´å∫Õ√å¥∑’Ë·∫à߇ªìπ à«πÊ ®–µâÕߪ≈¥‰øøÑ“ÕÕ°®“° à«π∑’˺Ÿâµ√«® Õ∫‡¢â“∂÷߉¥â
°“√∑¥ Õ∫√–∫∫‰øøÑ“°“√∑¥ Õ∫§«“¡‡ªìπ©π«π·≈– §à“ Dielectric-withstand ®–µâÕß∑”¿“¬À≈—ß√—∫¡Õ∫µŸâ «‘∑´å∫Õ√å¥ °“√∑¥ Õ∫π’È®–µâÕß∑”Õ¬à“ß·¡à𬔷≈–‡ªìπ‰ªµ“¡¡“µ√∞“π “°≈‚¥¬ºŸâ™”π“≠°“√
°àÕπ°“√∑¥ Õ∫®”‡ªìπµâÕß ª≈¥«ß®√§«∫§ÿ¡∑“߉øøÑ“µà“ßÊ ¢Õ߇∫√§‡°Õ√å (MCH, MX, XF, MN °“√√’‡´∑
√–¬–‰°≈¢Õß Res) ∂Õ¥ª≈—Í° long-time ¢Õß 7.0 A, 5.0 P, 6.0 P, 7.0 P, 5.0 H, 6.0 H, 7.0 H °“√
∂Õ¥ª≈—Í° long-time ®–∑”„Àâ°“√«—¥‚«≈∑凵®¢“‡¢â“∂Ÿ°ª≈¥ÕÕ°¥â«¬
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Masterpact NW08-63 Schneider Electric41
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·≈–∑’Ë®ÿ¥§«∫§ÿ¡√–¬–‰°≈·≈–‚¥¬°“√§«∫§ÿ¡Õ◊ËπÊ ∑’ˇªìπÕÿª°√≥åª√–°Õ∫ ∑¥ Õ∫≈”¥—∫¢—ÈπµÕπ°“√∑”ß“π ¥ŸÀπâ“ 10 ·≈– 11 ∑¥ Õ∫™ÿ¥§«∫§ÿ¡‚¥¬„™â ¥Ÿ§Ÿà¡◊Õ°“√„™âß“π¢Õß™ÿ¥§«∫§ÿ¡
™ÿ¥∑¥ Õ∫¢π“¥‡≈Á°
∑ÿ° 2 ªï À√◊Õ‡¡◊ËÕµ—«∫Õ° µ√«® Õ∫µ—«¥—∫Õ“√å§ ¥ŸÀπâ“ 43°“√∫”√ÿß√—°…“¢Õß™ÿ¥ µ√«® Õ∫§Õπ·∑§À≈—° ¥ŸÀπâ“ 43§«∫§ÿ¡¢÷Èπ∂÷ß 100 µ√«® Õ∫§«“¡·πàπ¢Õß®ÿ¥µàÕµà“ßÊ ¥Ÿ§Ÿà¡◊Õ°“√„™âß“π¢Õß™ÿ¥§«∫§ÿ¡
µ√«® Õ∫™ÿ¥§Õπ·∑§ª≈¥«ß®√ ¥ŸÀπâ“ 44
°“√∑”„Àâ‡∫√§‡°Õ√å∑”ß“π
Õ¬à“ß¡’ª√– ‘∑∏‘¿“æ
¢âÕ·π–π”„π°“√∫”√ÿß√—°…“
°“√µ√«® Õ∫µ“¡™à«ß‡«≈“∑’Ë®”‡ªìπ‚ª√·°√¡∑’Ë·π–π” ”À√—∫Õÿª°√≥å∑’Ë„™â„π ¿“«–Õÿ≥À¿Ÿ¡‘·«¥≈âÕ¡ : -5 ÌC/+70 ÌC ∫√√¬“°“»ª°µ‘
™‘Èπ à«π ºŸâ∑” §”Õ∏‘∫“¬ À√◊Õ«‘∏’°“√
µ—«¥—∫Õ“√å§ ºŸâ„™â ¥ŸÀπâ“ 43§Õπ·∑§À≈—° ºŸâµ√«® Õ∫ : ºŸâ„™â ¥ŸÀπâ“ 43
°“√‡ª≈’ˬπ : ‚¥¬ºà“π∫√‘°“√À≈—ß°“√¢“¬¢Õß™‰π‡¥Õ√å
MCH ‡°’¬√å¡Õ‡µÕ√å ºŸâ„™â ¥ŸÀπâ“ 9°“√Õ‘π‡µÕ√å≈ÁÕ§∑“ß°≈‰° ºŸâ„™âconnecting-rod ΩÉ“¬∫√‘°“√À≈—ß°“√¢“¬springs ¢Õß™‰π‡¥Õ√åMX/MN/XF ºŸâ„™â ¥ŸÀπâ“ 10 ·≈– 11
™‘Èπ à«π∑’˵âÕ߇ª≈’Ë¬πµ“¡®”π«π§√—Èß°“√„™âß“π™‘Èπ à«π¥—ßπ’ȵâÕ߇ª≈’Ë¬πµ“¡√–¬–‡«≈“ ‡æ◊ËÕ¬◊¥Õ“¬ÿ°“√„™âß“π¢ÕßÕÿª°√≥å
°“√‡ª≈’ˬπ™‘Èπ à«πµà“ßÊ ®–µâÕß∂Ÿ°°”À𥮓°¢âÕ¡Ÿ≈¢â“ß≈à“ß √“¬°“√¢ÕßÕ“¬ÿ°“√„™âß“π¢Õß™‘Èπ à«πµà“ßÊ „π®”π«π¢Õß O/C cycles ∑’Ë°√–æ‘°—¥
®”π«π¢Õß O/C cycle ∑’Ë°√–· æ‘°—¥™π‘¥¢Õß Õ“¬ÿ°“√„™â Õ“¬ÿ°“√„™âß“π¢Õß™‘Èπ à«πµà“ßʇ∫√§‡°Õ√å ß“π Ÿß ÿ¥
µ—«¥—∫Õ“√å§ §Õπ·∑§À≈—° Connecting-rod MX/XF
springs, releases
MCHNW08 ∂÷ß NW16 25000 10000 10000 12500 12500™π‘¥ N1/H1/H2NW08 ∂÷ß NW16 25000 3000 10000 12500 12500™π‘¥ L1NW20 ∂÷ß NW25 20000 440 V: 8000 440 V: 8000 10000 12500™π‘¥ H1/H2 690 V: 6000 690 V: 6000NW20 ∂÷ß NW25 20000 2000 440 V: 8000 10000 12500™π‘¥ H3 690 V: 6000NW20 20000 3000 10000 10000 12500™π‘¥ L1NW32 ∂÷ß NW40 20000 440 V: 5000 440 V: 5000 10000 12500™π‘¥ H1/H2 690 V: 2500 690 V: 2500NW32 ∂÷ß NW40 20000 1250 440 V: 5000 10000 12500™π‘¥ H3 690 V: 2500NW40b ∂÷ß NW63 10000 1500 3000 5000 12500™π‘¥ H1/H2
Masterpact NW08-63 Schneider Electric43
µ—«¥—∫Õ“√å§ ‰¢ °√ŸÕÕ° : ™π‘¥ N1, H1 ·≈– H2 ≤ NW 40: 2 °√Ÿ ™π‘¥ H1 and H2 ≥ NW 40b, type H3: 3 °√Ÿ ™π‘¥ L1: 4 °√Ÿ
E51
275A
∂â“™ÿ¥§«∫§ÿ¡¡’µ—«√–∫ÿ∫”√ÿß√—°…“°Á‰¡à®”‡ªìπ„π°“µ√«® Õ∫§Õπ·∑§
∂ⓧÕπ·∑§ ÷°°√àÕπ ®–∑”°“√‡ª≈’Ë¬π‚¥¬»Ÿπ¬å∫√‘°“√¢Õß™‰π‡¥Õ√å
«‘∏’°“√∫”√ÿß√—°…“
E51
280A
E51
281A
E51
279A
°“√ ÷°°√àÕπ¢ÕߧÕπ·∑§À≈—° ∂Õ¥µ—«¥—∫Õ“√å§ÕÕ° ªî¥Õÿª°√≥å·≈–µ√«® Õ∫§Õπ·∑§
§Õπ·∑§ OK §Õπ·∑§ ÷°
§Õπ·∑§ OK §Õπ·∑§ ÷°
E51
276B
E51
277B
E51
282B
E51
278B
°àÕπ∑”°“√∫”√ÿß√—°…“„Àâª≈¥‰øøÑ“ÕÕ°®“°Õÿª°√≥å·≈–¥”‡π‘π°“√µ“¡§”‡µ◊Õπ·≈–¡“µ√∞“𧫓¡ª≈Õ¥¿—¬µà“ßÊ
™π‘¥ H1, H2 ( 4000b A), L1
™π‘¥ H1, H2, H3 ( 4000b A)
µ√«® Õ∫µ—«¥—∫Õ“√å§ : ™àÕß¿“¬„π‰¡à∂Ÿ°°√–∑∫°√–‡∑◊Õπ separators ‰¡à‡ ◊ËÕ¡
∂â“®”‡ªìπ‡ª≈’Ë¬πµ—«¥—∫Õ“√å§
Masterpact NW08-63 Schneider Electric44
layout n° 1 layout n° 2 layout n° 3 layout n° 4 layout n° 5
°“√∑”„Àâ‡∫√§‡°Õ√å∑”ß“π
Õ¬à“ß¡’ª√– ‘∑∏‘¿“æ
C2
A2
D2
B2
C1
A1
D1
B1
C2
A2
D2
B2
C1
A1
D1
B1
C2
A2
D2
B2
C1
A1
D1
B1
E2
C2
F2
D2
A2
G2
B2
H2
E1
C1
F1
D1
A1
G1
B1
H1
E2
C2
F2
D2
A2
G2
B2
H2
E1
C1
F1
D1
A1
G1
B1
H1
E51
324A
E51
325A
E51
326A
E51
327A
E51
328B
Rating NW08 NW10 NW16 NW20 NW25 NW32 NW40 NW40b NW63Type NW12 NW50N1 layout n° 1
2 clusters / pole
H1 layout n° 2 layout n° 3 layout n° 4 layout n° 5 layout n° 4 4 clusters / pole 8 clusters / pole 12 clusters / pole 14 clusters / pole 24 clusters / pole
H2
H3
L1 layout n° 3 layout n° 58 clusters / pole 14 clusters / pole
E60
360A
«‘∏’°“√∫”√ÿß√—°…“
*pole = ¢—È«
™ÿ¥§Õπ·∑§ª≈¥«ß®√ ∑“®“√∫’∑’˧Õπ·∑§‚¥¬„™â®“√∫’µ“¡√“¬°“√„πÀπâ“ 44 ®—¥À“‚¥¬ ∫√‘…—∑ ™‰π‡¥Õ√å µ√«® Õ∫§Õπ·∑§µ“¡√“¬°“√π’È ‡ªî¥‡∫√§‡°Õ√å ª≈¥‰øøÑ“ÕÕ°®“°∫— ∫“√å ª≈¥«ß®√‡∫√§‡°Õ√å ∂Õ¥‡∫√§‡°Õ√å µ√«® Õ∫§Õπ·∑§ (‰¡à§«√¡Õ߇ÀÁπ∑Õß·¥ß) ‡ª≈’ˬπ™ÿ¥§Õπ·∑§∑’Ë ÷° µ”·ÀπàߢÕß clusters ‡ªìπ¥—ßµ“√“ߢâ“ß≈à“ßπ’È
Masterpact NW08-63 Schneider Electric45
E51
335A
E46
109A
µ—«¥—∫Õ“√å§ À¡“¬‡≈¢™‘Èπ à«π
(µ—«¥—∫Õ“√å§ 1 ™ÿ¥) : NW type N1
NW08 ∂÷ß NW40 ™π‘¥ H1·≈– H2: 47935 NW40b ∂÷ß NW63 ™π‘¥
H1 ·≈– H2NW ™π‘¥ H3: 47936 NW ™π‘¥ L1: 47937
NW08 ∂÷ß NW40:1 ™ÿ¥µàÕ¢—È«NW40b ∂÷ß NW63:2 ™ÿ¥µàÕ¢—È«
™ÿ¥§Õπ·∑§ª≈¥«ß®√
À¡“¬‡≈¢™‘Èπ à«π (1 ™ÿ¥): 33166
®”π«πµàÕ‡∫√§‡°Õ√å„À⥟®“°Àπ⓵“√“ßÀπâ“ 44
®“√∫’ ”À√—∫™ÿ¥§Õπ·∑§ª≈¥«ß®√
À¡“¬‡≈¢™‘Èπ à«π (1 °√–ªÜÕß): 33160
¥â“πÀπâ“
À¡“¬‡≈¢™‘Èπ à«π(1 Ω“ ”À√—∫‡∫√§‡°Õ√å3 À√◊Õ 4 ¢â“ß) : 47939
1 Õ—πµàÕ 1 Õÿª°√≥å
E46
237A
¥â“¡À¡ÿπ
À¡“¬‡≈¢™‘Èπ à«π (1 ¥â“¡): 47944
1 Õ—πµàÕ 1 Õÿª°√≥å
E51
336A
1 Õ—πµàÕ 1 Õÿª°√≥å
¥â“¡™“√å®
E46
126A
À¡“¬‡≈¢™‘Èπ à«π (1 ¥â“¡): 47940
°“√∑”„Àâ‡∫√§‡°Õ√å∑”ß“π
Õ¬à“ß¡’ª√– ‘∑∏‘¿“æ
°“√ —Ëß´◊ÈÕÕ–‰À≈à
Õÿª°√≥åª√–°Õ∫∑“߉øøÑ“Õÿª°√≥åª√–°Õ∫∑“߉øøÑ“∑’ËÕ“®®–µâÕ߇ª≈’Ë¬π¡’¥—ßπ’È: MCH ‡°’¬√å¡Õ‡µÕ√å Õÿª°√≥åª≈¥ª≈àÕ¬‡ªî¥«ß®√ MX Õÿª°√≥åª≈¥ª≈àÕ¬ªî¥«ß®√ XF Õÿª°√≥åª≈¥ª≈àÕ¬‡¡◊ËÕ‚«≈∑凵®µ° MN
Masterpact NW08-63 Schneider Electric46
°“√∑”„Àâ‡∫√§‡°Õ√å∑”ß“π
Õ¬à“ß¡’ª√– ‘∑∏‘¿“æ
ªí≠À“·≈–·π«∑“ß°“√·°â‰¢
ªí≠À“ “‡Àµÿ∑’ˉª‰¥â ·π«∑“ß°“√·°â‰¢
‡∫√§‡°Õ√凪߮√‚¥¬∑’˪ÿÉ¡°¥· ¥ß°“√∑√‘ª‰¡à∑”ß“π
¡’°“√‡ªî¥«ß®√∑—π∑’∑’Ë欓¬“¡ªî¥«ß®√‡∫√§‡°Õ√å(· ¥ßº≈‚¥¬ªÿÉ¡°¥· ¥ß°“√∑√‘ª)
‰¡à “¡“√∂‡ªî¥«ß®√‡∫√§‡°Õ√宓°°“√§«∫§ÿ¡√–¬–‰°≈·µà “¡“√∂‡ªî¥«ß®√‰¥â∑’˵—«‡∫√§‡°Õ√å
‰¡à “¡“√∂‡ªî¥«ß®√‡∫√§‡°Õ√å∑’˵—«‡∫√§‡°Õ√å
‚«≈∑凵®∑’Ë®à“¬„ÀâÕÿª°√≥åª≈¥ª≈àÕ¬‚«≈∑凵®µ° MN µË”‡°‘π‰ªÀ√◊Õ‰ø¥—∫ ‰ø°√–æ√‘∫ Õÿª°√≥åª≈¥ª≈àÕ¬ MN ∑”ß“πº‘¥ª°µ‘ ¡’§” —Ëß„Àâ≈¥‚À≈¥¡“®“°Õÿª°√≥åÕ◊Ëπ
¡’‚«≈∑凵®°√–™“°∑’Ë®ÿ¥µàÕ “¬¢ÕßÕÿª°√≥åª≈¥ª≈àÕ¬·∫∫¢π“π MX
ªî¥«ß®√¢≥–«ß®√¬—ß≈—¥Õ¬Ÿà
°√–· ‡°‘π™—Ë«¢≥–‡¡◊Ëժ߮√
Thermal memory
‚«≈∑凵®∑’Ë®à“¬„ÀâÕÿª°√≥åª≈¥ª≈àÕ¬·∫∫¢π“π MX ‰¡à‡æ’¬ßæÕ (U < 0.7 Un) ¡’§«“¡º‘¥ª°µ‘¢Õß«ß®√‰øøÑ“¢ÕßÕÿª°√≥å
ª≈¥ª≈àÕ¬·∫∫¢π“π MX ‚«≈∑凵®µ°∑’Ë¢—È«µàÕ “¬¢ÕßÕÿª°√≥å
ª≈¥ª≈àÕ¬ MN µË”°«à“ 0.35 Un
°≈‰≈∑”ß“πº‘¥ª°µ‘ À√◊Õ§Õπ·∑§À≈Õ¡µ‘¥°—π
µ√«® Õ∫‚«≈∑凵®·≈–·°â‰¢ªí≠À“
‡ª≈’ˬπÕÿª°√≥å∑’˺‘¥ª°µ‘ µ√«® Õ∫√–∫∫‰øøÑ“∑—ÈßÀ¡¥·≈–·°â‰¢
°“√ª√—∫µ—ÈߢÕ߇∫√§‡°Õ√å∂â“®”‡ªìπ µ√«® Õ∫ “‡Àµÿ¢Õߧ” —Ëßπ—Èπ
·°â‰¢°“√≈—¥«ß®√ µ√«® Õ∫ ¿“æ‡∫√§‡°Õ√å°àÕππ”„™âß“πµàÕ
·°â‰¢√–∫∫‰øøÑ“À√◊Õª√—∫µ—Èß™ÿ¥§«∫§ÿ¡µ√«® Õ∫ ¿“æ‡∫√§‡°Õ√å°àÕππ”„™âß“πµàÕ
¥Ÿ§Ÿà¡◊Õ°“√„™âß“π™ÿ¥§«∫§ÿ¡
µ√«® Õ∫‚«≈∑凵®∑’Ë®à“¬∑”„Àâ‚«≈∑凵®Õ¬Ÿà„π™à«ß 0.7 ∂÷ß 1.1 Un ∂Õ¥Ω“Àπâ“ÕÕ° µ√«® Õ∫Õÿª°√≥åª≈¥ª≈àÕ¬·∫∫¢π“π MX ª≈¥‚«≈∑凵®∑’Ë®à“¬„ÀâÕÿª°√≥åª≈¥ª≈àÕ¬
MN ¡“‡æ◊ËÕµ√«® Õ∫‡∫√§‡°Õ√姫√®–‡ªî¥«ß®√- ∂Ⓣ¡à‡ªî¥«ß®√ „À⇪≈’ˬπ™ÿ¥ª≈¥ª≈àÕ¬MN- ∂Ⓡªî¥«ß®√ ®à“¬‰øøÑ“„Àâ°—∫™ÿ¥ª≈¥ª≈àÕ¬MN Õ’°§√—Èß ·≈– —Ëߪ∫√§‡°Õ√å§àÕ¬Ê≈¥‚«≈∑凵®≈ß·≈–µ√«® Õ∫«à“Õÿª°√≥åª≈¥ª≈àÕ¬ —Ëß„Àâ‡∫√§‡°Õ√凪߮√√–À«à“ß0.35 ∂÷ß 0.7 Un ∂â“¡’ªí≠À“„À⇪≈’ˬπÕÿª°√≥åª≈¥ª≈àÕ¬ MN
µ‘¥µàÕ»Ÿπ¬å∫√‘°“√™‰π‡¥Õ√å
Masterpact NW08-63 Schneider Electric47
°“√∑”„Àâ‡∫√§‡°Õ√å∑”ß“π
Õ¬à“ß¡’ª√– ‘∑∏‘¿“æ
ªí≠À“·≈–·π«∑“ß°“√·°â‰¢
ªí≠À“ “‡Àµÿ∑’ˉª‰¥â ·π«∑“ß°“√·°â‰¢
‡∫√§‡°Õ√å‰¡à “¡“√∂ªî¥«ß®√‰¥â¥â«¬°“√§«∫§ÿ¡∑’ˇ∫√§‡°Õ√åÀ√◊Õ∑’Ë√–¬–‰°≈
ªî¥«ß®√¢≥–¬—ß≈—¥«ß®√
ªÿÉ¡°¥· ¥ß°“√∑√‘ª‰¡à∂Ÿ°√’‡´∑(°√≥’∑’ˉ¡à¡’°“√√’‡´∑Õ—µ‚π¡—µ‘) ‡∫√§‡°Õ√å "µàÕ" ‰¡à ¡∫Ÿ√≥å ‡°‘¥°“√ Anti-pumpling
‰¡à‰¥â™“√å® ª√‘ߢÕ߇∫√§‡°Õ√å
Õÿª°√≥åª≈¥ª≈àÕ¬ —Ëߪ߮√ XF¡’‰ø®à“¬Õ¬Ÿàµ≈Õ¥‡«≈“
Õÿª°√≥åª≈¥ª≈àÕ¬·∫∫¢π“π MX¡’‰øøÑ“®à“¬Õ¬Ÿà
Õÿª°√≥åª≈¥ª≈àÕ¬ MN ‰¡à¡’‰øøÑ“®à“¬À√◊Õ∑”ß“πº‘¥ª°µ‘
‡∫√§‡°Õ√å∂Ÿ°≈ÁÕ§„πµ”·Àπàß "‡ªî¥«ß®√" ¡’°“√ Interlock ‡∫√§‡°Õ√å
°“√·°â‰¢°“√≈—¥«ß®√ µ√«® Õ∫ ¿“æ‡∫√§‡°Õ√å°àÕπ„™âß“πµàÕ √’‡´∑ªÿÉ¡°¥
„ à‡∫√§‡°Õ√å°≈—∫„Àâ·πàπ ª≈¥ª≈àÕ¬‰øøÑ“∑’Ë®à“¬„ÀâÕÿª°√≥åª≈¥ª≈àÕ¬
XF ÕÕ°·≈â«®à“¬‰ø„À¡à µ√«® Õ∫‰øøÑ“∑’Ë®à“¬„Àâ MCH ‡°’¬√å¡Õ‡µÕ√å µ√«® Õ∫«ß®√‰øøÑ“ µ√«® Õ∫°“√™“√å® ª√‘ߥ⫬¡◊Õ«à“∑”‰¥â ∂â“®”‡ªìπ„À⇪≈’ˬπ MCH ‡°’¬√å¡Õ‡µÕ√å ª≈¥·À≈àß®à“¬‰ø¢Õß XF ·≈– àß —≠≠“≥
„Àâªî¥«ß®√„À¡àºà“π∑“ß XF ∂Ⓡ∫√§‡°Õ√åÕ¬Ÿà„π ∂“π– "æ√âÕ¡ªî¥" ‡∑à“π—Èπ æ‘®“√≥“«à“∑”‰¡Õÿª°√≥åª≈¥ª≈àÕ¬ MX
®÷ß¡’‰ø®à“¬, µ—¥‰øøÑ“∑’Ë®à“¬„Àâ MX ÕÕ°·≈â«æ¬“¬“¡ªî¥«ß®√ºà“π∑“ß XF ®à“¬‰øøÑ“ MN ¥â«¬‚«≈∑凵®¡“°°«à“ 0.85 Un
·≈â«æ¬“¬“¡ªî¥«ß®√ºà“π∑“ß XF ∂Ⓡ∫√§‡°Õ√剡àªî¥«ß®√ ∂Õ¥Ω“Àπâ“ÕÕ°·≈⫵√«® Õ∫§à“‚«≈∑凵® Pick-up ¢Õß MN «à“∂Ÿ°µâÕßÀ√◊Õ‰¡à∂Ⓣ¡à∂Ÿ°µâÕß„À⇪≈’ˬπÕÿª°√≥åª√–°Õ∫ ¬°‡≈‘°§” —Ëß≈ÁÕ§ µ√«® Õ∫ “‡Àµÿ ª°µ‘·≈â«®–µâÕ߉¡à¡’°“√
Interlock
‰¡à “¡“√∂ªî¥«ß®√‡∫√§‡°Õ√宓°°“√§«∫§ÿ¡√–¬–‰°≈·µàªî¥«ß®√‰¥â∑’˵—«‡∫√§‡°Õ√å
‰¡à “¡“√∂√’™“√宇∫√§‡°Õ√å¥â«¬‰øøÑ“
‰¡à “¡“√∂„ à¥â“¡À¡ÿπ‡æ◊ËÕµàÕÀ√◊Õ‰¡àµàÕ«ß®√¢Õ߇∫√§‡°Õ√å
‰¡à “¡“√∂∂Õ¥‡∫√§‡°Õ√åÀ√◊Õ‡≈◊ËÕπ√“ߥâ“π¢«“¢Õß‚§√ß√à“ß
‰¡à “¡“√∂„ à‡∫√§‡°Õ√剥â ÿ¥
Õÿª°√≥åª≈¥ª≈àÕ¬ —Ëߪ߮√ XF ¡’‰øøÑ“®à“¬‰¡à‡æ’¬ßæÕ À√◊Õ∑”ß“πº‘¥ª°µ‘
‰øøÑ“∑’Ë®à“¬„Àâ MCH ‡°’¬√å¡Õ‡µÕ√剡à‡æ’¬ßæÕ
√–∫∫∂Ÿ°≈ÁÕ§„πµ”·Àπàß "µàÕ" À√◊Õ"‰¡àµàÕ" À√◊Õ¡’°“√ Interlock ∑’Ë Rack „ à√“߇≈◊ËÕπ‰¡à ÿ¥
¬—߉¡à‰¥â‡Õ“¥â“¡À¡ÿπÕÕ°®“°‡∫√§‡°Õ√å ¬—߉¡àª≈¥«ß®√‡∫√§‡°Õ√å √–∫∫∂Ÿ°≈ÁÕ§„πµ”·Àπàß "µàÕ" À√◊Õ
"‰¡àµàÕ" À√◊Õ¡’°“√ Interlock ∑’Ë Rack
„ à‡∫√§‡°Õ√庑¥µ—«
™ÿ¥§Õπ·∑§ª≈¥«ß®√Õ¬Ÿà„πµ”·Àπà߉¡à∂Ÿ°µâÕß ∫“πªî¥‡æ◊ËÕ§«“¡ª≈Õ¥¿—¬∂Ÿ°≈ÁÕ§
(≈ÁÕ§¿“¬„π‚§√ß√à“ßÀ√◊Õ¥â“πÀπâ“)
µ√«® Õ∫‰øøÑ“∑’Ë®à“¬ (‚«≈∑凵®§«√Õ¬Ÿà„π™à«ß 0.85 ∂÷ß 1.1 Un)
µ√«® Õ∫‰øøÑ“∑’Ë®à“¬µ√«® Õ∫‰øøÑ“¢Õß MCH ‡°’¬√å¡Õ‡µÕ√å欓¬“¡√’™“√å® ª√‘ߥ⫬¡◊Õ∂â“¡’ªí≠À“∑’Ë°≈‰°°“√∑”ß“πµ‘¥µàÕ»Ÿπ¬å™‰π‡¥Õ√å ∂â“ “¡“√∂™“√å® ª√‘ߥ⫬¡◊Õ‰¥â · ¥ß«à“
MCH ‡°’¬√å¡Õ‡µÕ√å¡’ªí≠À“®”‡ªìπµâÕߪ≈’ˬπ
ª≈¥≈ÁÕ§ÕÕ° À√◊Õ¬°‡≈‘°§” —Ëß≈ÁÕ§
„ à√“߇≈◊ËÕπ„Àâ ÿ¥
‡Õ“¥â“¡À¡ÿπÕÕ°¡“‡°Á∫„π™àÕ߇°Á∫ ª≈¥«ß®√‡∫√§‡°Õ√å„Àâ‡√’¬∫√âÕ¬ ª≈¥≈ÁÕ§ À√◊Õ¬°‡≈‘°§” —Ëß≈ÁÕ§
µ√«® Õ∫§«“¡∂Ÿ°µâÕߢÕ߇∫√§‡°Õ√å∂â“∂Ÿ°µâÕß·≈â« „Àâµ√«® Õ∫Õÿª°√≥åªÑÕß°—π°“√®—∫§Ÿà‡∫√§‡°Õ√å°—∫‚§√ß√à“ߺ‘¥ µ√«® Õ∫µ”·ÀπàߢÕß™ÿ¥§Õπ·∑§ª≈¥«ß®√ ª≈¥≈ÁÕ§
Masterpact NW08-63 Schneider Electric48
°“√µ√«® Õ∫ ¿“«–°“√∑”ß“π
¢Õß Masterpact
Õÿ≥À¿Ÿ¡‘·«¥≈âÕ¡‡∫√§‡°Õ√å Masterpact NW “¡“√∂„™âß“π¿“¬„µâ ¿“«–Õÿ≥À¿Ÿ¡‘¥—ßπ’È : §à“µà“ßÊ ∑“߉øøÑ“·≈–∑“ß°≈‰° ®–‡ªìπ‰ªµ“¡∑’Ë°”Àπ¥‡¡◊ËÕÕÿ≥À¿Ÿ¡‘·«¥≈âÕ¡
-5 ÌC ∂÷ß +7 ÌC °“√∑√‘ª¢Õ߇∫√§‡°Õ√å∑”ß“πª°µ‘∑’ËÕÿ≥À¿Ÿ¡‘µË”≈ß∂÷ß -35 ÌC Masterpact NW (‰¡à¡’™ÿ¥§«∫§ÿ¡) “¡“√∂‡°Á∫√—°…“„π™à«ß¢ÕßÕÿ≥À¿Ÿ¡‘
-40 ÌC ∂÷ß +85 ÌC ™ÿ¥§«∫§ÿ¡ “¡“√∂‡°Á∫√—°…“„π™à«ß¢ÕßÕÿ≥À¿Ÿ¡‘ -25 ÌC ∂÷ß +85 ÌC
¢Õ∫‡¢µ¢Õß ¿“«–∫√√¬“°“» Ÿß ÿ¥‡∫√§‡°Õ√å Masterpact NW ‰¥âºà“π°“√∑¥ Õ∫µ“¡¡“µ√∞“π‚¥¬°”Àπ¥§à“¢Õ∫‡¢µ ¿“«–∫√√¬“°“» Ÿß ÿ¥∑’Ë„™âß“π‰¥â¥—ßπ’È IEC 68-2-1 : Õ“°“»·Àâß, ‡¬Áπ ∑’Ë -55 ÌC IEC 68-2-2 : Õ“°“»·Àâß, √âÕπ ∑’Ë +85 ÌC IEC 68-2-30 : Õ“°“»™◊Èπ, √âÕπ (∑’ËÕÿ≥À¿Ÿ¡‘ +55 ÌC, §«“¡™◊Èπ —¡æ—∑∏å 95%) IEC 68-2-52 : √–¥—∫ 2 : ≈–ÕÕ߇°≈◊Õ
‡∫√§‡°Õ√å Masterpact NW “¡“√∂„™âß“π„π ¿“æ·«¥≈âÕ¡¢ÕßÕÿµ “À°√√¡∑’Ë°”À𥂥¬¡“µ√∞“π IEC 947 (√–¥—∫¡≈æ‘… 4)
·π–π”„Àâµ√«® Õ∫«à“‡∫√§‡°Õ√剥â∂Ÿ°µ‘¥µ—Èß„πµ”·Àπàß∑’Ë¡’§«“¡‡¬Áπ∑’ˇÀ¡“– ¡·≈–‰¡à¡’ΩÿÉπ≈–ÕÕß¡“°‡°‘π‰ª
§«“¡ —Ëπ –‡∑◊Õπ‡∫√§‡°Õ√å Masterpact NW ∑π∑“πµàÕ§≈◊Ëπ·¡à‡À≈Á°‰øøÑ“À√◊Õ°“√ —Ëπ –‡∑◊Õπ°“√∑¥ Õ∫‡ªìπ‰ªµ“¡¡“µ√∞“π IEC 68-2-6 ”À√—∫√–¥—∫∑’˵âÕß°“√¢ÕßÕߧ尓√µ√«® Õ∫°“√§â“∑“߇√◊Õ (Veritas, Lloyd's, etc.) : 2 to 13.2 Hz: amplitude ±1 mm
13.2 to 100 Hz: constant acceleration 0.7 g.
§«“¡ —Ëπ –‡∑◊Õπ¡“°‡°‘π‰ªÕ“®∑”„À⇰‘¥°“√∑√‘ª, ®ÿ¥µàÕµà“ßÊ ·µ°À—° À√◊Õ§«“¡‡ ’¬À“¬„π°≈‰°∑“ß°≈µà“ßÊ
E51
261B
Test
E51
262B
Test
E51
260B
Test
Masterpact NW08-63 Schneider Electric49
E51
263B
2000
m
Test
E51
264B
Test
§«“¡ Ÿß (¡.) 2000 3000 4000 5000
§à“·√ߥ—π Dielectric withstand 3500 3150 2500 2100
√–¥—∫§«“¡‡ªìπ©π«π‡©≈’ˬ 1000 900 700 600
‚«≈∑凵®„™âß“π Ÿß ÿ¥ 690 590 520 460
°√–· æ‘°—¥‡©≈’ˬ∑’Ë 40 ÌC 1 x In 0.99 x In 0.96 x In 0.94 x In
√–¥—∫§«“¡ ŸßMasterpact NW ∂Ÿ°ÕÕ°·∫∫„Àâ„™âß“π∑’Ë√–¥—∫§«“¡ ŸßµË”°«à“ 2000 ‡¡µ√ ∑’Ë√–¥—∫§«“¡ Ÿß¡“°°«à“ 2000 ‡¡µ√ °“√ª√—∫ª√ÿß ¿“æÕ“°“»·«¥≈âÕ¡ (§«“¡µâ“π∑“π‰øøÑ“, §«“¡ “¡“√∂„π°“√√–∫“¬§«“¡√âÕπ) „ÀâµË”≈ß
°“√√∫°«π¢Õߧ≈◊Ëπ·¡à‡À≈Á°‰øøÑ“‡∫√§‡°Õ√å Masterpact NW “¡“√∂∑π∑“πµàÕ ·√ߥ—π‡°‘π∑’Ë¡’ “‡Àµÿ®“°Õÿª°√≥å∑’Ë √â“ߧ≈◊Ëπ·¡à‡À≈Á°‰øøÑ“√∫°«π ·√ߥ—π‡°‘π∑’Ë¡’ “‡Àµÿ¡“®“°°“√√∫°«π„π∫√√¬“°“» À√◊Õ®“°√–∫∫®à“¬‰øøÑ“¿“¬πÕ°
‡™àπ (°“√∫°æ√àÕߢÕß√–∫∫‰øøÑ“· ß «à“ß) Õÿª°√≥å∑’ˇª≈àߧ≈◊Ëπ«‘∑¬ÿ («‘∑¬ÿ, «‘∑¬ÿ ◊ËÕ “√, ‡√¥“√å) °“√ª≈àÕ¬‰øøÑ“ ∂‘µ¬åµà“ßÊ ®“°ºŸâ„™âß“π
‡∫√§‡°Õ√å Masterpact NW ‰¥âºà“π°“√∑¥ Õ∫‡√◊ËÕߧ≈◊Ëπ·¡à‡À≈Á°‰øøÑ“ (EMC) ∑’Ë°”À𥂥¬¡“µ√∞“π “°≈ IEC 947-2, ¿“§ºπ«° F IEC 947-2, ¿“§ºπ«° B (™ÿ¥∑√‘ª¥â«¬øíß°å™—Ëπ°“√√—Ë«≈ߥ‘π)
°“√∑¥ Õ∫¢â“ß∫π¬◊π¬—π«à“ ®–‰¡à‡°‘¥°“√√∫°«π°“√∑√‘ª ‡«≈“°“√∑√‘ª®–∂Ÿ°µâÕß
Masterpact Schneider Electric2
Discovering Masterpact 3
Using Masterpact 8
Understanding the controls and indications 8
Charging the circuit breaker 9
Closing the circuit breaker 10
Opening the circuit breaker 11
Resetting after a fault trip 12
Locking the controls 13
Using the Masterpact drawout chassis 16
Identifying the circuit breaker positions 16
Racking 17
Matching a Masterpact circuit breaker with its chassis 19
Locking the switchboard door 20
Locking the circuit breaker in position 21
Locking the safety shutters 24
Identifying the electrical auxiliaries 26
Identification of the connection terminals 26
Electrical diagrams 27
Operation 29
Discovering Masterpact's accessories 30
Micrologic control units 30
Indication contacts 31
Auxiliaries for remote operation 33
Device mechanical accessories 34
Chassis mechanical accessories 36
Inspecting and testing before use 40
Initial test 40
What to do when the circuit breaker trips 41
Maintaining Masterpact performance 42
Recommended maintenance program 42
Maintenance operations 43
Ordering replacement parts 45
Troubleshooting and solutions 46
Checking Masterpact operating conditions 48
User manual for circuit breakersMasterpact NW08-63
Masterpact NW08-63 Schneider Electric3
Discovering Masterpact
The Masterpact NW range of circuit breakers and switch-disconnectorsoffer current ratings from 800 A to 6300 A.Five different performance levels are available: N1: standard with total discrimination; H1: high performance with total discrimination; H2: a compromise between current limiting and discrimination; H3: high breaking capacity and discrimination, without current limiting; L1: high level of current limiting, with some discrimination.
Rating plate
E60
350A
Ui 1000V
Ics = 100% Icu
220/440 42480/690 42
Icw 42kA/1s cat.B
UTE VDE BS CEI UNE AS NEMAIEC 60947-2 50/60Hz
Ue Icu(V) (kA)
Masterpact
Uimp 12kV
NW08 N1
Rated current x 100 A
Suitability for isolation
Performance level
Rated insulation level
Rated short-time withstand current
Rated operational voltage
Ultimate breaking capacityImpulse withstand voltage
Ics: rated service breaking capacityIcu: ultimate breaking capacity
Type of device:circuit breaker or switch-disconnector
Frequency
Standards
E51
288A
E60
036A
Icu kA at 415 VIcs = 100% Icu150
100
65
42
L1 H3H2
H1
N1
160012001000800 2000 2500 3200 4000 5000 6300
E46
004A
masterpact II
MERLIN GERIN
NX 08 HA10
Ui 1000V Uimp 12kV
Ue690
(V)
50kA/1s
IEC 947-2
50/60Hz
EN 60947-2
UTE VDE BS CEI UNE AS NBMA
Masterpact NW08-63 Schneider Electric4
Discovering Masterpact
Masterpact circuit breakers are available in drawout and fixed versions.The drawout version is mounted on a chassis and the fixed version is installedusing fixing brackets
Drawout version
Fixed version
E51
205C
E51
289C
Masterpact NW08-63 Schneider Electric5
Chassis
E60
037A
Carrying grip
Drawout grip
"Connected", "test" or "disconnected"position indicator
Locking by keylocks
Safety shutters
Shutter position indication and locking
Crank storage
Locking by padlocks
Door interlock Crank
Arc-chute cover
Disconnecting-contact cluster
Crank socketPosition release button
Carriage switch terminals
Auxiliary terminal shield
Racking interlock
Mismatchprotection
Shutterlockingblocks
Carriageswitchterminals
Carriage switchterminals
Control-unitcontact terminals
Controlauxiliaryterminals
ON/OFFindicationcontactterminals
Masterpact NW08-63 Schneider Electric6
Circuit breaker / switch-disconnector
E60
038A
MCH gear motor forelectrical charging ofthe operating mechanism
Operating-mechanismcharging handle
PF "ready to close"contact
SDE/2 "fault-trip"indication contactor Res electricalremote reset
Terminal block forthe control unit andthe SDE contact(s)
MX/2 opening release orMN undervoltage release
XF closing release
MX/1 opening release
Closing pushbutton
Opening pushbutton
Operation counter
Carrying grip
SDE/1 "fault-trip"indication contact
Arc chute
Block of 4 OF "ON/OFF"indication contacts
Terminal block forthe control auxiliaries
2 Blocks of 4 additional OF"ON/OFF" contacts or EF combined"connected/closed" contacts
Keylocking kit
Locking by padlocks
BPFE electrical closing pushbutton
Control unit
Terminal block for the ON/OFFindication contacts
Discovering Masterpact
Masterpact NW08-63 Schneider Electric7
Front
E60
039A
RESET
Indicator for positionof the main contacts
"Springs charged"and "Ready to close"indicator
Locking by padlockor lead-seal coverfor pushbuttons
Rating plate
Trip indication buttonused to reset before closing
Masterpact NW08-63 Schneider Electric8
Understanding the controls andindications
Circuit breaker open anddischarged
Circuit breaker closed anddischarged
Circuit breaker open,charged and not "readyto close"
Circuit breaker closed,charge and not "ready tolocse"
Circuit breaker open,charged and "ready toclose"
Using MasterpactE
5132
0B
Push OFFO
IPush ON
Push OFFO
IPush ON
Push OFFO
IPush ON
Push OFFO
IPush ON
E51
207A
E51
210A
E51
206A
E51
211
E51
209A
Push OFFO
IPush ON
Test
RESET
Masterpact NW08-63 Schneider Electric9
The charge status is indicated as follows. The springs in the circuit breaker operating mechanism must be charged to storethe energy required to close the main contacts. The springs may be chargedmanually using the charging handle or automatically by the optional MCH gearmotor.
Manual charging.Pull the handle down sixtimes until you hear a"clack".
Automatic charging.If the MCH gear motor isinstalled, the spring isautomatically rechargedafter each closing.
Charging the circuit breaker
Test
E60
370A
E51
213A
E51
290A
Push OFFO
IPush ON
or
Masterpact NW08-63 Schneider Electric10
Using Masterpact Closing the circuit breaker
Locally (electrical)
Closing conditionsClosing (i.e. turning the circuit ON) is possible only if the circuit breaker is"ready to close".The prerequisites are the following: device open (OFF); springs charged; no opening order present.
If the circuit breaker is not "ready to close" when the order is given, stop the orderand start again when the circuit breaker is "ready to close".
Remotely
Enabling or disabling the anti-pumping functionThe purpose of the mechanical anti-pumping function is to ensure that a circuitbreaker receiving simultaneous opening and closing orders does not open andclose indefinitely.If there is a continuous closing order, after opening the circuit breaker remainsopen until the closing order is discontinued. A new closing order then closes thecircuit breaker. This function can be disabled by wiring the closing release in serieswith the PF "ready to close" contact.
Press the electrical closingpushbutton. By adding anXF closing release, thecircuit breaker can be closedremotely.
BPFE XF
When connected to a remote control panel, the XFclosing release (0.85 to 1.1 Un) can be used to closethe circuit breaker remotely.
XF
E51
215A
E51
293A
E51
294A
E51
294A
Device not "ready to close"
Device "ready to close"
Closing the circuit breaker
Locally (mechanical)Press the mechanical ON pushbutton.
Push OFFO
Pus
E51
291A
E51
292A
E51
216A
E51
214A
Masterpact NW08-63 Schneider Electric11
Opening the circuit breaker
LocallyPress the OFF pushbutton.
RemotelyUse one of the following solutions: one or two MX opening releases (MX1 and MX2, 0.7 to 1.1 Un); one MN undervoltage release (0.35 to 0.7 Un); one MN undervoltage release (0.35 to 0.7 Un) with a delay unit. (R or Rr).
MX1, MX2, MN Delay unit
When connected to a remote control panel, these releases can be used to openthe circuit breaker remotely.
E51
216A
E51
293A
E51
294
E51
296A
E51
217A
3 6
MNUVR
1012
100/130 V
AC/DC
S
0.5 1
3 1.5
Retardateur de MN
Time delay for UVR
4 5 6
1 2 3
1 2 3
Push
IPush ON
Masterpact NW08-63 Schneider Electric12
Using Masterpact
The circuit breaker signals a fault trip by: a mechanical indicator on the front one or two SDE "fault-trip" indication contacts (SDE/2 is optional).
Resetting after a fault trip
Remotely
Use the Res electrical remote reset option (not compatible with an SDE/2).
LocallyIf the circuit breaker is not equipped with the automatic reset option, reset itmanually.
E51
216A
E51
297B
E51
293A
E51
298B
RESET
Masterpact NW08-63 Schneider Electric13
E51
283A
E51
300B
E51
301B
E51
302B
E51
303B
E51
303B
E51
304B
E51
305B
Test
Push OFF
O IPush ON
Push OFF
O IPush ON
E51
337A
Locking the controlsDisabling circuit-breaker local closing and opening
Pushbutton locking using a padlock(shackle diameter 5 to 8 mm), a lead seal or screws.
UnlockingRemove the padlock,lead seal or screws.
Padlock. Lead seal.
LockingClose the covers. Insert the padlock
shackle, lead seal orscrews.
Lift the covers and swingthem down.
The pushbuttons are nolonger locked.
Screws.
Masterpact NW08-63 Schneider Electric14
Using Masterpact
E51
217A
E51
306A
E51
307A
E51
218A
E51
308A
Push
IPush ON
Push
IPush ON
Push OFFO
Pus
Combination of locking systemsTo disable circuit-breaker closing using the pushbuttons or remotely,use as needed: a padlock; one or two keylocks; a combination of the two locking systems.
Locking the controlsDisabling local and remote closing
CheckThe closing control isinoperative.
UnlockingRemove the padlock.
Pull out the tab. Insert the padlockshackle.
LockingOpen the circuit breaker.
Install one to three padlocks(maximum shackle diameter 5 to 8 mm)
Masterpact NW08-63 Schneider Electric15
E51
218A
Push
IPush ON
Push OFFO
Pus
Four types of keylocks are available.
E51
271A
E51
312A
E51
313A
E51
319A
E51
269A
RONIS PROFALUX CASTELL
E51
272A
KIRK
Locking the controls with one or two keylocks
E51
217A
E51
310A
E51
311A
Push
IPush ON
E51
270A
CheckThe closing control isinoperative.
UnlockingInsert the key. Turn the key. The key cannot be
removed.
Turn the key. Remove the key.LockingOpen the circuit breaker.
Masterpact NW08-63 Schneider Electric16
Using the Masterpactdrawout chassis
Identifying the circuit breakerpositions
"connected" position
E51
222A
The indicator on the front signals the position of the circuit breaker in the chassis.
E51
219A
"test" position
E51
220A
E51
314A
"disconnected" position
E51
221A
E51
316A
E51
315A
Test
Test
Test
Test
26 mm
Test
Masterpact NW08-63 Schneider Electric17
Racking
PrerequisitesTo connect and disconnect Masterpact, the crank must be used. The lockingsystems, padlocks and the racking interlock all inhibit use of the crank.
Removing the rails
The circuit breaker is in "connected" position. The circuit breaker is in"test" position.
E51
223B
The circuit breaker is in "test" position.Remove the crank or continue to"disconnected" position.
The circuit breaker is in"disconnected" position.
Press the release tabsand pull the rails out.
To put the rails back in, press therelease tabs and push the rails in.
E51
226B
E51
224B
Test
Test
1
Test
Test
2
Test
Test
3
Test
56
4
Test
2
1
Test
3
These operations require that all chassis-locking functions be disabled(see page 21).
Caution. The right-hand rail cannot beremoved if the crank has not been removedor if the circuit breaker is not fullydisconnected.
Withdrawing the circuit breaker from the "connected"to "test" position, then to "disconnected" position
Masterpact NW08-63 Schneider Electric18
Position the circuit breaker on the rails.Check that it rests on all four supports.
E51
227A
Open the circuit breaker(in any case, it opensautomatically duringconnection).
E51
217A
Push the circuit breaker into the chassis, taking care not to push on the control unit.
E51
230B
For complete information on Masterpacthandling and mounting, see the installationmanual(s).
Before mounting the circuit breaker,make sure it matches the chassis.
Racking the circuit breaker from the "disconnected" to "test"position, then to "connected" positionThe device is in"disconnected" position
The device is in "test"position.
12
Test
Test
56
Test Test
TestTest
Test
3 4
Using the Masterpactdrawout chassis
Test
Push
IPush ON
Racking
Inserting Masterpact
The device is in "test" position.Remove the crank or continueto "connected" position.
The device is in"connected" position.
If you cannot insert the circuit breakerin the chassis, check that the mismatchprotection on the chassis correspondsto that on the circuit breaker.
E51
228B
E51
227A
Masterpact NW08-63 Schneider Electric19
Matching a Masterpactcircuit breaker with its chassis
To set up a mismatch-preventioncombination for the circuit breaker andthe chassis, see the mismatch-preventioninstallation manual.
E51
317B
The mismatch protection ensures that a circuit breaker is installed only in a chassiswith compatible characteristics.
A B C DA B C EA B C FA B C GA B D EA B D FA B D GA B E FA B E GA B F GA C D EA C D FA C D GA C E FA C E GA C F GA D E FA D E GA D F GA E F G
B C D EB C D FB C D GB C E FB C E GB D E FB D E GB D F GC D E FC D E GC E F GD E F G
5 6 74 6 74 5 74 5 63 6 73 5 73 5 63 4 73 4 63 4 52 6 72 5 72 5 62 4 72 4 62 4 52 3 72 3 62 3 52 3 4
1 6 71 5 71 4 71 4 61 3 71 3 61 3 51 3 41 2 71 2 61 2 41 2 3
12
34
65
7
AB
CD
FE
G
The possible combinations are listed below.
Masterpact NW08-63 Schneider Electric20
Locking the switchboard door
Disabling door opening
E51
234A
Enabling door openingPut the Masterpact in"disconnected" position.
E51
236A
The door is unlocked.
The locking device is installed on the left or right-hand side of the chassis: when the circuit breaker is in "connected" or "test" position, the latch is lowered
and the door is locked when the circuit breaker is in "disconnected" position, the latch is raised
and the door is unlocked.
E51
231B
E51
232A
E51
235A
E51
233A
Put the Masterpact in"test" or "connected"position.
The door is locked.
Test
Test
Test
Using the Masterpactdrawout chassis
Close the door.
Masterpact NW08-63 Schneider Electric21
Locking the circuit breakerin position
Circuit breaker in "disconnected"position.
E51
237A
Pull out the tab.
E51
239A
E51
238A
Insert the shackle (max. diameter5 to 8 mm) of the padlock(s).
E51
243B
E51
240A
Padlocks and keylocksmay be used together.
Unlocking.
Release the tab.
The crank can be inserted.
The crank cannot be inserted.
E51
241A
E51
242A
Test
Test
Test
OK
Test
Test
Test
Test
Combination of locking systemsTo disable local or remote opening or closing of the circuit breaker, use as needed: one to three padlocks; one or two keylocks; a combination of the two locking systems.
Remove the padlock(s).
Disabling connection when the circuit breaker is in"disconnected" position, using one to three padlocks(maximum shackle diameter 5 to 8 mm)
Locking
Masterpact NW08-63 Schneider Electric22
Test
OK
Test
E51
247A
E51
246A
E51
243B
E51
270A
E51
269A
E51
271A
E51
272A
Test
E51
245A
E51
240A
Test
E51
237A
E51
244A
Test
Test
Test
Unlocking
Four types of keylocks are available
The crank can beinserted.
Insert the key(s). Turn the key(s).
RONIS PROFALUX CASTELL
Padlocks and keylocks may be usedtogether.
Remove the key(s). The crank cannot be inserted.
Locking the circuit breakerin position
Disabling connection when the circuit breaker is in"disconnected" position, using one or two keylocks.
LockingCircuit breaker in"disconnected" position. Turn the key(s).
KIRK
Masterpact NW08-63 Schneider Electric23
Set the circuit breaker to "disconnected"position. Remove the circuit breakerfrom the chassis.
E51
237A
Insert the crank.
E51
318B
E51
248A
Turn the catch to the left. The circuit breaker can now be locked in all positions.
E51
251A
For this operation, the circuit breakermust be removed from the chassis.
Locking the circuit breaker when the door is open
When the door is open, the crank cannotbe inserted.
E51
285A
When the door is closed, the crankcan be inserted.
It is possible to modify the padlock and keylock locking function. Instead of lockingonly in "disconnected" position, it is possible to lock the circuit breaker in allpositions.
.
E51
250A
Test
Test
Test
Test
Test
Test
All-positionlocking
Locking in"disconnected" position
rear view
Test
Disabling use of the crank in all positions
Masterpact NW08-63 Schneider Electric24
Using the Masterpactdrawout chassis
Locking the safety shuttersPadlocking inside the chassis
Using the shutter locking blocks
Four locking possibilities
E51
338A
Remove the block(s) fromtheir storage position.
E51
339A
Position the block(s) on the guide(s).
E51
340A
Lock the block(s) using a padlock.
E51
341A
E51
343A
Top and bottom shuttersnot locked.
Top shutter locked,Bottom shutter not locked.
Top shutter not locked,Bottom shutter locked.
Top and bottom shutterslocked.
1
2
3Ø5 Ø8
Masterpact NW08-63 Schneider Electric25
E60
042A
E51
252A
E51
254A
Pull out the left-hand tab to lockthe top shutter.
E51
255A
This system offers two functions:c padlocking of the top or bottom shutters;c indication of the position of each shutter:v shutter open;v shutter closed.
Locking
Pull out the right-hand tabto lock the bottom shutter.
Padlocking or position indication onthe front
Insert a padlock(shackle 5 to 8 mm).
E51
253A
Unlocking
Insert a padlock(shackle 5 to 8 mm).
E51
257A
Remove the padlock. Release the tab(s).
E51
256A
Test
Test
TestTest
TestTest
E51
345A
E51
346A
Test
Test
Pull out both tabsto lock both shutters.
Insert a padlock(shackle 5 to 8 mm).
Test
Test
Test
Test
Test
Top shutter closed.Bottom shutter open.
Top shutter open.Bottom shutter closed.
Top and bottomshutters open.
Top and bottomshutters closed.
Masterpact NW08-63 Schneider Electric26
Identifying the electricalauxiliaries
Identification of the connection terminalsLayout of terminal blocks
E60
352A
Com UC1 UC2 UC3 UC4 M2C/M6C SDE1E5E3E1
E6E4E2
Z5Z3Z1
M1Z4Z2
M2T3T1
M3T4T2
F2 +VNF1 -
V3V2V1
484/Q3474/Q2471/Q1
184/K2182181/K1
848281
MN/MX2D2/C12
/C13D1/C11
MX1C2C3C1
XFA2A3A1
PF254252251
MCHB2B3B1
OF24244242241
OF23234232231
OF22224222221
OF21214212211
OF14144142141
OF13134132131
OF12124122121
OF11114112111
OF4444241
OF3343231
OF3343231
OF2242221
OF11412
CE3334
332331
CE2324
322321
CE1314
312311
ComUC1
UC2UC3
UC4M2C
/M6C
SDE1
E5E3
E1
E6E4
E2
Z5Z3
Z1
M1Z4
Z2
M2T3
T1
M3T4
T2F2
+VNF1
-
V3V2
V1484
/ Q3474
/ Q2471
/ Q1
184/ K
2182181
/ K1
8482
81
MN/MX2D2/
C12
/
C13
D1/ C1
1
MX1C2
C3C1
XFA2
A3A1
PF254
252251
MCHB2
B3B1
OF24244
242241
OF23234
232231
OF22224
222221
OF21214
212211
OF14144
142141
OF13134
132131
OF12124
122121
OF11114
112111
OF444
4241
3231
OF334 OF2
2422
21
OF114
1211
CT3934
932931
CT2924
922921
CT1914
912911
CD3834
832831
CD2824
822821
CD1814
812811
EF24248246245
EF23238236235
EF22228226225
EF21218216215
EF14148146145
EF13138136135
EF12128126125
EF11118116115
CE3334332331
CE2324322321
CE1314312311
Com UC1 UC2 UC3 UC4 M2C/M6C SDE1E5E3E1
E6E4E2
Z5Z3Z1
M1Z4Z2
M2T3T1
M3T4T2
F2 +VNF1 -
V3V2V1
484/Q3
474/Q2471/Q1
184/K2182
181/K1
848281
CD3834832831
CD2824822821
CD1814812811
MN/MX2D2/C12
/C13D1/C11
MX1C2C3C1
XFA2A3A1
PF254252251
MCHB2B3B1
OF24244242241
OF23234232231
OF22224222221
OF21214212211
OF14144142141
OF13134132131
OF12124122121
OF11114112111
OF4444241
3231
OF334
OF2242221
OF11412
CT3934932931
CT2924922921
CT1914912911
11
11
or
or or or or or or or or
CE6364362361
CE5354352351
CE4344342341
or
or
CE9394392391
CE8384382381
CE7374372371
CD6864862861
CD5854852851
CD4844842841
Masterpact NW08-63 Schneider Electric27
Identifying the electricalauxiliaries
Electrical diagramsFixed and drawout devices
A P H
/
/
E60
062A
The diagram is shown with circuitsde-energised, all devices open, connectedand charged and relays in normal position.
E60
063A
E60
064A
E60
067A
Power
Com: E1-E6 communication
UC1: Z1-Z5 zone selective interlocking;Z1 = ZSI OUT SOURCEZ2 = ZSI OUT; Z3 = ZSI IN SOURCEZ4 = ZSI IN ST (short time)Z5 = ZSI IN GF (earth fault)M1 = Vigi module input (Micrologic 7)
UC2: T1, T2, T3, T4 = external neutral;M2, M3 = Vigi module input(Micrologic 7)
UC3: F2+, F1– external 24 V DC powersupply
VN external voltage connector
UC4: V1, V2, V3 optional external voltageconnectoror
M2C: 2 programmable contacts (internalrelay); ext. 24 V DC power supplyrequiredor
M6C: 6 programmable contacts (externalrelay); ext. 24 V DC power supplyrequired.
Control unit
Control unit Remote operation
SDE2: Fault-trip indication contactorRes: Remote reset
SDE1: Fault-trip indication contact (supplied as standard)
MN: Undervoltage releaseorMX2: Shunt release
MX1: Shunt release (standard or communicating)
XF: Closing release (standard or communicating)
PF: "Ready to close" contact
MCH: Gear motor (*)
Note:When communicating MX or XF releases are used, the third wire(C3, A3) must be connected even if the communications module isnot installed.
A: Digital ammeterP: A + power meter + programmable protectionH: P + harmonics
471
S1
474
484
S2
474
Q1
Q2
Q3
M6C
M2C M6Cor
MX1
C2
C3
C1
BPO
A2
A3
A1
BPF
XFPF
252
254
251
read
y to
clos
e
B1
MCH
B3
B2
char
ged
CH
E60
065A
E46
136A
E46
137A
E60
066A
/
/
T4
T3
T2
T1
Micrologic
Z4
Z3
Z2
Z1
Z2
Z1N L3L2L1
Q
power upstream cb
Z5
VN
V1
V2
V3
M3
M2
M1
F2+
F1
I
U
downstream cb
24 V DCX2
X1
SG
2
SG
1
Z3
Z4
Z5
Z2
Z1
Z3
Z4
Z5
181
182
184
SDE2
faul
t
81
82 84
SDE1
K2
Res
K1
faul
t
or
D2
D1
AT
MN MX2
C12
C11
or
Remote operation
Remote operationSDE2 / Res SDE1 MN / MX2 MX1 XF PF MCH
184 K2 84 D2 C12 C2 A2 254 B2
182 82 C3 A3 252 B3
181 K1 81 D1 C11 C1 A1 251 B1
Control unitCom UC1 UC2 UC3 UC4 / M2C / M6C
E5 E6 Z5 M1 M2 M3 F2+ V3 484 Q3
E3 E4 Z3 Z4 T3 T4 VN V2 474 Q2
E1 E2 Z1 Z2 T1 T2 F1 – V1 471 Q1
/
/
/
/
/
/
Masterpact NW08-63 Schneider Electric28
Identifying the electricalauxiliaries
Electrical diagrams
OF 24 or ON/OFF indication contacts
EF 24 Combined "connected/closed"indication contacts
OF 23 orEF 23
OF 22 orEF 22
OF 21 orEF 21
OF 14 orEF 14
OF 13 orEF 13
OF12 orEF12
OF11 orEF11
OF4: ON/OFFOF3 indicationOF2 contactsOF1
OF24 OF23 OF22 OF21 OF14 OF13 OF12 OF11
244 234 224 214 144 134 124 114
242 232 222 212 142 132 122 112
241 231 221 211 141 131 121 111
E60
357A
EF24 EF23 EF22 EF21 EF14 EF13 EF12 EF11
248 238 228 218 148 138 128 118
246 236 226 216 146 136 126 116
245 235 225 215 145 135 125 115
E60
358A
E60
361A
E60
371A
E60
362A
Indication contacts
Indication contacts
CD3: Disconnected
CD2 -position
CD1 contacts
or
CE6: ConnectedCE5 positionCE4 contacts
or or or or or or or or
CD3 CD2 CD1 CE3 CE2 CE1 CT3 CT2 CT1
834 824 814 334 324 314 934 924 914
832 822 812 332 322 312 932 922 912
831 821 811 331 321 311 931 921 911
CE6 CE5 CE4 CE9 CE8 CE7
364 354 344 394 384 374
362 352 342 392 382 372
361 351 341 391 381 371
or or
CE3: Connected
CE2 -position
CE1 contacts
Indication contactsOF4 OF3 OF2 OF1
44 34 24 14
42 32 22 12
41 31 21 11
Chassis contacts
Drawout device only
SDE1, OF1, OF2, OF3, OF4 supplied as standard
Interconnected connections(only one wire per connection point)
XXX
Chassis contacts
Chassis contacts
12 1411
22 2432 3431 21
OF4
42 4441
OF3 OF2 OF1
open closed
OF . .
closed connectedandclosed
OF . .
CE
EF
not connectedorconnectedand open
or
. . 1
. . 2
. . 4
. . 6
. . 8
. . 5 331
332
334
CE3
connected
321
322
324
CE2
311
312
314
CE1
914
912
911
924
922
921
CT3
934
932
931
CT2 CT1
test
331
332
334
CE3
connected
321
322
324
CE2
311
312
314
CE1
CT3: Test-position
CT2 contacts
CT1
or
CE9: Connected
CE8 position
CE7 contacts
or
CD6: Disconnected
CD5 position
CD4 contacts
Key:
Masterpact NW08-63 Schneider Electric29
E60
363A
Operation
The carriage switches indicatethe "connected", "test" and "disconnected"positions.
Circuit breaker
Chassis
E60
364A
The ON/OFF indication contacts signalthe status of the device main contacts.
test position
separation of the auxiliary circuits separation of the main circuits
completely connected
completely disconnected
open
open
open
closed
closed
d> 12.7 mm d> 25.4 mm
open
open
open
closed
closed
closed
closedCT: test positioncarriage switch
CD: disconnected-positioncarriage switch
CE: connected-positioncarriage switch
open
closed
open
closed
closed
completely closed completely open
main contacts
OF : ON/OFF (closed/open)indication changeover contacts
closed
open
open
Masterpact NW08-63 Schneider Electric30
Discovering Masterpact'saccessories
Micrologic control units
E51
329A
E46
108A
For more in-depth information,see the control-unit user manual
Micrologic control units
Long-time rating plugs
M2C and M6C programmable contacts
standard equipment,one per device part numbers:
(long-time rating plug andconnection cables notincluded, see below)Micrologic 2.0: 33069Micrologic 5.0: 33070Micrologic 2.0A: 33071Micrologic 5.0A: 33072Micrologic 6.0A: 33073Micrologic 7.0A: 33074Micrologic 5.0P: 47058Micrologic 6.0P: 47059Micrologic 7.0P: 47060Micrologic 5.0H: 47061Micrologic 6.0H: 47062Micrologic 7.0H: 47063 part numbers for
connection cables:47065for drawout device:47805.
depending on themodel, control units offerin addition: fault indications; measurement of
electrical parameters(current, voltage, power,etc.); harmonic analysis; communication.
M2C: 2 contacts(6 A-240 V) M6C: 6 contacts
(6A-240V). permissible load on
each of the M6C relayoutputs: 240 V AC:
5 A where p.f = 0.7 380 V AC:
3 A where p.f = 0.7 24 V DC:
8 A where L/R = 0 48 V DC:
1.5 A where L/R = 0 125 V DC:
0.4 A where L/R = 0 250 V DC:
0.15 A where L/R = 0 M6C supply voltage:
24 V DC ± 5% M6C maximum
consumption: 100 mA
standard equipment,one per control unit. part numbers:
0.4 to 1 x Ir setting:335420.4 to 0.8 x Ir setting:335430.8 to 1 x Ir setting:33544Off (no long-timeprotection): 33545.
the plugs determinethe setting range for theLong-time protection.
optional equipment,used with Micrologic Pand H control units. part numbers
(connection cables notincluded, see below):2 M2C contacts:47086 + 470876 M6C contacts: 47066 part numbers for
connection cables:for fixed device: 47074for drawout device:47849.
contacts can beprogrammed using thekeypad on the controlunit or via the COMoption. they indicate: the type of fault instantaneous or
delayed thresholdoverruns.
Masterpact NW08-63 Schneider Electric31
Indication contacts
ON/OFF indication contacts (OF) 4 changeover contacts rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1): 480 V: 10 A (rms) 600 V: 6 A (rms) breaking capacity
for DC power(DC12 as per 947-5-1):250 V: 3 A.
E51
331A
Additional ON/OFF indication contacts (OF)
optional equipment,two blocks of 4 OFcontacts per device part numbers
(connection cables notincluded, see below):one block of 4 OFcontacts: 47887 part numbers for
connection cables:for fixed device:47074for drawout device:47849
changeover contacts rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1): 480 V: 10 A (rms) 600 V: 6 A (rms) breaking capacity
for DC power(DC12 as per 947-5-1):250 V: 3 A.
Combined "connected/closed" contacts (EF) optional equipment, 8
EF contacts per device each contact is
mounted in place of theconnector of anadditional OF contact part number:
one EF contact: 48477
the contact combinesthe "device connected"and the "device closed"information to producethe "circuit closed"information
changeover contacts rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1): 240 V: 10 A (rms) 380 V: 10 A (rms) 480 V: 10 A (rms) 600 V: 6 A (rms) breaking capacity
for DC power(DC12 as per 947-5-1): 48 V: 2.5 A 130 V: 0.8 A 250 V: 0.3 A.
"Fault-trip" indication contact (SDE/1)
standard equipment oncircuit breakers, oneSDE/1 contact per device not available for switch-
disconnector versions
changeover contact rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1): 240 V: 10 A (rms) 380 V: 5 A (rms) 480 V: 5 A (rms) 600 V: 3 A (rms) breaking capacity
for DC power(DC12 as per 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.15 A.
standard equipment:4 OF per device.
OF contacts indicatethe position of maincontacts they trip when the
minimum isolationdistance between themain contacts is reached
OF contacts indicatethe position of the maincontacts they trip when the
minimum isolationdistance between themain contacts is reached
the contact providesa remote indication ofdevice opening due toan electrical fault
Masterpact NW08-63 Schneider Electric32
Discovering Masterpact'saccessories
E51
298B
optional equipment forcircuit breakers, oneadditional SDE/2 contactper device not available for switch-
disconnector versions not compatible with the
Res option part numbers
(connection cables notincluded, see below):one SDE/2 contact:47915 part numbers for
connection cables:for fixed device: 47074for drawout device:47849
Additional "fault-trip" indication contact (SDE/2)
the contact remotelyindicates device openingdue to an electrical fault
E51
298B
E51
332A
changeover contact rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1): 240 V: 10 A (rms) 380 V: 5 A (rms) 480 V: 5 A (rms) 600 V: 3 A (rms) breaking capacity
for DC power(DC12 as per 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.15 A.
optional equipment,one Res per device not compatible with the
SDE/2 option part numbers
(connection cables notincluded, see below):110/130 V AC: 47901220/240 V AC: 47902 part numbers for
connection cables:for fixed device:47074for drawout device:47849
Electrical reset after fault trip (Res)
the contact remotelyresets the devicefollowing tripping due toan electrical fault
"Springs charged" limit switch contact (CH)
the contact indicatesthe "charged" status ofthe operating mechanism(springs charged)
"Ready to close" contact (PF)
Indication contacts
standard equipment,one CH contact perdevice
changeover contact rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1): 240 V: 10 A (rms) 380 V: 5 A (rms) 480 V: 5 A (rms) 600 V: 3 A (rms) breaking capacity
for DC power(DC12 as per 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.25 A.
optional equipment,one PF contact perdevice part numbers
(connection cables notincluded, see below):one PF contact: 47080 part numbers for
connection cables:for fixed device:47074for drawout device:47849
the contact indicatesthat the device may beclosed because all thefollowing are valid: circuit breaker is open spring mechanism is
charged a maintained closing
order is not present a maintained opening
order is not present
changeover contact rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1): 240 V: 10 A (rms) 380 V: 5 A (rms) breaking capacity
for DC power(DC12 as per 947-5-1): 48 V: 3 A 125 V: 0.3 A 250 V: 0.15 A.
Masterpact NW08-63 Schneider Electric33
Auxiliaries for remote operation
Gear motor (MCH) the gear motor
automatically chargesand recharges the springmechanism
charging time:4 seconds max. consumption: 180 VA AC 180 W DC inrush current:
2 to 3 In for 0.1 second operating rate:
maximum 3 cyclesper minute.
E51
290A
E51
294A
Opening releases MX/1 and MX/2, closing release XF optional equipment,
1 or 2 MX releases perdevice, 1 XF per device the function (MX or XF)
is determined by wherethe coil is installed part numbers
(connection cables notincluded, see below): standard version:
12 V AC50/60 Hz / DC: 3365824/30 V AC50/60 Hz / DC: 3365948/60 V AC50/60 Hz / DC: 33660100/130 V AC50/60 Hz / DC: 33661200/250 V AC50/60 Hz / DC: 33662277 V AC50/60 Hz / DC: 33663380/480 V AC50/60 Hz / DC: 33664500/550 V AC50/60 Hz / DC: 33665. communicating version
(with COM option):12 V AC50/60 Hz / DC: 3303224/30 V AC50/60 Hz / DC: 3303348/60 V AC50/60 Hz / DC: 33034100/130 V AC50/60 Hz / DC: 33035200/250 V AC50/60 Hz / DC: 33036240/277 V AC50/60 Hz / DC: 33037380/480 V AC50/60 Hz / DC: 33038
part numbers forconnection cables:for fixed device:47074for drawout device:47849 the MX release
instantaneously opensthe circuit breaker whenenergised the XF release
instantaneously closesthe circuit breaker whenenergised, if the device is"ready to close"
device response time: MX: 50 ms ± 10 XF: 70 ms +10 / -15
> 3200 A: 80 ms ± 10 operating threshold: MX: 0.7 to 1.1 x Un XF: 0.85 to 1.1 x Un the supply can be
maintained consumption: pick-up (80 ms):
200 VA hold: 4.5 VA.
optional equipment,one MCH gear motorper device part numbers
(connection cables notincluded, see below):100/130 V AC: 47893200/240 V AC: 47894277 V AC: 47895380/415 V AC: 47896400/440 V AC: 47897480 V AC: 4789824/30 V DC: 4788848/60 V DC:47889100/125 V DC: 47890200/250 V DC: 47891. part numbers for
connection cables:for fixed device:47074for drawout device:47849
Masterpact NW08-63 Schneider Electric34
Discovering Masterpact'saccessories
E51
296A
optional equipment,1 MN with delay unitper device. delay-unit part numbers
(must be ordered inaddition to the MN):48/60 V AC50/60 Hz / DC: 33680100/130 V AC50/60 Hz / DC: 33681200/250 V AC50/60 Hz / DC: 33682380/480 V AC50/60 Hz / DC: 33683.
Delay unit for MN releases
the unit delaysoperation of the MNrelease to eliminatecircuit-breaker nuisancetripping during shortvoltage dips the unit is wired in
series with the MN andmust be installed outsidethe circuit breaker
E51
333A
device response time:0.5, 1, 1.5, 3 seconds operating threshold: opening:
0.35 to 0.7 x Un closing: 0.85 x Un consumption: pick-up (80 ms):
200 VA hold: 4.5 VA
optional equipment,1 BPFE per device part numbers
(connection cables notincluded, see below):48534 part numbers for
connection cables:for fixed device:47074for drawout device:47849
Electrical closing pushbutton (BPFE)
located on the frontface of the device, thispushbutton carries outelectrical closing of thecircuit breaker via the XFrelease, taking intoaccount all the safetyfunctions that are part ofthe control/monitoringsystem of theinstallation.
3 6
MNUVR
1012
100/130 V
AC/DC
S
0.5 1
3 1.5
Retardateur de MN
Time delay for UVR
4 5 6
1 2 3
1 2 3
Instantaneous undervoltage releases (MN)
optional equipment,1 MN per device not compatible with the
MX/2 opening release part numbers
(connection cables notincluded, see below):24/30 V AC50/60 Hz / DC: 3366848/60 V AC50/60 Hz / DC: 33669100/130 V AC50/60 Hz / DC: 33670200/250 V AC50/60 Hz / DC: 33671380/480 V AC50/60 Hz / DC: 33673500/550 V AC50/60 Hz / DC: 33674 part numbers for
connection cables:for fixed device:47074for drawout device:47849
the MN releaseinstantaneously opensthe circuit breaker whenits supply voltage drops
device response time:90 ms ±5 operating threshold: opening:
0.35 to 0.7 x Un closing: 0.85 x Un consumption: pick-up (80 ms):
200 VA hold: 4.5 VA
Auxiliairies for remote operationE
5129
4A
Masterpact NW08-63 Schneider Electric35
Device mechanical accessories
Operation counter (CDM)
optional equipment,one CDM per device part number: 48535
the operation countersums the number ofoperating cycles.
E46
103A
E46
120A
E46
118A
0399
Escutcheon (CDP)
optional equipment,one CDP per device part numbers:
for fixed device:48601for drawout device:48603
the CDP increases thedegree of protection to IP40 and IK 07 (fixed anddrawout devices).
Transparent cover (CCP)
optional equipment,one CCP per deviceequipped with a CDP part number: 48604 (for
fixed and drawoutdevices)
mounted with a CDP,the CCP increases thedegree of protection to IP55 and IK 10 (fixed anddrawout devices).
Masterpact NW08-63 Schneider Electric36
Device mechanical accessoriesDiscovering Masterpact'saccessories
E46
238A
E46
579A
Transparent cover for pushbutton locking using a padlock,lead seal or screws
optional equipment,one locking cover perdevice part number: 48536
the transparent coverblocks access (togetheror separately)to the pushbuttons usedto open and close thedevice locking requires a
padlock, a lead sealor two screws.
Device locking in the OFF position using a padlock
optional equipment,one locking systemper device part number: 48539
the unit inhibits localor remote closing of thedevice up to three padlocks
may be used for locking.
Device OFF position locking kit for keylocks
optional equipement,one locking kit per device part numbers (locks not
included):for Profalux or Roniskeylocks: 48541for Castell keylocks:48543for Kirk keylocks:48542
the kit inhibits local orremote closing of thedevice.
Keylocks required for the device locking kit
E51
286A
E51
273A
E51
287A
E51
274A
Ronis
Profalux
one or two keylocks perlocking kit part numbers: Ronis:
1 keylock: 419402 keylocks: 41950. Profalux:
1 keylock: 428882 keylocks: 42878.
Masterpact NW08-63 Schneider Electric37
Chassis mechanical accessories
optional equipment part numbers
(set of shutters for topand bottom): NW08/NW40:
3 poles: 485874 poles: 48589 NW40b/NW63
3 poles: 485884 poles: 48590
mounted on thechassis, the safetyshutters automaticallyblock access to thedisconnecting contactcluster when the deviceis in the "disconnected"or "test" positions.
IP20.
E51
334A
E46
293A
Ronis
Profalux
Shutter locking blocks
optional equipment:2 blocks for NW08 toNW404 blocks for NW40b toNW63 part number (2 blocks):
48591
the block may bepadlocked. It: prevents connection
of the device locks the shutters in the
closed position.
Shutter position indication and locking on front face
optional equipment part numbers: NW08/NW040:
3 and 4 poles: 48592 NW40b/NW63
3 poles: 485934 poles: 48594
this option located onthe front of the chassis: indicates that the
shutters are closed can be used to
independently orsimultaneously padlockthe two shutters(top and bottom).
Circuit breaker locking in "disconnected" position
Keylocks required with the "disconnected" position lockingsystem
one or two keylocks perlocking system part numbers: Ronis:
1 keylock: 419402 keylocks: 41950 Profalux:
1 keylock: 428882 keylocks: 42878.
E46
946A
E46
561A
E51
286A
E51
273A
E51
287A
E51
274A
Top shutter closed Bottom shutter closed
optional equipment,one locking systemper device part numbers
for Profalux or Roniskeylocks: 48564for Castell keylocks:48566for Kirk keylocks: 48565
mounted on thechassis and accessiblewith the door closed, thissystem locks the circuitbreaker in "disconnected"position using one or twokeylocks the "disconnected"
position locking systemmay be modified to lockthe circuit breaker inall three positions.
Safety shutters
Masterpact NW08-63 Schneider Electric38
Discovering Masterpact’saccessories
Door interlock
optional equipment,one door interlock perchassis part number: 47914
this device inhibitsopening of the cubicledoor when the circuitbreaker is in "connected"or "test" position
it may be mounted onthe left or right-hand sideof the chassis.
E46
652A
E46
124A
Racking interlock
Mismatch protection
Auxiliary terminal shield (CB)
E46
111A
E51
351A
Chassis mechanical accessories
optional equipment,one racking interlock perchassis part number: 48582
this device preventsinsertion of the rackinghandle when the cubicledoor is open
it is mounted on theright-hand side of thechassis
optional equipment,one mismatch protectiondevice per chassis part number: 33767
mismatch protectionoffers twenty differentcombinations that theuser may select toensure that only acompatible circuitbreaker is mountedon a given chassis.
optional equipment,one CB shield perchassis part numbers: NW08/NW040
3 poles: 485954 poles: 48596 NW40b/NW63
3 poles: 485974 poles: 48598
the shield preventsaccess to the terminalblock of the electricalauxiliaries.
Masterpact NW08-63 Schneider Electric39
"Connected", "disconnected" and "test" position carriageswitches (CE, CD, CT)
optional equipment,one to nine carriageswitches standard configuration,
0 to 3 CE, 0 to 3 CD,0 to 3 CT other configurations (by
ordering additionalactuators):0 to 9 CE, 0 CD, 0 CT0 to 6 CE, 0 to 3 CD, 0CT0 to 6 CE, 0 CD, 0 to 3 CT part numbers
(connection cables notincluded, see below): 1 carriage switch:
33170 1 set of actuators for
additional carriageswitches: 48560 part number for
connection cables(per carriage switch):47849
the carriage switchesindicate the threepositions:CE: connected positionCD: disconnectedposition (when theminimum isolationdistance between themain contacts and theauxiliary contacts isreached)CT: test position
changeover contact rated current: 10 A breaking capacity
50/60 Hz for AC power(AC12 as per 947-5-1):240 V: 10 A (rms)380 V: 5 A (rms) breaking capacity for
DC power(DC12 as per 947-5-1):250 V: 0.3 A.
E46
095A
Masterpact NW08-63 Schneider Electric40
Inspecting and testingbefore use
Initial testsProcedure
A general check of the circuit breaker takes only a few minutes and avoids any riskof mistakes due to errors or negligence.A general check must be carried out: prior to initial use; following an extended period during which the circuit breaker is not used.
A check must be carried out with the entire switchboard de-energised.In switchboards with compartments, only those compartments that may beaccessed by the operators must be de-energised.
Electrical testsInsulation and dielectric-withstand tests must be carried out immediately afterdelivery of the switchboard. These tests are precisely defined by internationalstandards and must be directed and carried out by a qualified expert.
Prior to running the tests, it is absolutely necessary to: disconnect all the electrical auxiliaries of the circuit breaker
(MCH, MX, XF, MN, Res electrical remote reset); remove the long-time rating plug on the 7.0 A, 5.0 P, 6.0 P, 7.0 P, 5.0 H, 6.0 H, 7.0 H
control units. Removal of the rating plug disconnects the voltage measurement input.
Switchboard inspectionCheck that the circuit breakers are installed in a clean environment, free of anyinstallation scrap or items(tools, electrical wires, broken parts or shreds, metal objects, etc.).
Conformity with the installation diagramCheck that the devices conform with the installation diagram: breaking capacities indicated on the rating plates; identification of the control unit (type, rating); presence of any optional functions (remote ON/OFF with motor mechanism,
auxiliaries, measurement and indication modules, etc.); protection settings (long time, short time, instantaneous, earth fault); identification of the protected circuit marked on the front of each circuit breaker.
Condition of connections and auxiliariesCheck device mounting in the switchboard and the tightness of power connections.Check that all auxiliaries and accessories are correctly installed: electrical auxiliaries; terminal blocks; connections of auxiliary circuits.
OperationCheck the mechanical operation of the circuit breakers: opening of contacts; closing of contacts.
Check on the control unitCheck the control unit of each circuit breaker using the respective user manuals.
These operations must be carried out inparticular before using a Masterpact devicefor the first time.
Masterpact NW08-63 Schneider Electric41
Note the faultFaults are signalled locally and remotely by the indicators and auxiliary contactsinstalled on circuit breakers (depending on each configuration). See page 12 in thismanual and the user manual of the control unit for information on the faultindications available with your circuit breaker.
Identify the cause of trippingA circuit must never be reclosed (locally or remotely) before the cause of the faulthas been identified and cleared.
A fault may have a number of causes. depending on the type of control unit, fault diagnostics are available. See the user
manual for the control unit. depending on the type of fault and the criticality of the loads, a number of
precautionary measures must be taken, in particular the insulation and dielectrictests on a part of or the entire installation. These checks and test must be directedand carried out by qualified personnel.
Inspect the circuit breaker following a short-circuit check the arc chutes (see page 43). check the contacts (see page 43). check the tightness of connections (see the device installation manual). check the disconnecting-contact clusters (see page 44).
Reset the circuit breakerThe circuit breaker can be reset locally or remotely.See page 12 in this manual for information on how the circuit breaker can be reset.
What to do when the circuitbreaker trips
Masterpact NW08-63 Schneider Electric42
Interval Operations Procedureeach year open and close the device see pages 10 and 11
locally and remotely,successively usingthe various auxiliaries test the operating
sequences see page 8 test the control unit using see the user manual
the mini test kit of the control unitevery two years or check the arc chutes see page 43when the control-unit check the main contacts see page 43maintenance indicator check the tightness of see the devicereaches 100 connections installation manual
check the see page 44disconnecting-contactclusters
Maintaining Masterpactperformance
Recommended maintenanceprogram
Periodic inspections required
Type of Maximum Service life of various partscircuit breaker service life
Arc chutes Main contacts Connecting-rod MX/XF
springs, releases
MCHNW08 to NW16 25000 10000 10000 12500 12500types N1/H1/H2NW08 to NW16 25000 3000 10000 12500 12500type L1NW20 to NW25 20000 440 V: 8000 440 V: 8000 10000 12500types H1/H2 690 V: 6000 690 V: 6000NW20 to NW25 20000 2000 440 V: 8000 10000 12500type H3 690 V: 6000NW20 20000 3000 10000 10000 12500type L1NW32 to NW40 20000 440 V: 5000 440 V: 5000 10000 12500types H1/H2 690 V: 2500 690 V: 2500NW32 to NW40 20000 1250 440 V: 5000 10000 12500type H3 690 V: 2500NW40b to NW63 10000 1500 3000 5000 12500types H1/H2
Recommended program for devices usedunder normal operating conditions:Ambient temperature: -5° C / +60°CNormal atmosphere
Part Intervening entity Description orprocedure
arc chutes user see page 43.main contacts inspection: user see page 43.
replacement:Schneider After SalesSupport
MCH gear motor user see page 9.mechanical userinterlocksconnecting-rod Schneider After Salessprings SupportMX/MN/XF user see pages 10, 11.
Parts requiring replacement, depending on the number ofoperating cyclesThe following parts must be replaced periodically to lengthen the service life of thedevice (maximum number of operating cycles).
Part replacement must be programmed on the basis of the data below, listing theservice life of the various parts in numbers of O/C cycles at the rated current.
Number of O/C cycles at the rated current
Masterpact NW08-63 Schneider Electric43
Arc chutes remove the fixing screws: types N1, H1 and H2 NW 40: two screws types H1 and H2 NW 40b, type H3: three screws type L1: four screws
E51
275A
If the control unit has a maintenanceindicator, there is no need to systematicallycheck the contacts.
If the contacts are worn, have theconcerned poles replaced by the Schneiderservice centre.
Maintenance operations
E51
280A
E51
281A
E51
279A
Wear of main contacts remove the arc chutes close the device and check the contacts
Contacts OK Contacts worn
Contacts OK Contacts worn
E51
276B
E51
277B
E51
282B
E51
278B
Before undertaking any maintenance work,de-energise the installation and fit locks orwarnings in compliance with all applicablesafety standards.
Type H1, H2 ( 4000b A), L1
Type N1, H1, H2, H3 ( 4000 A)
check the arc chutes: chamber not cracked separators not corroded.
If necessary, replace the arc chutes.
Masterpact NW08-63 Schneider Electric44
Disconnecting-contact clusters grease the contacts using the grease listed on
page 45, supplied by Schneider Electric check the contacts as follows: open the circuit breaker; de-energise the busbars; disconnect the circuit breaker; remove the circuit breaker; check the contact fingers (no sign of copper
should be visible); Replace any worn clusters. the position of the clusters must correspond to
the table below.
layout n¡ 1 layout n¡ 2 layout n¡ 3 layout n¡ 4 layout n¡ 5
Maintaining Masterpactperformance
C2
A2
D2
B2
C1
A1
D1
B1
C2
A2
D2
B2
C1
A1
D1
B1
C2
A2
D2
B2
C1
A1
D1
B1
E2
C2
F2
D2
A2
G2
B2
H2
E1
C1
F1
D1
A1
G1
B1
H1
E2
C2
F2
D2
A2
G2
B2
H2
E1
C1
F1
D1
A1
G1
B1
H1
E51
324A
E51
325A
E51
326A
E51
327A
E51
328B
Maintenance operations
Rating NW08 NW10 NW16 NW20 NW25 NW32 NW40 NW40b NW63Type NW12 NW50N1 layout n° 1
2 clusters / pole
H1 layout n° 2 layout n° 3 layout n° 4 layout n° 5 layout n° 4 4 clusters / pole 8 clusters / pole 12 clusters / pole 14 clusters / pole 24 clusters / pole
H2
H3
L1 layout n° 3 layout n° 58 clusters / pole 14 clusters / pole
E60
360A
*pole = ¢—È«
Masterpact NW08-63 Schneider Electric45
Ordering replacement parts
Electrical accessoriesThe electrical accessories that may require replacement are the following: MCH gear motor; MX opening release(s); XF closing release; MN undervoltage release.
See pages 33 and 34 in the "Auxiliaries for remote operation" section for theircharacteristics and part numbers.
E51
335A
E46
109A
Arc chutes
part numbers(1 arc chute): NW type N1
NW08 to NW40 types H1and H2: 47935 NW40b to NW63 types
H1 and H2NW type H3: 47936 NW type L1: 47937.
NW08 to NW40:one chute per poleNW40b to NW63:two chutes per pole.
Disconnecting-contact clusters
part number (1 cluster):33166
number per circuitbreaker, see table page44.
Grease for disconnecting-contact clusters
part number (1 can):33160.
Front
part number (1 front for3- or 4-pole devices):47939.
1 per device.
E46
237A
Crank
part number (1 crank):47944.
1 per device.
E51
336A
1 per device.
Charging handle
E46
126A
part number (1 handle):47940.
Masterpact NW08-63 Schneider Electric46
Maintaining Masterpactperformance
Troubleshooting and solutions
Problem Probable causes Solutions
opening of device not indicated by the pushbutton the supply voltage for the MN check the voltage.indicator signalling a fault trip undervoltage release is too low Implement corrective action
or equal to zero. the MN release is faulty. replace the faulty device load-shedding order sent check the overall load on the
by another device. distribution system.If necessary, modify the settingsof devices in the installation.
transient presence of the voltage determine the origin of the order.across the terminals ofthe MX shunt release.
instantaneous opening after each attempt closing on a short-circuit. clear the fault. Check the conditionto close the circuit breaker (indicated by the of the Masterpact device before(pushbutton indicator signalling a fault trip) putting it back into service
transient overcurrent when closing. modify the distribution systemor the control-unit settingsCheck the condition of the Masterpactdevice before putting it backinto service
thermal memory. see the user manualof the control unit.
circuit breaker cannot be opened remotely insufficient supply voltage for the MX check the supply voltage.can be opened locally shunt release(s) U < 0.7 Un. Apply a voltage between
0.7 and 1.1 Un. faulty electrical circuit for the MX remove the front face
shunt release(s). check the MX shunt release(s) drop in voltage across the terminals completely cut the supply voltage
of the MN release(s) to less than of the release to be checked.0.35 Un. The circuit breaker should open.
- If it does not open replace the tested release- If it opens, resupply the testedrelease with power and reclosethe circuit breaker.Slowly reduce the voltageand check that the release opensthe circuit breaker between0.35 and 0.7 Un. If there is a problem,replace the tested release.
circuit breaker cannot be opened locally faulty operating mechanism contact a Schneider service centre. or welded main contacts.
Masterpact NW08-63 Schneider Electric47
Problem Probable causes Solutionscircuit breaker cannot be closed remotely or locally closing on a short-circuit. clear the fault. Check the condition
of the Masterpact device beforeputting it back into service.
pushbutton indicator signalling a fault reset the pushbutton indicator.trip has not been reset(only if reset is not automatic). circuit breaker not completely connected. terminate racking in (connection)
of the circuit breaker. anti-pumping function. cut the supply of power to the XF
closing release, then resupply it. circuit breaker not charged check the supply of power to the
(spring mechanism). MCH gear motor.Check the supply circuits.Check that manual charging ispossible.If necessary, replace the MCH gearmotor.
the XF closing release continuously cut the supply of power to the XFsupplied with power. closing release, then send the closing
order again via the XF, but only if thecircuit breaker is "ready to close".
MX shunt release(s) supplied with power. determine why the MX release(s)are supplied with power.Cut the supply of power to theconcerned MX release(s),then attempt to close via the XF.
MN release not supplied with supply the MN with voltage greaterpower or faulty. than 0.85 Un, then attempt to close
via the XF.If the circuit breaker does not close,remove the front face and check thatthe pick-up voltage of the MN is correctIf not, replace the auxiliary.
circuit breaker locked in the disable the locking function."open" position. circuit breaker interlocked. check the situation,
it may be normal.circuit breaker cannot be closed remotely, XF closing release not supplied check the power supply (voltagecan be closed locally. with enough power or faulty. should be between 0.85 and 1.1 Un)circuit breaker cannot be recharged electrically. insufficient supply voltage check the supply voltage.
for the MCH gear motor. Check the supply circuit for the MCHgear motor.Attempt to recharge the mechanismmanually.If there is a problem, the mechanismis faulty. Contact a Schneider servicecentre.If the mechanism can be chargedmanually, the MCH gear motor isfaulty and must be replaced.
the crank cannot be inserted to connect system is padlocked, a "connected" remove the padlock and/or disableor disconnect the circuit breaker. or "disconnected" position locking function the locking function(s).
is enabled or the racking interlock is enabled. chassis rails not completely pushed in. push the rails in completely.
circuit breaker or right-hand rail of chassis the crank has not been removed remove the crank and store it.(circuit breaker removed) cannot be removed. from the circuit breaker.
the circuit breaker is notcompletely disconnected. completely disconnect the circuit
breaker. system is padlocked, a "connected" remove the padlock and/or disable
or "disconnected" position locking the locking function(s).function is enabled or the rackinginterlock is enabled.
circuit breaker cannot be connected (racked in). the circuit breaker and chassis check the match between the two.do not match. If OK, check the mismatch protection
installed on the circuit breakerand chassis.
the disconnecting-contact clusters check the position of theare incorrectly positioned. disconnecting-contact clusters. the safety shutters are locked
(locked inside chassis or on front face). remove the lock(s).
Masterpact NW08-63 Schneider Electric48
Checking Masterpactoperating conditions
E51
261B
Test
E51
262B
Test
E51
260B
Test
Ambient temperatureMasterpact NW devices can operate under the following temperature conditions: the electrical and mechanical characteristics are stipulated for an ambient
temperature of -5¡ C to +70¡ C; circuit-breaker closing is guaranteed down to -35¡ C; Masterpact NW (without the control unit) can be stored in an ambient
temperature of -40¡ C to +85¡ C; the control unit can be stored in an ambient temperature of -25¡ C to +85¡ C.
Extreme atmospheric conditionsMasterpact NW devices have successfully passed the tests defined by the followingstandards for extreme atmospheric conditions: IEC 68-2-1: dry cold at -55¡ C; IEC 68-2-2: dry heat at +85¡ C; IEC 68-2-30: damp heat (temperature +55¡ C, relative humidity 95%); IEC 68-2-52 level 2: salt mist.
Masterpact NW devices can operate in the industrial environments defined bystandard IEC 947 (pollution degree up to 4).
It is nonetheless advised to check that the devices are installed in suitably cooledswitchboards without excessive dust.
VibrationsMasterpact NW devices resist electromagnetic or mechanical vibrations.
Tests are carried out in compliance with standard IEC 68-2-6 for the levels requiredby merchant-marine inspection organisations (Veritas, Lloyd's, etc.): 2 to 13.2 Hz: amplitude ±1 mm; 13.2 to 100 Hz: constant acceleration 0.7 g.
Excessive vibration may cause tripping, breaks in connections or damage tomechanical parts.
Masterpact NW08-63 Schneider Electric49
E51
263B
2000
m
Test
E51
264B
Test
Electromagnetic disturbancesMasterpact NW devices are protected against: overvoltages caused by devices that generate electromagnetic disturbances overvoltages caused by an atmospheric disturbance or by a distribution-system
outage (e.g. failure of a lighting system) devices emitting radio waves (radios, walkie-talkies, radar, etc.) electrostatic discharges produced by users.
Masterpact NT devices have successfully passed the electromagnetic-compatibilitytests (EMC) defined by the following international standards: IEC 947-2, appendix F IEC 947-2, appendix B (trip units with earth-leakage function).
The above tests guarantee that: no nuisance tripping occurs tripping times are respected.
AltitudeMasterpact NW devices are designed for operation at altitudes under 2000 metres.
At altitudes higher than 2000 metres, the modifications in the ambient air(electrical resistance, cooling capacity) lower the following characteristics.
altitude (m) 2000 3000 4000 5000
dielectric withstand voltage (V) 3500 3150 2500 2100
average insulation level (V) 1000 900 700 600
maximum ultilisation voltage (V) 690 590 520 460
average thermal 1 x In 0.99 x In 0.96 x In 0.94 x In
current (A) at 40 ¡C
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