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01 847-478-2253 02 638-7072 0 21 02 4 86-1 12 0 27 11 444-0223 01707 278-695????????

DIN LED Munsell0.08GY17.64/0.81 PC LED DIN ( 35 ) DIN

AT PID AT CH1: BFM#20, CH2: BFM #29 1 SV PID PID CH1:BFM#1,CH2:BFM #2 b14 1 PID 100% 0% 0FF 1 / 2 / PV 0

2 PV SV / AT PV AT CH1:BFM#20,CH2:BFM #29 PV 0 AT SV AT AT AT AT PV SV PID AT AT SV AT PV SV AT AT - AT AT AT

MV SV MV CH1:BFM#1 CH2:BFM #2 b13 1 0.5 balance-less bump-less PV SV MV PID FX2N-2LC MV MV BFM#19, BFM #28 CH1:BFM#1, CH2:BFM #2 b13 1

Balance-less, bump-less MV SV

(CT) BFM#7,BFM #8 SSR PV 1 ON ON 0.5 2 OFF OFF 0.5 CTL-12-S36-8 ( 0.0 100.0A) CTL-6-P-H ( 0.0 30.0A) U.R.D.

100% 0% PV (CH1:BFM#1b8, CH2:BFM#2 b8) ON PV 0% 2 100% PV 2 PV 0% 2 100% PV 2 1 2 3 4 5 PV LBA 2 LBA LBA ON OFF LBA

FX2N-2LC 14 4 BFM #1 BFM #2 PLC PV 1 4 BFM #76 NO. 0 OFF 1 PV 2 PV = PV SV 3 = PV - SV 4 = PV - SV 5 / + 6 = PV - SV + 7 8 9 10 11 PV PV = (PV)- SV = (PV)- SV = (PV)- SV / +

NO. 12 13 14 = PV - SV = PV - SV = PV - SV / + = - +

PV PV = PV - SV

= PV - SV < > < > PV - SV +10 PV SV +10-10 = PV - SV +10 PV SV +10 SV -10

PV PV < > < > PV PV

FX2N-2LC BFM PLC BFM 16 16 FROM/TO BFM NO. CH1 CH2 / #0 0 #1 #2 0 #3 #4 PV 5% / 0.0 R #5 #6 MV -5.0 105.0% -5.0 #7 #8 0.0 105.0 A 0.0 0 #9 1 0 2 BFM#10 BFM#69 #10 0 1 0 #11 / 0 1 0 #12 #21 SV 0.0 #13 #22 1 0.0 #14 #23 2 0.0 R/W #15 #24 3 0.0 #16 #25 4 0.0 100.0A #17 #26 0.0 ( 0.0 ) #18 #27 / 0 1 #19 #28-5.0 105.0 % *1 0.0 0 #20 #29 1 #30 2060 R #31 0 #32 #51 1 + 2 2 + #33 #52 0.0 1000.0%/ R/W 3.0 0.0 #34 #53 1 3600 240 #35 #54 0 3600 60 0.0 0 0

BFM NO. CH1 CH2 / #36 #55 0 1 2 0 #37 #56 105.0% 100.0 #38 #57-5.0% 0.0 0.0 100.0%/ #39 #58 0.0 ( 0.0 ) #40 #59 PV 50.00 %/ 0.00 #41 #60 0.0 10.0 %/ 1.0 #42 #61 1 100 30 #43 #62 0 100 0 0 #44 #63 0.0 100.0%/ 0.0 ( 0.0 ) #45 #64 AT( ) #46 #65 /0 #47 #66 / 0.0 1 1 1300 R/W #48 #67-100 0 7200 #49 #68 480 0 #50 #69 0.0 0 / 0.0 #70 #71 0 43 2 #72 1 0 #73 2 0 0 14 #74 3 0 #75 4 0 #76 1/2/3/4 0.0 10.0 % / 1.0 #77 1/2/3/4 0 255 0 #78 3 255 3 #79 1 10 / 1.0 #80 0 3600 0

BFM No. CH1 CH2 / 0 ON OFF #81 CT 1 ON 0 R/W 0 #82 0 R 1 0 #83 1 EEPROM R R/W 0 R/W BFM #83 EEPROM *1 ON - 10 100.0 1000-500ms - BFM 0 b1 ON

Bit No. b0 b1 b10 ON b1 ON b2 (24VDC) 24VDC ON FX 2N -2LC b3 ON b4 --- b5 --- b6 --- b7 --- b8 FX 2N -2LC b9 ON b10 A/D b11 --- b12 FX 2N -2LC ON b13 ON 7.2.42 b14 ON b15 FX 2N -2LC ON b15 1 CPU ON 2 ON FX2N-2LC TO

BFM#1 CH1 BFM#2 CH2 BFM#1 BFM#2 Bit No. b0 ON b1 ON b2 FX 2N -2LC b3 ON A/D b4 1 ON b5 2 ON b6 3 ON b7 4 ON b8 ON b9 ON B10 ON B11 --- B12 0 =1 /1 =0.1 / 0.1 / ON B13 b13 ON B14 AT ON B15 (BFM#80) BFM#79 ON

b15 BFM#3,BFM#4 BFM#12,BFM#21 BFM#79 BFM#80 BFM#1 BFM#2 b15 ON

BFM #3 CH1 BFM#4 CH2 BFM#70 BFM#71 0.1 0.1 BFM #5 CH1 ON BFM#6 CH2 ON -5.0 +105.0% BFM #7 CT CH1 BFM#8 CT CH2 0.0 105.0A BFM #9 BFM #9 K0 BFM #9 K1 10 81 BFM #9 K2 10 69 / / 500ms FROM/TO BFM#10 BFM K1 BFM#0 ON BFM # 11 K0 BFM #11 K1 PLC RUN STOP FX2N-2LC FX2N-2LC BFM #11

BFM#12 CH1 BFM#21 CH2 BFM#70 BFM#71 0.1 0.1 CH1 BFM#47 BFM#48 CH2 BFM#66 BFM#67 BFM#13 BFM#16 BFM#22 BFM#25 1/2/3/4 BFM#72 BFM#75 1/2/3/4 14 4 BFM#13 BFM#16 CH1 BFM#22 BFM#25 CH2 BFM No. 1 2 3 4 BFM#13 BFM#16 CH1 BFM#22 BFM#25 CH2 BFM 72 BFM75 BFM#17 BFM#26 CT BFM#17 CH1 BFM#26 CH2 CH1 BFM#1 b9 CH2 BFM#2 b9 ON 0.0 100.0A BFM#17/#26 0.0 BFM#18 CH1 BFM#27 CH2 BFM#18/#27 K0 BFM#18/#27 K1 PV SV MV CH1 BFM#19 CH2 BFM#28 MV CH1 BFM 19 CH2 BFM 28 CH1 BFM 1 CH2 BFM 2 b13 ON

BFM#19 CH1 BFM#28 CH2 ON -5.0 +105.0% ON/OFF BFM#42 CH1 BFM#61 CH2 1 100 ON BFM#20 CH1 BFM#29 CH2 BFM#20/#29 K0 BFM#20/#29 K1 BFM#30 FX2N-2LC 2060 ( ) BFM#32 CH1 BFM#51 CH2 BFM#32/#51 K0 OFF BFM#32/#51 K1 OFF BFM#32/#51 K2 BFM#3/#4 BFM#1 BFM#2 b0 b1 BFM#2 b4 b7 PID 1 4 BFM#1 K0 K2 BFM 11 BFM #33 CH1 BFM #52 CH2 SV PV 0.0 1000.0% BFM #33/ #52 0.0

BFM #34 CH1 BFM #53 CH2 SV PV 0 3600 BFM #35 CH1 BFM #54 CH2 ( SV PV ) 0 3600 BFM #35/#54 0

BFM #36 CH1 BFM #55 CH2 PID SV BFM#36/ #55 K0 BFM#36 /#55 K1 BFM#36/ #55 K2 SV

BFM #37 BFM #56 CH1 CH2 BFM #38 BFM #57 CH1 CH2 BFM MV BFM 5 BFM 6 +105% -5.0% PID

BFM #39 CH1 BFM #58 CH2 1 MV 0 100% BFM #39/ #58 0.0% ( ) MV MV ( ) 1 PID

BFM #40 CH1 BFM#59 CH2 BFM #3 BFM #4 50.00% 400 2 =2 /400 100=0.5% = PV +

BFM #41 CH1 BFM#60 CH2 SV ON/OFF BFM #41/#60 BFM 12 / 21 10% 5% 5% 10% 0.0% 10.0% 400 BFM #41/BFM #60 10% 400 10.0%/100=40 200 180 220 SV * SV MV BFM #42 CH1 BFM # 61 CH2 ON OFF % ON 100 % OFF 1 100

BFM #43 CH1 BFM #62 CH2 FX2N-2LC PV 0 100 BFM#43/#62 0 500ms

BFM#44 CH1 BFM#63 CH2 % 0.1 100% BFM #44/#63 0 1 SV1 2 SV2 SV2 SV1 PV SV PV SV

BFM #45 CH1 BFM #64 CH2 / AT SV SV PV PID AT AT SV AT BFM #46 CH1 BFM #65 CH2 BFM #46/#65 K0 BFM #46/#65 K1 0 1

BFM #47 BFM #66 CH1 CH2 BFM #48 BFM #67 CH1 CH2 BFM SV BFM 12 BFM 21 100 +1300 SV BFM #0 b1 ON ( / ) BFM#0 b1 ON -100 7-22 +1300 7-22 -100 1300

BFM #49 CH1 BFM # 68 CH2 100% 0% PV CH1 BFM 1 b8 CH2 BFM 2 b8 0 7200 BFM #49/#68 0 0% PV 2 100% PV 2 PV 0% 2 PV 100% 2

( ) 10 SV 10 20 PV 0.0 0 BFM #50/#69 0 *1 *2 *3 LBD 0.01%FS

BFM#70 CH1 BFM#71 CH2 2 0-200.0 200.0 10-1 1-100.0 400.0 10-1 2 K -100 1300 3-100 800 4-100 2400 5-200.0 200.0 10-1 6-100.0 400.0 10-1 7-100.0 800.0 10 J -1 8-100 1200 9-100 1600 10-100 2100 11 0 1700 R 12 0 3200 13 0 1700 S 14 0 3200 15-200.0 200.0 10-1 16 0 1000 E 17 0 1800 18-200.200.0 10-1 19-200.0 400.0 10-1 20 0.0 400.0 10-1 21-300.0 400.0 10-1 22 T -300.0 700.0 10-1 23 0.0 700.0 10-1 24 0 1800 B 25 0 3000 26 0 1300 N 27 0 2300 28 0 1200 PLII 29 0 2300 30 0 2300 W Re5-26 31 0 3000 32-200.0 600.0 10 U -1 33-300.0 700.0 10-1 34 0.0 900.0 10 L -1 35 0 1600 36-50.0 150.0 10-1 37-200.0 500.0 10 JPt100-1 38-300.0 300.0 10-1 39-300 900 40-50.0 150.0 10-1 41-200.0 600.0 10 Pt100-1 42-300.0 300.0 10-1 43-300 1100 *2 B 0 399 0 799 *3 PLII 0 32 *4 WRe5 WRe26 0 32

FX2N-2LC 14 1 BFM #72 2 BFM #73 3 BFM #74 4 BFM #75 CH1 BFM #13 BFM #16 CH1 BFM# 1 b4 b8 CH2 BFM #22 BFM #25 CH2 BFM #2 b4 b8 BFM 0 OFF 0 OFF 1 PV 2 PV 3 4 5 / PV - + 6 = PV - SV + 7 PV 8 PV = PV - SV 9 = PV - SV 10

PV - / SV 11 + PV - SV 12 13 = PV - SV 14 = PV - /SV +

BFM #76 1 4 1 4 PV 0.0 10.0%

BFM #77 1 4 PV SV 5 BFM #78 CH1 CH2 1 3 255

BFM #79 CH1 CH2 BFM #80 CH1 CH2 ON

BFM #81 CT CH1 CH2 ON OFF ON ON OFF OFF BFM#81 K0 ON OFF BFM#81 K1 ON OFF ON BFM#81 OFF BFM BFM #82 BFM BFM #82 0 BFM #82 BFM BFM BFM#10

BFM #83 BFM #12 BFM #29 BFM #32 BFM #81 FX2N-2LC EEPROM FX2N-2LC EEPROM EEPROM BFM #12 BFM #29 BFM #32 BFM #81 BFM 11 EEPROM 1 ON FX2N-2LC ON 2 OFF OFF 3 ON 4 BFM #0 b1

8.1 FX2N-2LC PID K-100.0 400.0 + + 30 / 480 1% 3 CT ON /OFF ( ) X000 X001 X002 X003 X004 X005 ON / OFF CH1 CH2 EEPROM M 0 M15 M20 M35 CH1 M40 M55 CH2

D0 D1 D2 D3 D4 D5 D6 D7 D8 D82 CH1 PV CH2 PV CH1 MV CH2 MV CH1 CH2

100 PLC D0 D1 1 =+30 2 =-30 + + / +400.0-100.0 10

K -100.0 +400 3 CT ON /OFF BFM#0 M0 M15 CH1 BFM#1 M20 M35 CH2 BFM#2 M40 M55 PV BFM#3 CH1 D3 BFM#4 CH2 D4 MV BFM#5 CH1 D5 BFM#6 CH2 D6 BFM#7 CH1 D7 BFM#8 CH2 D8 BFM #82 D82

X000 ON X001 ON BFM#0 / X002 X002 PLC OFF K1 BFM #18 BFM #27 X003/X004 ON X003/X004 OFF M24/M44 OFF K0 BFM #20/#29 M34 M54 ON OFF EEPROM

M BFM#0 BFM#1BFM#2 Y

FROM BFM #0 BFM #1 BFM #2 FX2N- 2LC ( 24 ) b0 B1 B10 ON b1 ON b2 24VDC 24VDC ON b3 FX2N-2LC ON b8 FX2N-2LC ON b9 b10 A/D BFM #1 BFM #2 b0 ON b1 ON b2 FX2N-2LC ON b3 A/D b4 1 ON b5 2 ON b6 3 ON b7 4 ON b8 ON b9 ON b10 ON BFM #10 ON

1 FX2N-2LC TO FX2N-2LC PLC FROM/TO BFM 2 FX2N-2LC PLC PLC