FPS SERIES Super Slim Ceiling Mount Air Handling Units

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About Multistack 19, Multistack is well-known in the international air conditioning industry by its invention of modular chiller. Today, Multistack has grown into an international refrigeration & air conditioning supplier, providing the users all over the world with our reliable product, professional expert group and all-around prompt supporting services to meet customer s diverse needs for in commercial, industrial and institute fields. Multistack aims to users who have special demands on product quality, size and energy saving etc., we are committed to provide them whole services including system design, product development, project installation and after-sales support. Multistack brings great influences to the world around us in many ways. Our products are widely used in many countries and areas such as Australia, New Zealand, North America, Europe and Asia etc. We not only provide comfortable sight experience, but also provide perfect energy saving solutions to save your money. Do you expect high efficient chiller? Are you bothering with limit installation space? Do you have strict demand for product reliability? Do you try to save cost? Are you planning to replace old refrigeration equipment? Whatever you are in one or whole cases of the above, if you want the best, please choose Multistack the creator and leader of modular chillers. CONTENTS Multistack Page 01 Description 0 Nomination 0 Structure 0 Performance Data 0 ESP-Airflow Diagram 1 Drawings&Dimension Wiring diagram 1 Installation, Operation & Maintenance 1 CONVERSION: 1kw=1Btu/h=9.kcal/h=0. usrt 1m /h(cmh)=0.ft /min(cfm); 1kg=.lb; F=9/x C+ 1pa=0.10197mmHO; 1Kpa=7.00mmHg=0.10psi 01

DESCRIPTION Eleven air volume specifications. Air volume 1 to 11 L/S capacity.-1.kw capacity1.-.7kw Use forward-curved centrifugal fan and external-rotor speed regulating motor compact structure small vibration 100% dynamically balance stably running Galvanized steel casing with mm thick PE. insulation good appearance lightweight compact structure save installment space Heat exchanger adopts high efficiency fin through strict water process can work under high humidity condition. According to customer requirement add frequency inverter electric heater humidifier etc STRUCTURE FPS1 ~ 0A Series Coil Junction box Filter(option) Humidifier(option) Air vent Fan,Motor MODEL NOMINATION FPS 1 1 A 1--FPS Super Slim AHU --Air flow: 1x100m /H --A version mark --Units Type N Fresh air type, Slandard Ceil(four rows),standard Fan P Fresh air type, Standard Ceil(four rows),high Static Pressure Fan U Fresh air type, High Efficiency Ceil(six rows),standard Fan X Fresh air lype, High Efficiency Coil(six rows),high Stalic Pressure Fan M Return air type, Standard Coil(feur rews),standard Fan T Return air type, Slandard Ceil(four rows),high Slatic Pressure Fan Q Return air type, High Efficiency Coil(six rows),standard Fan Y Return air type, High Efficiency Coil(six rows),high Static Pressure Fan --Handing Z left hand blank, right hand (facing refurn air) --V 0V/0Hz/PH K 1V/0HZ/PH handing judge way U Z V Air entering FPS0 ~ 10A Series Filter(option) Coil Humidifier(option) Junction box Air vent outlet outlet inlet Drain valve inlet(humidifier) Power Socket Drain conn. Drain pan Fan,Motor Face the air entering in direction, if the water connection pieps and the access panel is on the left, it is left handing. This unit is lefthanding inlet Drain valve Air leaving This unit is left handing inlet(humidifier) Power Socket Drain pan Drain conn. 0 0

PERFORMANCE DATA Performance Data of high static units Fresh air condition :9 F( C)DB. F( C)WB,water inlet. F(7 C),water outlet. F(1 C) :. F(7 C)DB 10 F(0 C)WB flow rate of heating system is the same as cooling system. Performance Data of high static units Return air condition :0. F(7 C)DB 7.1 F(19. C)WB,water inlet. F(7 C),water outlet. F(1 C) :9. F(1 C)DB 10 F(0 C)WB flow rate of heating system is the same as cooling system. Performance Air flow (m /h) ESP (pa) Noise db(a) Four rows Six rows Resistance (Kpa) Power Weight (KG) Performance Air flow (m /h) ESP (pa) Noise db(a) Four rows Six rows Resistance (Kpa) Power Weight (KG) FPS1AP(Z)V FPS1AX(Z)V 100 00..1.9. 71. 0 0. FPS1AT(Z)V FPS1AY(Z)V 100 00. 1..1 9. 1.7.7 1 0. FPS0AP(Z)V FPS0AX(Z)V 000 00 9 7.. 7.7. 99. 1 1 0. 9 9 FPS0AT(Z)V FPS0AY(Z)V 000 00 9 1 0.. 1. 1.9 9 0. 9 9 FPSAP(Z)V FPSAX(Z)V 0 00 1.. 101.. 0. 17 9 0. 101 10 FPSAT(Z)V FPSAY(Z)V 0 00 1 1..9..9. 1. 1 0. 101 10 FPS0AP(Z)V FPS0AX(Z)V 000 00..7 1..1. 19. 0. 110 11 FPS0AT(Z)V FPS0AY(Z)V 000 00 1.7 9. 7.9 0..1 9 11 0. 110 11 FPS0AP(Z)V FPS0AX(Z)V 000 00 1.1 70.7. 70 0.x 10 FPS0AT(Z)V FPS0AY(Z)V 000 00 1 0.7. 1.. 90. 0.x 10 FPS0AP(Z)V FPS0AX(Z)V 000 00 1 71.7 7.9 0.. 0.. 0 0.x 7 FPS0AT(Z)V FPS0AY(Z)V 000 00 1 1..1 90. 0.. 11. 0.x 7 FPS0AP(Z)V FPS0AX(Z)V 000 00 7.7 9.. 10.7 97.1 00. 0.x 19 FPS0AT(Z)V FPS0AY(Z)V 000 00 9.. 11. 7. 70 1 7 0 0.x 19 FPS0AP(Z)V FPS0AX(Z)V 00 0 11 1.. 1. 9. 7 0 1.0x 7 71 FPS0AT(Z)V FPS0AY(Z)V 00 0 0. 1.7 1. 9.. 1.0x 7 71 FPS100AP(Z)V FPS100AX(Z)V 0 00 11. 1. 7.1 1.9 10.7 9 9 9 1.x 0 FPS100AT(Z)V FPS100AY(Z)V 0 00. 10..9 11.. 1 1.x 0 FPS10AP(Z)V FPS10AX(Z)V 1000 0 00 7 19.. 7.7 0. 1 9 0 1 1.x FPS10AT(Z)V FPS10AY(Z)V 1000 0 00 7 77. 1.7 1.1 9. 19.. 1 1.x FPS10AP(Z)V FPS10AX(Z)V 1000 0 00 11. 19.1.9.7 1. 7 1.0x 99 FPS10AT(Z)V FPS10AY(Z)V 1000 0 00. 7. 1..9 7 9.0x 99 P: Fresh air type, standard Coil( four rows), High static fan. X :Fresh air type, High Efficiency Coil(six rows), High static fan. T: Return air type, standard Coil( four rows), High static fan. Y :Return air type, High Efficiency Coil(six rows), High static fan. 0 0

Performance Data of standard units Fresh air condition :9 F( C)DB. F( C)WB,water inlet. F(7 C),water outlet. F(1 C) :. F(7 C)DB 10 F(0 C)WB flow rate of heating system is the same as cooling system. Performance Data of standard units Return air condition :0. F(7 C)DB 7.1 F(19. C)WB,water inlet. F(7 C),water outlet. F(1 C) :9. F(1 C)DB 10 F(0 C)WB flow rate of heating system is the same as cooling system. Performance Air flow (m /h) ESP (pa) Noise db(a) Four rows Six rows Resistance (Kpa) Power Weight (KG) Performance Air flow (m /h) ESP (pa) Noise db(a) Four rows Six rows Resistance (Kpa) Power Weight (KG) FPS1AN(Z)V FPS1AU(Z)V 100 0 00 7..1.9. 71. 0 0. 1 FPS1AM(Z)V FPS1AQ(Z)V 100 0 00 7. 1..1 9. 1.7.7 1 0. FPS0AN(Z)V FPS0AU(Z)V 000 00 7.. 7.7. 99. 1 1 0. 9 9 FPS0AM(Z)V FPS0AQ(Z)V 000 00 1 0.. 1. 1.9 9 0. 9 9 FPSAN(Z)V FPSAU(Z)V 0 90 0.. 101.. 0. 17 9 0. 99 10 FPSAM(Z)V FPSAQ(Z)V 0 90 0 1..9..9. 1. 1 0. 101 10 FPS0AN(Z)V FPS0AU(Z)V 000 190 0..7 1..1. 19. 0. 109 11 FPS0AM(Z)V FPS0AQ(Z)V 000 190 0 1.7 9. 7.9 0..1 9 11 0. 110 11 FPS0AN(Z)V FPS0AU(Z)V 000 0 0 0.1 70.7. 70 0.x 1 19 FPS0AM(Z)V FPS0AQ(Z)V 000 0 0 0 0.7. 1.. 90. 0.x 10 FPS0AN(Z)V FPS0AU(Z)V 000 90 0 0 71.7 7.9 0.. 0.. 0 0.x 1 FPS0AM(Z)V FPS0AQ(Z)V 000 90 0 0 1..1 90. 0.. 11. 0.x 7 FPS0AN(Z)V FPS0AU(Z)V 000 90 0 9 7.7 9.. 10.7 97.1 00. 0.x 19 FPS0AM(Z)V FPS0AQ(Z)V 000 90 0 9 9.. 11. 7. 70 1 7 0 0.x 19 FPS0AN(Z)V FPS0AU(Z)V 10 9 11 1.. 1. 9. 7 0 0.x 7 1 FPS0AM(Z)V FPS0AQ(Z)V 10 9 0. 1.7 1. 9.. 0.x 7 71 FPS100AN(Z)V FPS100AU(Z)V 0 0 11. 1. 7.1 1.9 10.7 9 9 9 1.1x 07 FPS100AM(Z)V FPS100AQ(Z)V 0 0. 10..9 11.. 1 1.1x 0 FPS10AN(Z)V FPS10AU(Z)V 1000 10 0 19.. 7.7 0. 1 9 0 1 1.1x 1 1 FPS10AM(Z)V FPS10AQ(Z)V 1000 10 0 77. 1.7 1.1 9. 19.. 1 1.1x FPS10AN(Z)V FPS10AU(Z)V 1000 0 11. 19.1.9.7 1. 7 1 1.x 97 FPS10AM(Z)V FPS10AQ(Z)V 1000 0. 7. 1..9 7 9 1.x 99 N: Fresh air type, standard Coil( four rows), standard fan. U: Fresh air type, High Efficiency Coil(six rows), standard fan. M: Return air type, standard Coil( four rows), standard fan. Q: Return air type, High Efficiency Coil(six rows), standard fan. 0 07

performance data of fresh air type performance data of fresh air type FPS1AN(Z)V FPS1AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPSAN(Z)V FPSAP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS100AN(Z)V FPS100AP(Z)V FPS10AN(Z)V FPS10AP(Z)V FPS10AN(Z)V FPS10AP(Z)V Air flow(m /h) 100 000 0 000 000 000 000 1000 1000 flow 1.0..7.1..9 7.0.9 101..0.9 1..7 11.7.0...7 11.7. 0...7 11.7...9 1... 7.7. 7 7.1 7.7. 7.7 107.1 7.7 01..9 C DB C WB 7 C DB C DB C WB 7 C DB Hydraulic Loss(kPa) TH SH TH SH 0 1 1 1 7 7 7 1 1 9 9 1 9 7 9 0 1.. 0.9.0.1..0 7..7 0. 1.7 1.7.. 7.. 7. 1..0.. 1.7. 7.0 0.0..1 70.1 71.9 7. 7.9 7.7..0.1 9. 107. 11. 7.1 1.7 1.9 11.9 9. 10. 19. 110.. 19. 11.9. 7..1.. 7. 10. 11.1 11. 9.0 1. 1. 1.7 1. 10. 1. 1.0 1.9.0 1.9 0.0 1. 1.9.1.. 7.0 7.7. 0.. 1.9.9. 7.1 1..0.. 1...7.9 1...1. 7. 1. 1.. 0..0.1..0 7.. 0.1 1.7 1.7.1. 7..7 7.1 1...1. 1..1.9..9 70.0 71.7 7.11.0 7.. 7.7.0 9.1 107.1 7.9 1. 1.7 11. 9. 10..7 19. 110.. 197.7 11..1.1.9 9. 9..7 11. 11.7 1. 1. 10. 1.7 1.0 1.1 1. 1.1 1.1.7..7...... 7. 0. 1...1. 7. 0.9 1..9. 7.7 1..9 0..9 1..1 7.1.7 7.. 90.0 FPS1AN(Z)V FPS1AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPSAN(Z)V FPSAP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS0AN(Z)V FPS0AP(Z)V FPS100AN(Z)V FPS100AP(Z)V FPS10AN(Z)V FPS10AP(Z)V FPS10AN(Z)V FPS10AP(Z)V Air flow (m /h) 100 000 0 000 000 000 000 1000 1000 flow 1.0..7.1..9 7.0.9 101..0.9 1..7 11.7.0...7 11.7. 0...7 11.7...9 1... 7.7. 7 7.1 7.7. 7.7 107.1 7.7 01..9 C 0 C Hydr-aulic Pressure Loss(kPa) 0 1 1 1 7 7 7 1 1 9 9 1 9 7 9 0.7 1.7.7... 9. 0. 1. 0.0..0...1...... 0. 1.1. 9. 7. 7.9 7.7 77. 9..1 90. 9. 90. 11.9 1.7 11. 111. 10.. 1.0 1.9.1 7.1. 1.7 09. 1. 7. -10 C DB. 7.7 9.0 9. 9.7 1. 7..1.9 9.7.1... 9..7.0 7.7.9 9.1. 7. 7.7 77. 79.0 7. 9. 9. 97. 9.. 109.7 1.9 11.9 1. 11.1 1.1 11.7.. 19. 19. 1.9. 1. 10. 19. 1. 9. - C DB 0 C DB C DB 7 C DB C 0 C 1.1 19.7 0. 1.1 1.1.. 7. 7.. 7..1..7. 1.9 9. 1..1...1.7..7.. 9.0 9.7 70.. 7....1 10. 107.9 110.7 101. 17. 1.. 10. 1. 1. 10. 190.7 01. 0.7 0.9.7.9 7. 7. 9..7..1.9..9..0.9 1. 1.1..7.9 7. 9. 71. 7.0 7. 70..7 9. 90. 91.7. 101.9 10. 109. 10.7 1. 10. 1.0 11. 1.7.9 9.7. 19. 09.7 1. 19.7.0 1..9 C 0 C 1..7. 0.1.9..0.. 9.7 1.1 1. 1.7.7. 7.1 7.9.0 0.0 7. 9. 9. 0.9.7 9. 1.9...9 70. 7.0 7. 7.9 9. 97. 99. 91.1 11.7 1. 10. 17. 1.0 19.1 1. 1.7 1..0 19..7.7...9.0.7..0. 9. 1. 1... 7. 9. 0. 0..... 7..0 79.1.7.. 7.0 9.1 9. 101. 9. 1.0 19. 1. 11. 1.1 11. 1. 1.1. 19. 19. 0.. 1.. C 0 C 1.7 1.7 1. 1.9 1.9.9 1. 1... 1.. 7. 7.7.. 1..0.7........7.0.. 0..7. 7..7.0..7 1.0 10.0 107. 110. 9.7 1..9 1. 10. 1. 11. 1.. 1.7....7 9. 0.0 0. 1. 0.1..0.0..1.... 9.0. 0.1 1.0. 9. 7. 7. 7. 77. 9.7. 90. 9. 90. 11. 1.7 11.7 111. 10..0 11. 1.0.1 7..1 1. 09.7 1. 7.7 C 0 C 1. 1.9 1.7 1.1 1.1.0 0. 0. 1.1 1. 0..1...9. 9. 1. 1.9.0.7 0. 1..1.9 1.1 0.1..9..1 9...9. 7.0.1. 7.9 10. 91.9 11.1 1. 1. 11. 1.7 1.0.7.0 0.9 1.9..... 9. 0.0 9.0.1.. 7.. 1...7.7 7.0..0. 7. 9. 7.1 7.9 7. 7.1.0 7.1 9..9 10.7 11. 1. 107. 1. 1. 1.. 1.0 0.7. 19. 0.1 1. 19.1 N: Fresh air type, standard Coil( four rows), standard fan. P: Fresh air type, standard Coil( four rows), High static fan. 0 09

performance data of fresh air type 10 11 flow Hydraulic Loss(kPa) TH SH TH SH C DB C WB 7 C DB C DB C WB 7 C DB.9 71..9 99..9 7. 9. 1 19.. 7. 9. 1. 71... 7.7.9 71.. 7.7 00..9 9. 9. 9.0 9. 7. 110. 7. 1.7 9.0 1. 1..7 9.0.9 97. 9. 7.0 7 FPS1AU(Z)V FPS1AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPSAU(Z)V FPSAX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS100AU(Z)V FPS100AX(Z)V FPS10AU(Z)V FPS10AX(Z)V FPS10AU(Z)V FPS10AX(Z)V performance data of fresh air type flow Hydr-aulic Pressure Loss(kPa) C 0 C -10 C DB C 0 C - C DB 0 C DB C DB 7 C DB C 0 C C 0 C C 0 C FPS1AU(Z)V FPS1AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPSAU(Z)V FPSAX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS0AU(Z)V FPS0AX(Z)V FPS100AU(Z)V FPS100AX(Z)V FPS10AU(Z)V FPS10AX(Z)V FPS10AU(Z)V FPS10AX(Z)V.9 71..9 99..9 7. 9. 1 19.. 7. 9. 1. 71... 7.7.9 71.. 7.7 00..9 9. 9. 9.0 9. 7. 110. 7. 1.7 9.0 1. 1..7 9.0.9 97. 9. 7.0 7 0 19 9 0 1 71 1 1 1 1 9 1 7 7 9 0 9 0...0. 7...0.7..0...... 7. 1... 0. 1. 7. 70.9. 0...7 90.. 9. 10.0 107.. 1.1 1. 1. 10. 1. 17.1..0 1.9. 00. 0.9 09. 1.0 7. 9.. 7. 9. 9. 10. 9.1 1. 1. 1. 1.9 10.7 1.0 1... 1.. 1 0.1 0. 1...0 7.. 0.9.0..9.7. 9.7 0. 1.. 7. 1....... 7. 0. 70. 77.1 79. 0.9. 7. 9. 100.0 101....9. 7.. 1.9..7.9..7.... 7. 1..1.7 0. 1.0 7. 70.7.1 0.1... 9. 10.7 10.7 107..9 1. 1. 1.0 10. 10.0 1.0 1.9 1.9.7 1..0 199.7 0. 09.1 1..7 9.1.7 1.. 10. 10. 11.1 11. 10. 1. 1. 1.7 1. 1. 1..0.7. 1. 0. 1..0.7...1.1.7.0 0. 0.... 9...9 7. 9. 9.1.0 70.7 7.7 7.9.. 7.. 7. 97.0 10. 109. 110. 0 19 9 0 1 71 1 1 1 1 9 1 7 7 9 0 9 0.1.....9.7.... 0. 1.7.0.1.0 9.1 0.1 0. 0.7.7.. 7. 7. 1...7.. 97.7 100. 100.7 101. 11.1.9 1. 1.1 1. 10.7 1. 1.7 17. 1. 19.1 19. 199. 01.0 07. 1.1.1..9. 1. 1. 1.7..7 1.7...1. 1.7.1...7...1. 70....9 9. 10. 10.0 10. 107. 109.1 1. 17..0. 1.7 1.. 19. 0..9 0. 10. 1.0 1. 11.....7 0. 1.. 0.0 0.1...9.1. 9.7 0. 0. 0.7.0.9 7.9.. 9.1....1 0..9 0. 1..0 7. 7. 7.1 7. 7.. 91.1 91. 9.1 101.9 1. 10. 1.1 1. 1.1 10. 11. 1.0 11.. 0. 1..7. 19.. 7.7.1. 9.1 9. 9. 0.0.1.7 9. 9. 0.0 1..0 9. 9. 9. 0. 7.9 9. 9..7 7. 7.7 79.. 9. 9. 9. 9 101. 11. 1. 1.9 119. 1. 1. 1... 1. 190.0 19. 1 19.1 19.7.1.. 7... 9.7 9.0 97.1.1 0.1 0. 0. 0..7.7 7. 7. 7....1... 0.0 0.9 1.1 1...0..1 9. 7.0.1. 9. 70.1 7.0..7 91. 10. 10. 10. 109.7 11. 11. 1.1 1. 17.1 1.1. 1. 1.0 1. 19. 1 0.7 0. 0.9..9 7.1 7. 7.7 1..7...9....0.0.9..7.. 0. 70.7 7.7 7. 79. 9. 90. 91. 9. 9.7 10.7 109. 109. 110. 1. 10.7 1. 1.1 1.1 11.7.7 0. 1.9.7 1. 10. 1.. 19...9 70.7 7. 7.0 1.1.9.0.. 1.1.7.... 9. 0. 0.7 0.7 1..... 0. 7.1. 9.0.9 9. 0. 0. 1.. 71.0 7.9 7. 7. 1. 9.7 9. 9. 97. 101. 1.0 11. 11.9 1. 1. 1.0.0 0. 1..1..7..1...7.... 0. 1.7...0 9.0 0.1 0. 0.....7 7.7 1.9....9 97. 100. 100.7 101. 11.1 1. 1.0 1.9 19.1 11.1 1. 1.7 17. 1. 19. 19. 00. 01.0 07. 1.0.1.1 1. 1..0.1.. 0.0..1.1...0.7 9.1 9. 9.7...7.1..7.1. 0.. 7. 7.. 9. 7. 9. 9. 77. 9.0 91. 91. 9. 9.0 111. 11. 11.9 1.1 1...9 1. 1. 1.0.1. 1..... 7. 1.....9 9.1 0.1 0. 0. 1. 7........0 70.0 7.9 0. 0.7 1..7 9. 9. 97.1 97.7 10.0 1.. 1.0 1.1 19. 10.7 11. 10.. 191. 1 1 00.0. 9.0 1. 1. Air flow(m /h) 100 000 0 000 000 000 000 1000 1000 U: Fresh air type, High Efficiency Coil(six rows), standard fan. X :Fresh air type, High Efficiency Coil(six rows), High static fan. Air flow (m /h) 100 000 0 000 000 000 000 1000 1000 FPS SERIES

performance data of return air type performance data of return air type C DB.9 C WB C DB 19. C WB 7 C DB 19. C WB 7 C DB 0. C WB C DB.9 C WB C DB 19. C WB 7 C DB 19. C WB 7 C DB 0. C WB 7 C DB 7 C DB 7 C DB 7 C DB 7 C DB 7 C DB 7 C DB 7 C DB Air flow(m /h) flow Hydraulic Loss(kPa) TH SH TH SH TH SH TH SH Air flow(m /h) flow Hydraulic Loss(kPa) TH SH TH SH TH SH TH SH 1.0.......9.0 7..7 9.. 9..7 10.0. FPS1AM(Z)V FPS1AT(Z)V 100.1..7 1 0 1 7.1 7..7...9. 9. 10..7.1.. 9. 10..1..9 9.1 11..9.. FPS1AQ(Z)V FPS1AY(Z)V 100.7.9 7.9.. 7.1 9. 1.0 1.9. 7. 7.9 9. 1.0 1.9. 7.9. 1.1 1.1. 7.9.. 9..1. 10. 7. 11.9 7.1 11. 7. 1..1 1.. 1.7. 1.0.. 7.7.0 7.7... 7. 11..0 11..7 1.. FPS0AM(Z)V FPS0AT(Z)V 000...7 10.0 11. 7. 7. 7.7 11.7 1.0 1. 7.9.0. 11.7 1.0 1... 9.1 1.9 1.1 1....9 FPS0AQ(Z)V FPS0AY(Z)V 000 9.0.9 19 9 11. 1. 1...9 9. 1. 1.7.0 9.0 10. 1. 1.7.0 9. 10. 11.1 1... 9. 10.. 7 1.0.0 1..9 1. 9. 1. 9. 1.9 9..7 10.7.7 11. 19. 11. FPSAM(Z)V FPSAT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS100AM(Z)V FPS100AT(Z)V 0 000 000 000 000 1.0...7..0 7.9.9.0.9..0.9 90..0.9 11..1. 17. 1.7 0. 9.0 1.0.9 19. 1 11 1 1 1 9 1 77 1 0 79 7 7.7 1.1 1. 1. 1.7 10. 1.1 1... 1.1 1 0...0 1...7 7. 9.. 7. 1.7.1... 1...7 7..1 0... 7.7.7 9. 9..7 10. 11. 1. 1. 1. 1. 1.1 1...7 19.. 1..9...7 9.1 9. 0. 7. 1..9 7. 7.9.7 1.1 1. 1.. 1.7 1.. 0. 1.7 1...1.... 1... 1. 7. 9. 0...1. 0..9 0.7 0. 9... 7. 9. 10. 10. 9. 11. 1.1 1.0 1. 1.0 1.7 1.0.0. 1. 19. 0. 0.9 1.9 1.....9..7.0..7 0.7.9 9. 1. 1. 9.0 1. 1. 1.. 1. 1.7. 0. 1. 1...0...0. 1...7 0.. 7. 9. 0.7. 1.9. 0... 1.0 9...1 9.0 10. 11. 11.7 10. 1. 1.0 1. 1. 1.9 1.9.1..9.0 0..0.. 0....9 7.. 0...0.9. 7.... 9. 1... 1..1 0.1..7 1..7. 9.1 1.0. 0.7.. 7.9 1.. 0.9.. 7.1.7.0.1 7.7...1 70.1 71. 7. 10.7 11. 11.9 1. 1. 1.1 1. 1. 1... 1. 0.0 1. 1..9.... 7.0.1 0.1..1. 7.. 1.1.. FPSAQ(Z)V FPSAY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS100AQ(Z)V FPS100AY(Z)V 0 000 000 000 000 1..9 7. 9.0 9. 1..9 90..9 11. 7. 9. 1.0 1..7 11.7.... 1.0 1.9..9. 1 1 71 1 7 7 9 7 0 1 101 9 1 7 0 7 7 11. 1. 1..7. 1.7. 19. 1.. 1... 7.1.7....1..0 0. 0..9 1..9.1..9.1 7..1.9 9...9 10. 11. 1.0 1. 1. 1.0 1. 1. 1.7.9.1. 1.1 0.1.1.. 1.9.9 7.0.1.7.... 0..9... 1.7.9 19. 0.9 1.9. 0.....7.7 1..1.0 1..1. 0. 1. 7.. 7. 7. 0... 1.7....1 77.0 7.0. 1. 9. 11. 1.1 1.9 1. 1.0 1. 1.7 1. 1.0 1.. 19. 0.0 0...... 1. 7. 9. 1..0..9 9.1 0...7. 9.0 0. 1. 1.7.9 19. 0.9 1.9. 0.... 19..7 1..1.0...7 0. 1... 7. 7. 0.7.. 1..... 77.0.1.1 10. 1. 1.9 1.7 1.1 1.9 1. 1.7 1..0 1.7 19.7 1.0 1..1..0. 7.. 9. 1. 1..1 0.. 1. 1...0 7.7 1.7.1.9. 1. 19. 0.9.9.... 7.7. 0.0 1...0 7.1.9.9... 9.. 1.9...1 7. 7.9 7.. 7.1.1.1 9.7.0 1.1 1.7 1. 1.9 1. 1.1 1. 1. 1. 1.7 19. 0. 0.9 1...1... 1.9. 1.1 1...7 7. 0. 0. 1.7.. 0.7 1.1.1. FPS10AM(Z)V FPS10AT(Z)V 1000. 11. 0. 1.1.7 0.9 0...7 7..0.1. 0.7 71. 77.. 1. 7. 9.. 0. 71.0 77... 0..1..0 77.7... 9. 1.9 FPS10AQ(Z)V FPS10AY(Z)V 1000 1. 9... 0. 79..0....9 0.9 9.0 9.7 9...0. 0.7 1. 9.0 9. 9. 7.0 1.9...1 100. 10. 107.. 0.7 1.. 7.1.. 0.0..0. 1..0.0. 1..0... FPS10AM(Z)V FPS10AT(Z)V 1000. 0.9 7 0..1 7.9 0.... 7.7.. 1.. 7. 7.. 7..9.0 7. 1. 9. 7..9 1. FPS10AQ(Z)V FPS10AY(Z)V 1000 0. 0. 7.0 7. 97.0 99. 0.1..7 100. 11. 1.. 7. 7. 100.9 11. 1. 70. 77.1 7. 109. 1.1. 9.0 7. 77.0 7. 90.0. 97.0.. 11..0 0. 90 10.. 1. 7.9 1. 0. 1. 79. M: Return air type, standard Coil( four rows), standard fan. T: Return air type, standard Coil( four rows), High static fan. Q: Return air type, High Efficiency Coil(six rows), standard fan. Y :Return air type, High Efficiency Coil(six rows), High static fan. 1 1

performance data of return air type 1 flow Hydraulic Loss(kPa) 1 C DB 1.0.1..7. 1.0...7. 1.0...7..0 7.9.9.0.9..0.9 90..0.9 11..1. 17. 1.7 0. 9.0 1.0.9 19.. 11. 0. 1.1 7.1. 0.9 7. FPS1AM(Z)V FPS1AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPSAM(Z)V FPSAT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS0AM(Z)V FPS0AT(Z)V FPS100AM(Z)V FPS100AT(Z)V FPS10AM(Z)V FPS10AT(Z)V FPS10AM(Z)V FPS10AT(Z)V 1 1 0 1 7 1 11 1 1 1 9 1 77 1 0 79 7 7 90 9. 11. 11. 1. 1.7 1.1 1. 1.7 1. 1. 1. 0.0 0. 0.9 1.7...7.. 0.9 1.....0 0.1 0. 1..7. 7.9. 9....7.9.1 1. 7. 0. 0.9 0.9. 9. 9.7 7. 107. 11. 1. 1..7...... 1.7. 0.0 0. 1. 19.1.. 7.1.0....9 0.. 7.0 0.1 0.. 9.0 7. 71.9 7. 7.. 7. 9.1 9. 97. 77.0 10. 11.9 10. 11. 91. 19. 10.0 1.1 1. 11.1 11.. 1. C DB 0 C DB 1 C DB C 0 C. 10. 11.1 11. 1.9 1.1 1.7 1.1 1.0.1.0.. 11. 0.1 1... 1.9 7..1 9. 0..9..1. 7. 9. 0..1.9.... 7....0 70.1 7. 7.. 77..0 7.1 7. 7.9 9.7 10. 10. 7.9 9. 10. 10. 1.9 1.0 1. 1.0 1.1 1. 1. 1.9. 1.0.7 19. 0. 1.0 0.. 7. 7.9 1.7...7 7. 7. 0. 1...7.... 0..9 7.0 7. 0. 71. 77.7 0. 0.. 9. 100. 7..9 9. 9.7 1. 1. 1.0 1. 11. 1.1 1.9 1. 1.7 1..0. 19. 0. 19..7.0.. 10. 0..1..... 9.1 9..9.7 0. 1.1.1 1.0 7....7.7.9 7. 77. 77. 0..9 9.0 9. 1. 1.7 1...7.0 1.7 1.9.9. 0...0. 9.. 1..9...1..7. 7.0 0...1...7.7 7.1. 9. 9. 1. 7.7 9. 91.1 71.9 101.1 109.1 11. 11.. 10. 10.7 1. 1.7 10. 10. 1.0 19. 1.7 1.9 1. 1. 1. 1. 0. 0. 1.7. 19... 7.0 7.. 1..9.. 1. 1.7... 0.7..7..7 9..9..1. 77...1.. 9. 107. 107.9 1. 11.9 1..9 19. 100. 1. 1.1 11. 1. 1. 1. 1.1 1. 1. 0.1 0. 1. 1.9...9. 7.1.9 9. 0..1. 1. 0. 0.7... 9..1....1....1 7.9 1..0..7 101. 10. 10. 79. 11. 1.7 1 97.9 19. 11.. C C C 0 C 0 C 0 C flow Hydraulic Loss(kPa) 1 C DB.7.9 9.0.9 1..9 7. 9.0 9. 1..9 90..9 11. 7. 9. 1.0 1..7 11.7.... 1.0 1.9..9. 1. 9... 1. 0. 0. 7.0 0. FPS1AQ(Z)V FPS1AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPSAQ(Z)V FPSAY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS0AQ(Z)V FPS0AY(Z)V FPS100AQ(Z)V FPS100AY(Z)V FPS10AQ(Z)V FPS10AY(Z)V FPS10AQ(Z)V FPS10AY(Z)V C DB 0 C DB 1 C DB C 0 C 1.7 1.7...1 0. 1.9..7.9.0..7 9. 9. 0..1.7..9 7.1...7 7....1. 9.1.9 7.7 70.0 70.1 71. 71. 9.0 9. 9. 9. 7. 110. 11. 11. 1. 10. 1.7. 19. 11. 19. 1...9.0 C C C 0 C 0 C 0 C 19 9 1 1 71 1 7 7 9 7 0 1 101 9 1 7 0 7 7 0 7 90 1. 1. 1. 1.0 1. 1.1...7.9 19.7.....1 7..0. 9..7.. 7...0......... 70. 7. 7.0 7. 9.1 7. 91.0 91. 9.7. 10.7 109. 109. 111. 10. 10. 1.1 17..9.1. 0.1 0. 0..7..7 7. 7. 19....1...1 0.0 0.9 1....7.1.9.. 7.0 7.9.. 7.1 0. 0.9.. 10. 10. 10. 10. 7. 17. 1. 1.7 1.7 10. 1.1 19. 10. 1. 19. 191.0 199. 00.9 0. 1.1 1. 1. 1.1 1. 1.1 1. 1.. 19. 1 0. 0. 1.1.9.0..9.7 1....9 0.. 0. 0.7 0.9.0.9.. 9. 9. 1..9.0. 0. 7. 79. 0. 1. 7. 91.9 9. 9. 97. 9.7 11. 119. 10. 11. 1.9 1.9. 19. 19..0..0..7.9 0. 0.9 1..1.. 7...7 0.0. 0. 0. 1. 7.0 0.1... 9.1 7.9 7. 7. 7. 7. 9. 99. 99. 101. 9. 119.1 1. 1.7 1. 11. 1.9 1 1.1 19..1. 7. 9. 11. 11. 11. 1.1 1.0 1.9 1. 1. 1.0.1..9 19.1 19. 1....0. 9.0 0. 7.9. 7. 7.7 7.9...9.9.7.7 7.1 9. 9. 0.. 70.9 7.9 7. 7..9.1.7 9. 90..0 10.0 110. 111. 11. 1.1 1.1.9.. 0.9......9 9. 0. 0. 1..9....1. 7. 7.9.7.7 7. 9. 0. 0.. 9. 71. 71.9 7.1 7.1 91. 9.7 9. 9. 11. 1. 1. 10. 107.0 1.1 11.9 1. 1. 1. 19..9. 0. 9.7 9.7 10. 11.1 1. 1. 1. 1. 1.7 1...7... 0. 1. 1..1. 7.9.7.7 9....... 1.7.1.1.9.9...9.0.9.1 71.0 71. 7.. 1.7..7.9 79.7 101. 10. 107.0 10. performance data of return air type Air flow(m /h) 100 000 0 000 000 000 000 1000 1000 M: Return air type, standard Coil( four rows), standard fan. T: Return air type, standard Coil( four rows), High static fan. Air flow(m /h) 100 000 0 000 000 000 000 1000 1000 Q: Return air type, High Efficiency Coil(six rows), standard fan. Y :Return air type, High Efficiency Coil(six rows), High static fan. FPS SERIES

ESP-AIRFLOW DIAGRAM 0 FPS1A 0 FPS0A 0 FPSA 0 FPS0A 0 FPS0A 0 FPS0A 0 0 0 0 0 0 00 00 00 00 00 00 10 1 9 10 7 9 10 9 10 9 7 10 97 1111 10 1111 1 9 Air flow(l/s) Air flow(l/s) Air flow(l/s) Air flow(l/s) Air flow(l/s) Air flow(l/s) FPS0A FPS0A FPS100A FPS10A FPS10A 0 00 00 00 00 0 00 00 00 00 00 00 00 00 00 00 00 00 00 10 9 17 00 17 19 00 0 77 00 0 77 00 17 19 Air flow(l/s) Air flow(l/s) Air flow(l/s) Air flow(l/s) Air flow(l/s) 1

DRAWINGS&DIMENSION Filter cover 0 100 0 0 100 0 NO NAME NOTE 70(O.D) Filter cover 7 C(O.D) D 9 NO NAME NOTE 1 water inlet water outlet drain conn. junction box end panel R outside thread R outside thread 1" outside thread - 1hole 70(O.D) 7 1 1 19 19 7 C(O.D) D Access cover 9 1 water inlet water outlet drain conn. junction box end panel R outside thread R outside thread 1" outside thread - 1hole 1 10 E 19 Access cover -1 hole 110-1 hole 110 G(0.0) Air out A F B(O.D) G(O.D) Air out Air inlet E Access cover A F G(O.D) Air inlet standard units high static Units condition A B C D E F G R FPS1A_(Z)V FPS0A_(Z)V FPSA_(Z)V FPS0A_(Z)V FPS1A_(Z)V FPS0A_(Z)V FPSA_(Z)V FPS0A_(Z)V 10 70 910 10 100 70 910 10 100 Access Section 1079 1 07 9 1 07 9 190 9 9..... 19. longer than 00 Drain valve 7 9 111 7 9 111 7 0 0 0 0 0 Air valve standard units high static Units condition A B C D E F G R FPS 0A_(Z)V FPS 0A_(Z)V FPS 0A_(Z)V FPS 0A_(Z)V FPS 0A_(Z)V FPS 0A_(Z)V 10 100 9 090 100 9 090 Access Section 1079 1 1 9 G(0.0) longer than 00 19.. 19. Air out 70 0 10 70 0 10 Drain valve 11 0 00 11 0 00 0 0 0 Air valve " " " " " " 19

WIRING DIAGRAM Filter cover 0 G 0 NO NAME NOTE 1 water inlet R outside thread FPS1-0A(Z)V R S T N FuN NFB FuT Tag FM 1 TH 1 TeS1 Component Motor Overheat protction Terminal block J L water outlet R outside thread Field manual configuration K E(O.D) P drain conn. junction box /outside thread F1 PB1 E 1F1 NFB FuN,T Air switch Fuse H F end panel - 1hole PB E F1 F1 Contactor 1F1 Overcurrent relay 1 10 110 Access cover 7 1F1 TeS1 F1 E PB1 PB Switch (stop) Switch (start) Q 0-1 hole M 0 U1 V1W1 FM1 Th1 1 Th Note)-Field wiring (Customers' own wire) FPS0-10A(Z)V Tag Component N A B C(O.D) D(O.D) Air out Air inlet R S T N FuN NFB FuT FM 1, Motor TH 1, Overheat protction TeS1 Terminal block Field manual configuration NFB Air switch Access cover Only FPS0A D(O.D) Air out F1 PB1 E PB E F1 F1 F FuN,T F1 1F1, Fuse Contactor Overcurrent relay 1 Access Section 10 longer than 00 Drain valve Air valve U1 V1W1 1F1 1F F1 TeS1 U VW 1 Th1 Th E PB1 PB Note)-Field wiring (Customers' own wire) Switch (stop) Switch (start) FM1 FM1 MODEL FPS0A_(Z)V condition N,U Fresh air M,Q Return air A 19 B C D E F G H J K L M N P Q 1900 7 10 07 90 100 90 77 R 1 " " INSTALLATION,OPERATION&MAINTENANCE standard units high static FPS100A_(Z)V FPS10A_(Z)V FPS10A_(Z)V FPS0A_(Z)V FPS100A_(Z)V FPS10A_(Z)V FPS10A_(Z)V N,U Fresh air M,Q Return air N,U Fresh air M,Q Return air N,U Fresh air M,Q Return air P,X Fresh air T,Y Return air P,X Fresh air T,Y Return air P,X Fresh air T,Y Return air P,X Fresh air T,Y Return air 11 1 0 19 11 1 0 00 100 1900 00 100 19 19 00 19 19 00 7 7 7 0 0 0 0 9 91. 190 91. 110 7. 0 10 190 110. 0 0 0 10 07 0 0 10 7 7 9 0 90 9 0 77 77 10 0 10 100 10 0 10 100 100 110 90 100 100 110 7 997 7 997 99 99 99 77 99 99 99 1 " " 1 " " 1 " " 1 " " 1 " " 1 " " 1 " " 1.Unit must be installed on level surface to prevent water flooding out of drain pan.. For service access, allow minimum 00mm clearance from the access door and piping.. Make sure the support structure is strong enough to support the unit weight. The weight of connected duct and piping should not be borne by the unit.. A trap must be fitted on the condensate drain. The height of the water seal should be equal to two times the static to ensure drain of free flow. A drain line pitch with minimum slope of 0.00 is recommended.. Install valves to the water Inlet and Outlet connections to regulate the water flow. pipes should be insulated.. The voltage and HZ of the power supply should match those indicated on the name plate. 7. The unit should be grounded properly in accordance with local regulations and check the electrical insulation before turning power on. Check that the fan impeller rotates freely and in the correct direction. 9. Open the manual air vent to make sure that there is no air in the coil. 10.The velocity of chilled water and hot water flow should be adjusted to range of 0-1 mrs. 11.For units that have two or more fans, the fans must operate at the same time. 1.Inspect the unit periodically, inspect the air filter monthly, clean or replace clogged filter element. 1.Inspect the unit periodically, inspect the air filter monthly, clean or replace clogged filter element. If the unit is not running for a long period, keep the water circuit full of water to prevent corrosion of the pipe system. To avoid breaks caused by ice, please empty the water circuit when the room temperature goes down to 0 C. 1.Clean and tighten all fan and motor electrical connections. 1.A complete and thorough maintenance is required when the unit has been operating for over two years. Inspect the coil fins for excessive dirt or damage, remove dirt and straighten fins. Check all pips are secure. 0 1

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