LST - RSCR LST - RSIR Hermetic Compressors R600a • 220V - 240V PL g TL-NL e TL-NL g g for Refrigerators and Freezers

b b 8224 8217 Application Range Yellow Warning Label b 8223 All compressors for R600a have denominations ending with K after the number for displace- a1 a1 ment or capacity. a1 d d They are designed for low operating temperatures - LBP (Low Back Pressure) for use in refri- d gerators, freezers and similar applications. Main winding a1 Start winding e Main winding a1 Start winding Compressors with endings K and KK are designed for regions with stable supply voltage. N a1 Main winding N S N Endings KTK are designed for less stable supply voltage and tropical conditions. Start winding Some of the smaller compressors and the variable speed compressors are also released for medium operating temperatures - MBP (Medium Back Pressure). N L L N L N 2 C C C Danfoss Compressors R600a 8122- Starting device LST and HST Winding protector Winding protector Winding protector • R600a is flammable in concentrations of air between approximatey 1.5% and 8.5% by volume Variable Speed Drive Protection Screen for PTC (LEL lower explosion limit and UEL upper explosion limit). • An ignition source at a temperature higher than 460°C is needed for a combustion to occur. TLV NLV Note: To fulfil the requirements of • Isobutane is significantly different from R12 and R134a. This means that compressors for R600a cannot be used with R12 or R134a. Screw 3.5x12 mm Screw 3.5x12 mm EN 60355-2-34 the protection screen Mounting Compressor Mounting Compressor recesses recesses 103N0476 must be applied to the PTC • No high potential test nor start tests must be carried out while the compressor is under vacuum. starting device. • No attempt must be made to start the compressor without a complete starting device. • Allow the compressor to assume a temperature above 10°C before starting the first time in order to avoid starting problems. • Anti-freeze agents must not be used in the compressors as such agents are damaging to several of the materials used. Electronic unit Electronic unit In particular, the ethyl or methyl alcohol contents of such anti-freeze agents have a destructive effect on the synthetic motor insulation. Earth connection Earth connection

8385-4 8385-5 Model Designation Screw 3.5x25 mm Cord relief Screw 3.5x12 mm Screw 3.5x25 mm Cord relief Screw 3.5x12 mm

Compressor Optimization Compressor Application Start Generation Cover Cover design level size range characteristics Connector Connector Power supply Power supply Fan Fan M connect. M connect. Thermostat Thermostat L L N connect. N connect. N N Blank C C 7363 PL C Light C Light L L ➞ N connect. N connect. Standard energy level Blank

R+ R+ R- f Signal input R- f Signal input Nominal displacement K first generation S Semi-direct intake in cm3 R600a Blank ➞ Electronic Unit (Variable Speed) Electronically controlled PTC LST Starting Device LBP/(MBP) universal The variable speed compressor motors are ePTC (code number 103N0050) The LST starting device (Low Starting E Energy-optimized (principal rule) .2 ➞ electronically controlled. No attempt must The ePTC solution is an easy way to Torque) is used in well-designed re- TL (optimized motor) Exception: second be made to start the compressor without save energy in existing and future frigerating systems with capillary For PL KT K = LST generation Y,X High Energy- compressors the R600a characteristics a complete electronic unit, as specified in freezer and refrigerator designs. tube as throttling device and pressure LBP/(MBP) optimized capacity at rating (capillary tube) .3 ➞ the data sheet for the compressor type in It is fully interchangeable with the equalizing. Pressure equalizing may tropical question. The electronic unit has a built-in conventional PTC types 103N0018 exceed 10 minutes. (high optimization level) point is stated. third overload protection as well as thermal and 103N0021 with 4.8 mm spade The PTC needs a compressor stand- generation protection. In case of activation of this connectors. still period of 5 minutes to cool down NL V Variable Speed protection the electronic unit will protect before each start. etc. the compressor motor as well as itself. Motor Types When the protection has been activated, Compressors with the motor type the electronic unit automatically will Examples Resistant Start Induction Run (RSIR) restart the compressor after a certain have a starting device for Low Star- time. The electronic unit provides the PL E 35 K ting Torque (LST). compressor with High Starting Torque This starting device consists of a PTC, (HST) which means that a pressure- TL ES 6 KT K a cord relief and a cover. equalization of the system before start is Advantages: not necessary. • 2 watt power consumption NL X 15 K K .2 Compressors with the motor type The compressors are equipped with reduction Resistant Start Capacitor Run (RSCR) permanent magnet rotors (PM motor) • Short recovery time have a starting device for Low Star- and 3 identical stator windings. The elec- (re-start possible after few seconds ting Torque (LST). R600a • 220-240 V tronic unit is mounted directly on the if pressure is equalized) This starting device consists of a PTC, a compressor and controls the PM motor. • Can be used to reach a higher 50 Hz & 60 Hz cord relief and a cover. A run capacitor cabinet energy class Danfoss Compressors GmbH Legend has to be connected to the PTC unit. • Can be used to replace a run Mads-Clausen-Strasse 7 capacitor in connection with e.g. D-24939 Flensburg a1: PTC starting device Phone: +49 (0461) 4941-0 a TLES compressor b: Cover www.danfoss.com/compressors d: Cord relief • Run capacitor acceptance e: Run capacitor g: Protection screen for PTC REFRIGERATION AND AIR CONDITIONING Quick reference

CB.50.D3.02 (Produced by Danfoss Compressors/DEHC 6093, 01.2004) Compressor Code EN 12900 (CECOMAF) EN 12900 (CECOMAF) at ASHRAE subcooled at Displace- Recommended Voltage Electrical Equipment Compressor Dimensions PL TLV number Capacity [W] LBP rating point -25°C / 55°C LBP rating point -23.3°C /54.4°C ment compressor cooling and LST (RSIR) LST (RSCR) Run capacitor LST/HST Height Connectors Ø16 Applications Cooling COP COP Cooling COP without COP with at ambient frequen- PTC device w/o run PTC device with run 1) optional Cover Cord [mm] location/I.D. [mm] LBP: Low Back Pressure capacity without with Capacity run capacitor run capacitor temperature cies capacitor connector capacitor connector 2) compulsory relief Suc- Pro- Dis- MBP: Medium Back Pressure Level Evaporating temperature [°C] RC RC 32°C 38°C 43°C spades spades spades tion cess charge 70

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Generation Motor types -35 -30 -20 -15 -10 -5 0 5 [W] [W/W] [W/W] [W] [kcal/h] [W/W] [kcal/Wh] [W/W] [kcal/Wh] [cm3] LBP LBP LBP 4.8 mm 6.3 mm 4.8 mm 6.3 mm 4.8 mm 6.3 mm A B C D E RSIR: Resistant Start Induction Run 2) 2) ø16 1. PLE35K 101H0360 38 52 68 87 109 27 0.68 38 33 0.90 0.77 3.00 S* S* 1 103N0021 103N006 117-7119 117-7117 103N0491 103N1010 PLE35K 137 135 6.2 6.2 5.0 170 RSCR: Resistant Start Capacitor Run TLES4KK.3 ❍ 102H4438 43 0.89 57 49 1.14 4.01 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES4KK.3 163 159 6.2 6.2 5.0 D C E 170 TLES4.8KK.3 ❍ 102H4538 57 0.99 76 65 1.27 4.78 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES4.8KK.3 163 159 6.2 6.2 5.0 C D Starting devices LST: Low Starting Torque TLES5.7KK.3 ❍ 102H4638 69 1.03 1.07 92 79 1.32 1.37 5.70 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES5.7KK.3 163 159 6.2 6.2 5.0 E HST: High Starting Torque 1) 1)

3. TLES6.5KK.3 ❍ 102H4738 82 1.03 109 94 1.32 6.49 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLES6.5KK.3 163 159 6.2 6.2 5.0 B A TLES7.5KK.3 ❍ 102H4838 94 1.03 1.07 125 108 1.32 1.37 7.48 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES7.5KK.3 163 159 6.2 6.2 5.0 A B Test conditions EN 12900 (CECOMAF) TLES8.7KK.3 ❍ 102H4938 110 1.04 147 126 1.33 8.67 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES8.7KK.3 163 159 6.2 6.2 5.0 Application R600a 206 TLES10KK.3 ❍ 102H4038 130 1.04 172 148 1.37 10.14 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES10KK.3 173 169 6.2 6.2 5.0 Condensing temperature 55°C 8300 NLE9KK.2 105H6835 57 76 130 167 212 100 1.07 1.12 133 115 1.37 1.18 1.42 1.22 8.35 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE9KK.2 190 183 6.2 6.2 5.0 Ambient temperature 32°C 230 Suction gas temperature 32°C 1) 1) NLE10KK.2 105H6851 67 91 155 198 249 120 1.10 1.13 160 138 1.40 1.21 1.44 1.24 10.09 S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE10KK.2 197 191 6.2 6.2 5.0 Liquid temperature 55°C 8301-5 1) 1)

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2. NLE11KK.2 105H6950 78 103 169 214 271 133 1.12 1.15 175 151 1.41 1.21 1.45 1.25 11.15 S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE11KK.2 197 191 6.2 6.2 5.0 220 V / 50 Hz NLE13KK.2 105H6953 88 118 198 250 313 154 1.08 1.13 204 176 1.36 1.17 1.42 1.22 13.25 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE13KK.2 197 191 6.2 6.2 5.0 Energy-optimized NLE15KK.2 105H6955 95 130 223 284 357 172 1.08 1.13 229 197 1.37 1.18 1.43 1.23 14.65 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE15KK.2 197 191 6.2 6.2 5.0 157 Test conditions ASHRAE NLE8.8KK.4 ❍ 105H6800 111 1.19 1.24 148 127 1.53 1.32 1.59 1.37 8.76 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE8.8KK.4 190 183 6.2 6.2 5.0 TL Application R600a Condensing temperature 54.4°C NLE10KK.4 ❍ 105H6867 133 1.20 1.25 176 151 1.54 1.32 1.60 1.38 10.09 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE10KK.4 190 183 6.2 6.2 5.0 ø16 Ambient temperature 32°C 1) 1) 4. NLE11KK.4 ❍ 105H6952 145 1.20 1.25 192 165 1.54 1.32 1.60 1.38 11.15 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ NLE11KK.4 190 183 6.2 6.2 5.0 NLV Suction gas temperature 32°C NLE13KK.4 ❍ 105H6959 170 1.19 1.24 225 194 1.53 1.31 1.59 1.37 13.25 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE13KK.4 190 183 6.2 6.2 5.0 Liquid temperature 32°C 70 220 V / 50 Hz NLE15KK.4 ❍ 105H6958 104 141 241 308 387 186 1.18 1.24 248 213 1.51 1.30 1.58 1.36 14.65 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE15KK.4 197 191 6.2 6.2 5.0 TLY4 KK.3 ❍ 102H4442 43 0.98 0.99 57 49 1.26 1.08 1.27 1.09 4.01 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY4 KK.3 163 159 6.2 6.2 5.0

TLY4.8KK.3 ❍ 102H4542 57 1.05 1.08 76 65 1.34 1.15 1.37 1.18 4.78 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY4.8KK.3 163 159 6.2 6.2 5.0 70 Heat output = C 170 D Capacity + Watt consumption TLY5.7KK.3 ❍ 102H4642 69 1.06 1.08 92 79 1.36 1.17 1.38 1.19 5.70 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY5.7KK.3 163 159 6.2 6.2 5.0 1) 1) ø16

3. TLY6.5KK.3 ❍ 102H4742 82 1.10 1.13 109 94 1.41 1.21 1.45 1.25 6.49 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLY6.5KK.3 163 159 6.2 6.2 5.0 1 Watt = 0.86 kcal/h E 178 TLY7.5KK.3 ❍ 102H4842 94 1.14 1.17 125 108 1.46 1.26 1.50 1.29 7.48 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY7.5KK.3 163 159 6.2 6.2 5.0 1 Watt = 3.41 Btu/h D E TLY8.7KK.3 ❍ 102H4942 110 1.12 1.16 147 126 1.43 1.23 1.49 1.28 8.67 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY8.7KK.3 173 169 6.2 6.2 5.0 A B C TLY10KK.3 ❍ 102H4042 130 1.12 1.16 172 148 1.43 1.23 1.49 1.28 10.14 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY10KK.3 173 169 6.2 6.2 5.0 Compressor cooling S = Static cooling normally sufficient TLX4KK.3 102H4447 21 32 59 76 95 45 1.15*** 60 52 1.50*** 1.29*** 4.01 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX4KK.3 173 169 6.2 6.2 5.0 O = Oil cooling 2) 2) A B TLX4.8KK.3 ❍ 102H4547 57 1.24*** 76 65 1.57*** 1.35*** 4.78 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLX4.8KK.3 173 169 6.2 6.2 5.0 222 F1 = Fan cooling 1.5 m/s TLX5.7KK.3 102H4647 37 52 91 115 143 70 1.28*** 93 80 1.63*** 1.40*** 5.70 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX5.7KK.3 173 169 6.2 6.2 5.0 (compressor compartment temp. 8301-3 2) 2) equal to ambient temperature)

3. TLX6.5KK.3 102H4747 46 63 106 133 165 83 1.30*** 110 95 1.65*** 1.42*** 6.49 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 TLX6.5KK.3 173 169 6.2 6.2 5.0 F2 = Fan cooling 3.0 m/s necessary 2) 2) TLX7.5KK.3 102H4847 55 75 125 157 195 98 1.32*** 130 112 1.68*** 1.44*** 7.48 S* S* S* 1 103N0021 103N0016 117-7132 117-7131 103N2010 103N1010 TLX7.5KK.3 173 169 6.2 6.2 5.0 260

TLX8.7KK.3 102H4947 65 88 146 184 227 115 1.31*** 152 131 1.66*** 1.43*** 8.67 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX8.7KK.3 173 169 6.2 6.2 5.0 157 8302-4 Voltages and frequencies 2) 2) TLX10KK.3 ❍ 102H4047 78 104 171 214 264 135 1.29*** 179 154 1.63*** 1.40*** 10.14 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLX10KK.3 173 169 6.2 6.2 5.0 1 = 198-254 V, 50 Hz NLX8.8KK 105H6874 60 83 144 182 227 111 1.35 148 127 1.72 1.48 8.76 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX8.8KK 203 197 6.2 6.2 5.0 2 = 187-254 V, 50 Hz NLX10KK 105H6871 74 100 169 215 269 131 1.36 174 150 1.72 1.48 10.09 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX10KK 203 197 6.2 6.2 5.0 3 = 198-254 V, 60 Hz, LBP, F1 NL 166 2) 2) 4 = 198-254 V, 50-60 Hz High Energy-optimized 1. NLX11KK 105H6984 84 112 189 240 300 147 1.36 195 168 1.73 1.49 11.15 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLX11KK 203 197 8.2 6.2 6.2 NLX13KK 105H6983 98 133 223 282 350 174 1.36 231 199 1.72 1.48 13.25 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX13KK 203 197 8.2 6.2 6.2 170 Note: To fulfil the requirements of NLX15KK 105H6981 110 147 249 317 397 193 1.34 257 221 1.70 1.46 14.65 S* S* S* 1 103N0021 103N0016 117-71292) 117-71302) 103N2010 103N1010 NLX15KK 203 197 8.2 6.2 6.2 EN 60355-2-34 the protection screen NLX8.0KK.2 ❍ 105H6000 101 1.43 135 116 1.84 1.58 8.00 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX8.0KK.2 203 197 8.2 6.2 6.2 Run Capacitor Holder 103N0476 must be applied to the PTC NLX8.8KK.2 ❍ 105H6001 113 1.45 151 130 1.86 1.60 8.76 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX8.8KK.2 203 197 8.2 6.2 6.2 A run capacitor holder is available for the starting device.

70 NLX10KK.2 ❍ 105H6100 140 1.46 187 161 1.87 1.61 10.09 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX10KK.2 203 197 8.2 6.2 6.2 „Energy-optimized“ and „High Energy- 2. 2) 2) optimized“ compressor range. This optional NLX11KK.2 ❍ 105H6971 154 1.46 205 176 1.87 1.61 11.15 S* S* S* 1 103N0021 103N0016 117-7132 117-7131 103N2010 103N1010 ❍ NLX11KK.2 203 197 8.2 6.2 6.2 ø16 Run capacitors: NLX13KK.2 ❍ 105H6976 185 1.46 247 212 1.87 1.61 13.25 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 ❍ NLX13KK.2 203 197 8.2 6.2 6.2 part enables to fix the run capacitor for 117-7117: 4 µF D E 220V directly and earth-connected on the 117-7119: 4 µF NLX15KK.2 ❍ 105H6977 208 1.46 278 239 1.87 1.61 14.65 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 ❍ NLX15KK.2 203 197 8.2 6.2 6.2 C compressor shell, concentrating all electrical 117-7129: 5 µF TLES4KTK 102H4436 18 28 55 74 96 123 154 40 0.83 0.84 54 47 1.09 0.94 1.10 0.95 3.86 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES4KTK 173 169 6.2 6.2 5.0 accessories on the compressor. This will save 117-7130: 5 µF TLES5KTK 102H4536 28 41 76 99 126 159 196 57 0.93 0.95 77 66 1.21 1.04 1.23 1.06 5.08 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES5KTK 173 169 6.2 6.2 5.0 117-7131: 3 µF space in the machine compartment. 117-7132: 3 µF TLES6KTK 102H4636 31 48 87 112 140 66 0.95 0.97 88 76 1.22 1.05 1.24 1.07 5.70 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES6KTK 173 169 6.2 6.2 5.0 A B Code numbers: TLES7KTK 102H4736 40 57 101 130 163 77 0.95 0.97 103 89 1.22 1.05 1.24 1.07 6.49 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES7KTK 173 169 6.2 6.2 5.0 run capacitor holder 117-0300

1. * = run capacitor compulsory TLES8KTK 102H4836 48 66 116 149 188 89 0.95 0.97 119 103 1.21 1.04 1.23 1.06 7.76 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES8KTK 173 169 6.2 6.2 5.0 screw M4 x 8 PZD 2 117-0301 ** = run capacitor compulsory NLE9KTK 105H6848 54 74 128 166 211 98 1.03 1.05 131 112 1.32 1.13 1.35 1.15 8.35 S S S 2/3 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE9KTK 197 191 6.2 6.2 5.0 Tropical 254 in 43°C ambient temp. at 60 Hz NLE11KTK 105H6948 73 98 162 206 261 127 1.03 1.05 167 144 1.31 1.13 1.34 1.15 11.15 S S S** 2/3 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE11KTK 197 191 6.2 6.2 5.0 ��� = COP values with ePTC 8302-3 NLE15KTK 105H6946 93 128 219 280 351 169 1.00 1.02 225 194 1.27 1.10 1.30 1.12 14.65 S S F1 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE15KTK 197 191 6.2 6.2 5.0 ❍ = preliminary data 1) 1)

2. NLE15KTK.2 105H6965 106 144 246 314 395 190 1.19 1.22 253 218 1.51 1.30 1.55 1.33 14.65 S S S 2 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE15KTK.2 203 197 8.2 6.2 6.2

TLV5K 2000 rpm 102H4580 19 29 54 70 90 112 139 40 1.13 54 47 1.46 1.26 5.08 S S S 4 electronic unit: 105N4001 2000 rpm TLV5K 173 169 6.2 6.2 5.0 166 TLV5K 4000 rpm 102H4580 34 51 99 129 166 208 258 73 1.00 99 85 1.29 1.11 5.08 S S S 4 electronic unit: 105N4001 4000 rpm TLV5K 173 169 6.2 6.2 5.0 TLV6K 2000 rpm 102H4680 24 34 61 79 100 126 155 46 1.27 62 53 1.62 1.40 5.70 S S S 4 electronic unit: 105N4001 2000 rpm TLV6K 173 169 6.2 6.2 5.0 8435 TLV6K 4000 rpm 102H4680 43 62 113 147 187 234 288 85 1.11 114 98 1.42 1.22 5.70 S S S 4 electronic unit: 105N4001 4000 rpm TLV6K 173 169 6.2 6.2 5.0 TLV7K 2000 rpm 102H4780 30 42 73 94 119 149 183 56 1.22 75 65 1.55 1.34 6.49 S S S 4 electronic unit: 105N4001 2000 rpm TLV7K 173 169 6.2 6.2 5.0 Mountig Accessories 1. TLV7K 4000 rpm 102H4780 50 71 129 168 213 266 328 98 1.10 129 113 1.41 1.21 6.49 S S S 4 electronic unit: 105N4001 4000 rpm TLV7K 173 169 6.2 6.2 5.0 Washer Clip TLV8K 2000 rpm 102H4880 35 48 84 109 138 173 213 64 1.22 86 74 1.55 1.34 7.76 S S S 4 electronic unit: 105N4001 2000 rpm TLV8K 173 169 6.2 6.2 5.0 Washer Nut M6 Steel pin TLV8K 4000 rpm 102H4880 58 83 150 194 246 308 379 113 1.11 152 131 1.41 1.21 7.76 S S S 4 electronic unit: 105N4001 4000 rpm TLV8K 173 169 6.2 6.2 5.0 Compressor base Grommet sleeve Compressor base TLV9K 2000 rpm 102H4980 41 56 97 124 157 196 241 74 1.22 99 85 1.54 1.33 8.83 S S S 4 electronic unit: 105N4001 2000 rpm TLV9K 173 169 6.2 6.2 5.0 4000 rpm 4000 rpm

TLV9K 102H4980 66 94 164 209 263 325 397 126 1.07 168 145 1.35 1.16 8.83 S S S 4 electronic unit: 105N4001 TLV9K 173 169 6.2 6.2 5.0 9

9 TLV5.7K 2000 rpm ❍ 48 1.31 64 55 1.66 1.43 5.70 S S S 4 electronic unit: 105N4201 ❍ 2000 rpm TLV5.7K 173 169 6.2 6.2 5.0 3327-2 7382-2 Variable Speed Variable

2. TLV5.7K 3000 rpm ❍ 70 1.30 93 80 1.65 1.42 5.70 S S S 4 electronic unit: 105N4201 ❍ 3000 rpm TLV5.7K 173 169 6.2 6.2 5.0 Cabinet base Rubber grommet TLV5.7K 4000 rpm ❍ 90 1.29 120 103 1.54 1.32 5.70 S S S 4 electronic unit: 105N4201 ❍ 4000 rpm TLV5.7K 173 169 6.2 6.2 5.0 Cabinet base Screw M6 x 25 Rubber grommet NLV11K 2000 rpm 105H6930 57 77 133 171 216 270 334 408 102 1.40 136 117 1.78 1.53 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 2000 rpm NLV11K 203 197 8.2 6.2 6.2 NLV11K 2500 rpm 105H6930 65 94 168 214 269 333 407 493 128 1.35 171 147 1.72 1.48 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 2500 rpm NLV11K 203 197 8.2 6.2 6.2 Bolt joint for Snap-on

1. one compressor: 118-1917 in quantities: 118-1919 NLV11K 3000 rpm 105H6930 73 109 197 251 314 387 471 568 150 1.33 201 173 1.70 1.46 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 3000 rpm NLV11K 203 197 8.2 6.2 6.2 in quantities: 118-1918 NLV11K 4000 rpm 105H6930 80 126 233 298 373 459 559 674 176 1.32 237 204 1.69 1.46 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 4000 rpm NLV11K 203 197 8.2 6.2 6.2 Compressor Code EN 12900 (CECOMAF) EN 12900 (CECOMAF) at ASHRAE subcooled at Displace- Recommended Voltage Electrical Equipment Compressor Dimensions PL TLV number Capacity [W] LBP rating point -25°C / 55°C LBP rating point -23.3°C /54.4°C ment compressor cooling and LST (RSIR) LST (RSCR) Run capacitor LST/HST Height Connectors Ø16 Applications Cooling COP COP Cooling COP without COP with at ambient frequen- PTC device w/o run PTC device with run 1) optional Cover Cord [mm] location/I.D. [mm] LBP: Low Back Pressure capacity without with Capacity run capacitor run capacitor temperature cies capacitor connector capacitor connector 2) compulsory relief Suc- Pro- Dis- MBP: Medium Back Pressure Level Evaporating temperature [°C] RC RC 32°C 38°C 43°C spades spades spades tion cess charge 70

70

Generation Motor types -35 -30 -20 -15 -10 -5 0 5 [W] [W/W] [W/W] [W] [kcal/h] [W/W] [kcal/Wh] [W/W] [kcal/Wh] [cm3] LBP LBP LBP 4.8 mm 6.3 mm 4.8 mm 6.3 mm 4.8 mm 6.3 mm A B C D E RSIR: Resistant Start Induction Run 2) 2) ø16 1. PLE35K 101H0360 38 52 68 87 109 27 0.68 38 33 0.90 0.77 3.00 S* S* 1 103N0021 103N006 117-7119 117-7117 103N0491 103N1010 PLE35K 137 135 6.2 6.2 5.0 170 RSCR: Resistant Start Capacitor Run TLES4KK.3 ❍ 102H4438 43 0.89 57 49 1.14 4.01 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES4KK.3 163 159 6.2 6.2 5.0 D C E 170 TLES4.8KK.3 ❍ 102H4538 57 0.99 76 65 1.27 4.78 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES4.8KK.3 163 159 6.2 6.2 5.0 C D Starting devices LST: Low Starting Torque TLES5.7KK.3 ❍ 102H4638 69 1.03 1.07 92 79 1.32 1.37 5.70 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES5.7KK.3 163 159 6.2 6.2 5.0 E HST: High Starting Torque 1) 1)

3. TLES6.5KK.3 ❍ 102H4738 82 1.03 109 94 1.32 6.49 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLES6.5KK.3 163 159 6.2 6.2 5.0 B A TLES7.5KK.3 ❍ 102H4838 94 1.03 1.07 125 108 1.32 1.37 7.48 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES7.5KK.3 163 159 6.2 6.2 5.0 A B Test conditions EN 12900 (CECOMAF) TLES8.7KK.3 ❍ 102H4938 110 1.04 147 126 1.33 8.67 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES8.7KK.3 163 159 6.2 6.2 5.0 Application R600a 206 TLES10KK.3 ❍ 102H4038 130 1.04 172 148 1.37 10.14 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES10KK.3 173 169 6.2 6.2 5.0 Condensing temperature 55°C 8300 NLE9KK.2 105H6835 57 76 130 167 212 100 1.07 1.12 133 115 1.37 1.18 1.42 1.22 8.35 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE9KK.2 190 183 6.2 6.2 5.0 Ambient temperature 32°C 230 Suction gas temperature 32°C 1) 1) NLE10KK.2 105H6851 67 91 155 198 249 120 1.10 1.13 160 138 1.40 1.21 1.44 1.24 10.09 S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE10KK.2 197 191 6.2 6.2 5.0 Liquid temperature 55°C 8301-5 1) 1)

130

2. NLE11KK.2 105H6950 78 103 169 214 271 133 1.12 1.15 175 151 1.41 1.21 1.45 1.25 11.15 S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE11KK.2 197 191 6.2 6.2 5.0 220 V / 50 Hz NLE13KK.2 105H6953 88 118 198 250 313 154 1.08 1.13 204 176 1.36 1.17 1.42 1.22 13.25 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE13KK.2 197 191 6.2 6.2 5.0 Energy-optimized NLE15KK.2 105H6955 95 130 223 284 357 172 1.08 1.13 229 197 1.37 1.18 1.43 1.23 14.65 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE15KK.2 197 191 6.2 6.2 5.0 157 Test conditions ASHRAE NLE8.8KK.4 ❍ 105H6800 111 1.19 1.24 148 127 1.53 1.32 1.59 1.37 8.76 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE8.8KK.4 190 183 6.2 6.2 5.0 TL Application R600a Condensing temperature 54.4°C NLE10KK.4 ❍ 105H6867 133 1.20 1.25 176 151 1.54 1.32 1.60 1.38 10.09 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE10KK.4 190 183 6.2 6.2 5.0 ø16 Ambient temperature 32°C 1) 1) 4. NLE11KK.4 ❍ 105H6952 145 1.20 1.25 192 165 1.54 1.32 1.60 1.38 11.15 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ NLE11KK.4 190 183 6.2 6.2 5.0 NLV Suction gas temperature 32°C NLE13KK.4 ❍ 105H6959 170 1.19 1.24 225 194 1.53 1.31 1.59 1.37 13.25 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE13KK.4 190 183 6.2 6.2 5.0 Liquid temperature 32°C 70 220 V / 50 Hz NLE15KK.4 ❍ 105H6958 104 141 241 308 387 186 1.18 1.24 248 213 1.51 1.30 1.58 1.36 14.65 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE15KK.4 197 191 6.2 6.2 5.0 TLY4 KK.3 ❍ 102H4442 43 0.98 0.99 57 49 1.26 1.08 1.27 1.09 4.01 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY4 KK.3 163 159 6.2 6.2 5.0

TLY4.8KK.3 ❍ 102H4542 57 1.05 1.08 76 65 1.34 1.15 1.37 1.18 4.78 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY4.8KK.3 163 159 6.2 6.2 5.0 70 Heat output = C 170 D Capacity + Watt consumption TLY5.7KK.3 ❍ 102H4642 69 1.06 1.08 92 79 1.36 1.17 1.38 1.19 5.70 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY5.7KK.3 163 159 6.2 6.2 5.0 1) 1) ø16

3. TLY6.5KK.3 ❍ 102H4742 82 1.10 1.13 109 94 1.41 1.21 1.45 1.25 6.49 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLY6.5KK.3 163 159 6.2 6.2 5.0 1 Watt = 0.86 kcal/h E 178 TLY7.5KK.3 ❍ 102H4842 94 1.14 1.17 125 108 1.46 1.26 1.50 1.29 7.48 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY7.5KK.3 163 159 6.2 6.2 5.0 1 Watt = 3.41 Btu/h D E TLY8.7KK.3 ❍ 102H4942 110 1.12 1.16 147 126 1.43 1.23 1.49 1.28 8.67 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY8.7KK.3 173 169 6.2 6.2 5.0 A B C TLY10KK.3 ❍ 102H4042 130 1.12 1.16 172 148 1.43 1.23 1.49 1.28 10.14 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY10KK.3 173 169 6.2 6.2 5.0 Compressor cooling S = Static cooling normally sufficient TLX4KK.3 102H4447 21 32 59 76 95 45 1.15*** 60 52 1.50*** 1.29*** 4.01 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX4KK.3 173 169 6.2 6.2 5.0 O = Oil cooling 2) 2) A B TLX4.8KK.3 ❍ 102H4547 57 1.24*** 76 65 1.57*** 1.35*** 4.78 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLX4.8KK.3 173 169 6.2 6.2 5.0 222 F1 = Fan cooling 1.5 m/s TLX5.7KK.3 102H4647 37 52 91 115 143 70 1.28*** 93 80 1.63*** 1.40*** 5.70 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX5.7KK.3 173 169 6.2 6.2 5.0 (compressor compartment temp. 8301-3 2) 2) equal to ambient temperature)

3. TLX6.5KK.3 102H4747 46 63 106 133 165 83 1.30*** 110 95 1.65*** 1.42*** 6.49 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 TLX6.5KK.3 173 169 6.2 6.2 5.0 F2 = Fan cooling 3.0 m/s necessary 2) 2) TLX7.5KK.3 102H4847 55 75 125 157 195 98 1.32*** 130 112 1.68*** 1.44*** 7.48 S* S* S* 1 103N0021 103N0016 117-7132 117-7131 103N2010 103N1010 TLX7.5KK.3 173 169 6.2 6.2 5.0 260

TLX8.7KK.3 102H4947 65 88 146 184 227 115 1.31*** 152 131 1.66*** 1.43*** 8.67 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX8.7KK.3 173 169 6.2 6.2 5.0 157 8302-4 Voltages and frequencies 2) 2) TLX10KK.3 ❍ 102H4047 78 104 171 214 264 135 1.29*** 179 154 1.63*** 1.40*** 10.14 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLX10KK.3 173 169 6.2 6.2 5.0 1 = 198-254 V, 50 Hz NLX8.8KK 105H6874 60 83 144 182 227 111 1.35 148 127 1.72 1.48 8.76 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX8.8KK 203 197 6.2 6.2 5.0 2 = 187-254 V, 50 Hz NLX10KK 105H6871 74 100 169 215 269 131 1.36 174 150 1.72 1.48 10.09 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX10KK 203 197 6.2 6.2 5.0 3 = 198-254 V, 60 Hz, LBP, F1 NL 166 2) 2) 4 = 198-254 V, 50-60 Hz High Energy-optimized 1. NLX11KK 105H6984 84 112 189 240 300 147 1.36 195 168 1.73 1.49 11.15 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLX11KK 203 197 8.2 6.2 6.2 NLX13KK 105H6983 98 133 223 282 350 174 1.36 231 199 1.72 1.48 13.25 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX13KK 203 197 8.2 6.2 6.2 170 Note: To fulfil the requirements of NLX15KK 105H6981 110 147 249 317 397 193 1.34 257 221 1.70 1.46 14.65 S* S* S* 1 103N0021 103N0016 117-71292) 117-71302) 103N2010 103N1010 NLX15KK 203 197 8.2 6.2 6.2 EN 60355-2-34 the protection screen NLX8.0KK.2 ❍ 105H6000 101 1.43 135 116 1.84 1.58 8.00 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX8.0KK.2 203 197 8.2 6.2 6.2 Run Capacitor Holder 103N0476 must be applied to the PTC NLX8.8KK.2 ❍ 105H6001 113 1.45 151 130 1.86 1.60 8.76 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX8.8KK.2 203 197 8.2 6.2 6.2 A run capacitor holder is available for the starting device.

70 NLX10KK.2 ❍ 105H6100 140 1.46 187 161 1.87 1.61 10.09 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX10KK.2 203 197 8.2 6.2 6.2 „Energy-optimized“ and „High Energy- 2. 2) 2) optimized“ compressor range. This optional NLX11KK.2 ❍ 105H6971 154 1.46 205 176 1.87 1.61 11.15 S* S* S* 1 103N0021 103N0016 117-7132 117-7131 103N2010 103N1010 ❍ NLX11KK.2 203 197 8.2 6.2 6.2 ø16 Run capacitors: NLX13KK.2 ❍ 105H6976 185 1.46 247 212 1.87 1.61 13.25 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 ❍ NLX13KK.2 203 197 8.2 6.2 6.2 part enables to fix the run capacitor for 117-7117: 4 µF D E 220V directly and earth-connected on the 117-7119: 4 µF NLX15KK.2 ❍ 105H6977 208 1.46 278 239 1.87 1.61 14.65 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 ❍ NLX15KK.2 203 197 8.2 6.2 6.2 C compressor shell, concentrating all electrical 117-7129: 5 µF TLES4KTK 102H4436 18 28 55 74 96 123 154 40 0.83 0.84 54 47 1.09 0.94 1.10 0.95 3.86 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES4KTK 173 169 6.2 6.2 5.0 accessories on the compressor. This will save 117-7130: 5 µF TLES5KTK 102H4536 28 41 76 99 126 159 196 57 0.93 0.95 77 66 1.21 1.04 1.23 1.06 5.08 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES5KTK 173 169 6.2 6.2 5.0 117-7131: 3 µF space in the machine compartment. 117-7132: 3 µF TLES6KTK 102H4636 31 48 87 112 140 66 0.95 0.97 88 76 1.22 1.05 1.24 1.07 5.70 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES6KTK 173 169 6.2 6.2 5.0 A B Code numbers: TLES7KTK 102H4736 40 57 101 130 163 77 0.95 0.97 103 89 1.22 1.05 1.24 1.07 6.49 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES7KTK 173 169 6.2 6.2 5.0 run capacitor holder 117-0300

1. * = run capacitor compulsory TLES8KTK 102H4836 48 66 116 149 188 89 0.95 0.97 119 103 1.21 1.04 1.23 1.06 7.76 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES8KTK 173 169 6.2 6.2 5.0 screw M4 x 8 PZD 2 117-0301 ** = run capacitor compulsory NLE9KTK 105H6848 54 74 128 166 211 98 1.03 1.05 131 112 1.32 1.13 1.35 1.15 8.35 S S S 2/3 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE9KTK 197 191 6.2 6.2 5.0 Tropical 254 in 43°C ambient temp. at 60 Hz NLE11KTK 105H6948 73 98 162 206 261 127 1.03 1.05 167 144 1.31 1.13 1.34 1.15 11.15 S S S** 2/3 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE11KTK 197 191 6.2 6.2 5.0 ��� = COP values with ePTC 8302-3 NLE15KTK 105H6946 93 128 219 280 351 169 1.00 1.02 225 194 1.27 1.10 1.30 1.12 14.65 S S F1 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE15KTK 197 191 6.2 6.2 5.0 ❍ = preliminary data 1) 1)

2. NLE15KTK.2 105H6965 106 144 246 314 395 190 1.19 1.22 253 218 1.51 1.30 1.55 1.33 14.65 S S S 2 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE15KTK.2 203 197 8.2 6.2 6.2

TLV5K 2000 rpm 102H4580 19 29 54 70 90 112 139 40 1.13 54 47 1.46 1.26 5.08 S S S 4 electronic unit: 105N4001 2000 rpm TLV5K 173 169 6.2 6.2 5.0 166 TLV5K 4000 rpm 102H4580 34 51 99 129 166 208 258 73 1.00 99 85 1.29 1.11 5.08 S S S 4 electronic unit: 105N4001 4000 rpm TLV5K 173 169 6.2 6.2 5.0 TLV6K 2000 rpm 102H4680 24 34 61 79 100 126 155 46 1.27 62 53 1.62 1.40 5.70 S S S 4 electronic unit: 105N4001 2000 rpm TLV6K 173 169 6.2 6.2 5.0 8435 TLV6K 4000 rpm 102H4680 43 62 113 147 187 234 288 85 1.11 114 98 1.42 1.22 5.70 S S S 4 electronic unit: 105N4001 4000 rpm TLV6K 173 169 6.2 6.2 5.0 TLV7K 2000 rpm 102H4780 30 42 73 94 119 149 183 56 1.22 75 65 1.55 1.34 6.49 S S S 4 electronic unit: 105N4001 2000 rpm TLV7K 173 169 6.2 6.2 5.0 Mountig Accessories 1. TLV7K 4000 rpm 102H4780 50 71 129 168 213 266 328 98 1.10 129 113 1.41 1.21 6.49 S S S 4 electronic unit: 105N4001 4000 rpm TLV7K 173 169 6.2 6.2 5.0 Washer Clip TLV8K 2000 rpm 102H4880 35 48 84 109 138 173 213 64 1.22 86 74 1.55 1.34 7.76 S S S 4 electronic unit: 105N4001 2000 rpm TLV8K 173 169 6.2 6.2 5.0 Washer Nut M6 Steel pin TLV8K 4000 rpm 102H4880 58 83 150 194 246 308 379 113 1.11 152 131 1.41 1.21 7.76 S S S 4 electronic unit: 105N4001 4000 rpm TLV8K 173 169 6.2 6.2 5.0 Compressor base Grommet sleeve Compressor base TLV9K 2000 rpm 102H4980 41 56 97 124 157 196 241 74 1.22 99 85 1.54 1.33 8.83 S S S 4 electronic unit: 105N4001 2000 rpm TLV9K 173 169 6.2 6.2 5.0 4000 rpm 4000 rpm

TLV9K 102H4980 66 94 164 209 263 325 397 126 1.07 168 145 1.35 1.16 8.83 S S S 4 electronic unit: 105N4001 TLV9K 173 169 6.2 6.2 5.0 9

9 TLV5.7K 2000 rpm ❍ 48 1.31 64 55 1.66 1.43 5.70 S S S 4 electronic unit: 105N4201 ❍ 2000 rpm TLV5.7K 173 169 6.2 6.2 5.0 3327-2 7382-2 Variable Speed Variable

2. TLV5.7K 3000 rpm ❍ 70 1.30 93 80 1.65 1.42 5.70 S S S 4 electronic unit: 105N4201 ❍ 3000 rpm TLV5.7K 173 169 6.2 6.2 5.0 Cabinet base Rubber grommet TLV5.7K 4000 rpm ❍ 90 1.29 120 103 1.54 1.32 5.70 S S S 4 electronic unit: 105N4201 ❍ 4000 rpm TLV5.7K 173 169 6.2 6.2 5.0 Cabinet base Screw M6 x 25 Rubber grommet NLV11K 2000 rpm 105H6930 57 77 133 171 216 270 334 408 102 1.40 136 117 1.78 1.53 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 2000 rpm NLV11K 203 197 8.2 6.2 6.2 NLV11K 2500 rpm 105H6930 65 94 168 214 269 333 407 493 128 1.35 171 147 1.72 1.48 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 2500 rpm NLV11K 203 197 8.2 6.2 6.2 Bolt joint for Snap-on

1. one compressor: 118-1917 in quantities: 118-1919 NLV11K 3000 rpm 105H6930 73 109 197 251 314 387 471 568 150 1.33 201 173 1.70 1.46 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 3000 rpm NLV11K 203 197 8.2 6.2 6.2 in quantities: 118-1918 NLV11K 4000 rpm 105H6930 80 126 233 298 373 459 559 674 176 1.32 237 204 1.69 1.46 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 4000 rpm NLV11K 203 197 8.2 6.2 6.2 Compressor Code EN 12900 (CECOMAF) EN 12900 (CECOMAF) at ASHRAE subcooled at Displace- Recommended Voltage Electrical Equipment Compressor Dimensions PL TLV number Capacity [W] LBP rating point -25°C / 55°C LBP rating point -23.3°C /54.4°C ment compressor cooling and LST (RSIR) LST (RSCR) Run capacitor LST/HST Height Connectors Ø16 Applications Cooling COP COP Cooling COP without COP with at ambient frequen- PTC device w/o run PTC device with run 1) optional Cover Cord [mm] location/I.D. [mm] LBP: Low Back Pressure capacity without with Capacity run capacitor run capacitor temperature cies capacitor connector capacitor connector 2) compulsory relief Suc- Pro- Dis- MBP: Medium Back Pressure Level Evaporating temperature [°C] RC RC 32°C 38°C 43°C spades spades spades tion cess charge 70

70

Generation Motor types -35 -30 -20 -15 -10 -5 0 5 [W] [W/W] [W/W] [W] [kcal/h] [W/W] [kcal/Wh] [W/W] [kcal/Wh] [cm3] LBP LBP LBP 4.8 mm 6.3 mm 4.8 mm 6.3 mm 4.8 mm 6.3 mm A B C D E RSIR: Resistant Start Induction Run 2) 2) ø16 1. PLE35K 101H0360 38 52 68 87 109 27 0.68 38 33 0.90 0.77 3.00 S* S* 1 103N0021 103N006 117-7119 117-7117 103N0491 103N1010 PLE35K 137 135 6.2 6.2 5.0 170 RSCR: Resistant Start Capacitor Run TLES4KK.3 ❍ 102H4438 43 0.89 57 49 1.14 4.01 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES4KK.3 163 159 6.2 6.2 5.0 D C E 170 TLES4.8KK.3 ❍ 102H4538 57 0.99 76 65 1.27 4.78 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES4.8KK.3 163 159 6.2 6.2 5.0 C D Starting devices LST: Low Starting Torque TLES5.7KK.3 ❍ 102H4638 69 1.03 1.07 92 79 1.32 1.37 5.70 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES5.7KK.3 163 159 6.2 6.2 5.0 E HST: High Starting Torque 1) 1)

3. TLES6.5KK.3 ❍ 102H4738 82 1.03 109 94 1.32 6.49 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLES6.5KK.3 163 159 6.2 6.2 5.0 B A TLES7.5KK.3 ❍ 102H4838 94 1.03 1.07 125 108 1.32 1.37 7.48 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES7.5KK.3 163 159 6.2 6.2 5.0 A B Test conditions EN 12900 (CECOMAF) TLES8.7KK.3 ❍ 102H4938 110 1.04 147 126 1.33 8.67 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES8.7KK.3 163 159 6.2 6.2 5.0 Application R600a 206 TLES10KK.3 ❍ 102H4038 130 1.04 172 148 1.37 10.14 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLES10KK.3 173 169 6.2 6.2 5.0 Condensing temperature 55°C 8300 NLE9KK.2 105H6835 57 76 130 167 212 100 1.07 1.12 133 115 1.37 1.18 1.42 1.22 8.35 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE9KK.2 190 183 6.2 6.2 5.0 Ambient temperature 32°C 230 Suction gas temperature 32°C 1) 1) NLE10KK.2 105H6851 67 91 155 198 249 120 1.10 1.13 160 138 1.40 1.21 1.44 1.24 10.09 S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE10KK.2 197 191 6.2 6.2 5.0 Liquid temperature 55°C 8301-5 1) 1)

130

2. NLE11KK.2 105H6950 78 103 169 214 271 133 1.12 1.15 175 151 1.41 1.21 1.45 1.25 11.15 S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE11KK.2 197 191 6.2 6.2 5.0 220 V / 50 Hz NLE13KK.2 105H6953 88 118 198 250 313 154 1.08 1.13 204 176 1.36 1.17 1.42 1.22 13.25 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE13KK.2 197 191 6.2 6.2 5.0 Energy-optimized NLE15KK.2 105H6955 95 130 223 284 357 172 1.08 1.13 229 197 1.37 1.18 1.43 1.23 14.65 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE15KK.2 197 191 6.2 6.2 5.0 157 Test conditions ASHRAE NLE8.8KK.4 ❍ 105H6800 111 1.19 1.24 148 127 1.53 1.32 1.59 1.37 8.76 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE8.8KK.4 190 183 6.2 6.2 5.0 TL Application R600a Condensing temperature 54.4°C NLE10KK.4 ❍ 105H6867 133 1.20 1.25 176 151 1.54 1.32 1.60 1.38 10.09 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE10KK.4 190 183 6.2 6.2 5.0 ø16 Ambient temperature 32°C 1) 1) 4. NLE11KK.4 ❍ 105H6952 145 1.20 1.25 192 165 1.54 1.32 1.60 1.38 11.15 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ NLE11KK.4 190 183 6.2 6.2 5.0 NLV Suction gas temperature 32°C NLE13KK.4 ❍ 105H6959 170 1.19 1.24 225 194 1.53 1.31 1.59 1.37 13.25 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE13KK.4 190 183 6.2 6.2 5.0 Liquid temperature 32°C 70 220 V / 50 Hz NLE15KK.4 ❍ 105H6958 104 141 241 308 387 186 1.18 1.24 248 213 1.51 1.30 1.58 1.36 14.65 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ NLE15KK.4 197 191 6.2 6.2 5.0 TLY4 KK.3 ❍ 102H4442 43 0.98 0.99 57 49 1.26 1.08 1.27 1.09 4.01 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY4 KK.3 163 159 6.2 6.2 5.0

TLY4.8KK.3 ❍ 102H4542 57 1.05 1.08 76 65 1.34 1.15 1.37 1.18 4.78 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY4.8KK.3 163 159 6.2 6.2 5.0 70 Heat output = C 170 D Capacity + Watt consumption TLY5.7KK.3 ❍ 102H4642 69 1.06 1.08 92 79 1.36 1.17 1.38 1.19 5.70 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY5.7KK.3 163 159 6.2 6.2 5.0 1) 1) ø16

3. TLY6.5KK.3 ❍ 102H4742 82 1.10 1.13 109 94 1.41 1.21 1.45 1.25 6.49 S S S 1 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLY6.5KK.3 163 159 6.2 6.2 5.0 1 Watt = 0.86 kcal/h E 178 TLY7.5KK.3 ❍ 102H4842 94 1.14 1.17 125 108 1.46 1.26 1.50 1.29 7.48 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY7.5KK.3 163 159 6.2 6.2 5.0 1 Watt = 3.41 Btu/h D E TLY8.7KK.3 ❍ 102H4942 110 1.12 1.16 147 126 1.43 1.23 1.49 1.28 8.67 S S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY8.7KK.3 173 169 6.2 6.2 5.0 A B C TLY10KK.3 ❍ 102H4042 130 1.12 1.16 172 148 1.43 1.23 1.49 1.28 10.14 S S 1 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 ❍ TLY10KK.3 173 169 6.2 6.2 5.0 Compressor cooling S = Static cooling normally sufficient TLX4KK.3 102H4447 21 32 59 76 95 45 1.15*** 60 52 1.50*** 1.29*** 4.01 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX4KK.3 173 169 6.2 6.2 5.0 O = Oil cooling 2) 2) A B TLX4.8KK.3 ❍ 102H4547 57 1.24*** 76 65 1.57*** 1.35*** 4.78 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLX4.8KK.3 173 169 6.2 6.2 5.0 222 F1 = Fan cooling 1.5 m/s TLX5.7KK.3 102H4647 37 52 91 115 143 70 1.28*** 93 80 1.63*** 1.40*** 5.70 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX5.7KK.3 173 169 6.2 6.2 5.0 (compressor compartment temp. 8301-3 2) 2) equal to ambient temperature)

3. TLX6.5KK.3 102H4747 46 63 106 133 165 83 1.30*** 110 95 1.65*** 1.42*** 6.49 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 TLX6.5KK.3 173 169 6.2 6.2 5.0 F2 = Fan cooling 3.0 m/s necessary 2) 2) TLX7.5KK.3 102H4847 55 75 125 157 195 98 1.32*** 130 112 1.68*** 1.44*** 7.48 S* S* S* 1 103N0021 103N0016 117-7132 117-7131 103N2010 103N1010 TLX7.5KK.3 173 169 6.2 6.2 5.0 260

TLX8.7KK.3 102H4947 65 88 146 184 227 115 1.31*** 152 131 1.66*** 1.43*** 8.67 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 TLX8.7KK.3 173 169 6.2 6.2 5.0 157 8302-4 Voltages and frequencies 2) 2) TLX10KK.3 ❍ 102H4047 78 104 171 214 264 135 1.29*** 179 154 1.63*** 1.40*** 10.14 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 ❍ TLX10KK.3 173 169 6.2 6.2 5.0 1 = 198-254 V, 50 Hz NLX8.8KK 105H6874 60 83 144 182 227 111 1.35 148 127 1.72 1.48 8.76 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX8.8KK 203 197 6.2 6.2 5.0 2 = 187-254 V, 50 Hz NLX10KK 105H6871 74 100 169 215 269 131 1.36 174 150 1.72 1.48 10.09 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX10KK 203 197 6.2 6.2 5.0 3 = 198-254 V, 60 Hz, LBP, F1 NL 166 2) 2) 4 = 198-254 V, 50-60 Hz High Energy-optimized 1. NLX11KK 105H6984 84 112 189 240 300 147 1.36 195 168 1.73 1.49 11.15 S* S* S* 1 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLX11KK 203 197 8.2 6.2 6.2 NLX13KK 105H6983 98 133 223 282 350 174 1.36 231 199 1.72 1.48 13.25 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 NLX13KK 203 197 8.2 6.2 6.2 170 Note: To fulfil the requirements of NLX15KK 105H6981 110 147 249 317 397 193 1.34 257 221 1.70 1.46 14.65 S* S* S* 1 103N0021 103N0016 117-71292) 117-71302) 103N2010 103N1010 NLX15KK 203 197 8.2 6.2 6.2 EN 60355-2-34 the protection screen NLX8.0KK.2 ❍ 105H6000 101 1.43 135 116 1.84 1.58 8.00 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX8.0KK.2 203 197 8.2 6.2 6.2 Run Capacitor Holder 103N0476 must be applied to the PTC NLX8.8KK.2 ❍ 105H6001 113 1.45 151 130 1.86 1.60 8.76 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX8.8KK.2 203 197 8.2 6.2 6.2 A run capacitor holder is available for the starting device.

70 NLX10KK.2 ❍ 105H6100 140 1.46 187 161 1.87 1.61 10.09 S* S* S* 1 103N0021 103N0016 117-71322) 117-71312) 103N2010 103N1010 ❍ NLX10KK.2 203 197 8.2 6.2 6.2 „Energy-optimized“ and „High Energy- 2. 2) 2) optimized“ compressor range. This optional NLX11KK.2 ❍ 105H6971 154 1.46 205 176 1.87 1.61 11.15 S* S* S* 1 103N0021 103N0016 117-7132 117-7131 103N2010 103N1010 ❍ NLX11KK.2 203 197 8.2 6.2 6.2 ø16 Run capacitors: NLX13KK.2 ❍ 105H6976 185 1.46 247 212 1.87 1.61 13.25 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 ❍ NLX13KK.2 203 197 8.2 6.2 6.2 part enables to fix the run capacitor for 117-7117: 4 µF D E 220V directly and earth-connected on the 117-7119: 4 µF NLX15KK.2 ❍ 105H6977 208 1.46 278 239 1.87 1.61 14.65 S* S* S* 1 103N0021 103N0016 117-71192) 117-71172) 103N2010 103N1010 ❍ NLX15KK.2 203 197 8.2 6.2 6.2 C compressor shell, concentrating all electrical 117-7129: 5 µF TLES4KTK 102H4436 18 28 55 74 96 123 154 40 0.83 0.84 54 47 1.09 0.94 1.10 0.95 3.86 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES4KTK 173 169 6.2 6.2 5.0 accessories on the compressor. This will save 117-7130: 5 µF TLES5KTK 102H4536 28 41 76 99 126 159 196 57 0.93 0.95 77 66 1.21 1.04 1.23 1.06 5.08 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES5KTK 173 169 6.2 6.2 5.0 117-7131: 3 µF space in the machine compartment. 117-7132: 3 µF TLES6KTK 102H4636 31 48 87 112 140 66 0.95 0.97 88 76 1.22 1.05 1.24 1.07 5.70 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES6KTK 173 169 6.2 6.2 5.0 A B Code numbers: TLES7KTK 102H4736 40 57 101 130 163 77 0.95 0.97 103 89 1.22 1.05 1.24 1.07 6.49 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES7KTK 173 169 6.2 6.2 5.0 run capacitor holder 117-0300

1. * = run capacitor compulsory TLES8KTK 102H4836 48 66 116 149 188 89 0.95 0.97 119 103 1.21 1.04 1.23 1.06 7.76 S S S 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 TLES8KTK 173 169 6.2 6.2 5.0 screw M4 x 8 PZD 2 117-0301 ** = run capacitor compulsory NLE9KTK 105H6848 54 74 128 166 211 98 1.03 1.05 131 112 1.32 1.13 1.35 1.15 8.35 S S S 2/3 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE9KTK 197 191 6.2 6.2 5.0 Tropical 254 in 43°C ambient temp. at 60 Hz NLE11KTK 105H6948 73 98 162 206 261 127 1.03 1.05 167 144 1.31 1.13 1.34 1.15 11.15 S S S** 2/3 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE11KTK 197 191 6.2 6.2 5.0 ��� = COP values with ePTC 8302-3 NLE15KTK 105H6946 93 128 219 280 351 169 1.00 1.02 225 194 1.27 1.10 1.30 1.12 14.65 S S F1 2 103N0018 103N0011 103N0021 103N0016 117-71191) 117-71171) 103N2010 103N1010 NLE15KTK 197 191 6.2 6.2 5.0 ❍ = preliminary data 1) 1)

2. NLE15KTK.2 105H6965 106 144 246 314 395 190 1.19 1.22 253 218 1.51 1.30 1.55 1.33 14.65 S S S 2 103N0018 103N0011 103N0021 103N0016 117-7119 117-7117 103N2010 103N1010 NLE15KTK.2 203 197 8.2 6.2 6.2

TLV5K 2000 rpm 102H4580 19 29 54 70 90 112 139 40 1.13 54 47 1.46 1.26 5.08 S S S 4 electronic unit: 105N4001 2000 rpm TLV5K 173 169 6.2 6.2 5.0 166 TLV5K 4000 rpm 102H4580 34 51 99 129 166 208 258 73 1.00 99 85 1.29 1.11 5.08 S S S 4 electronic unit: 105N4001 4000 rpm TLV5K 173 169 6.2 6.2 5.0 TLV6K 2000 rpm 102H4680 24 34 61 79 100 126 155 46 1.27 62 53 1.62 1.40 5.70 S S S 4 electronic unit: 105N4001 2000 rpm TLV6K 173 169 6.2 6.2 5.0 8435 TLV6K 4000 rpm 102H4680 43 62 113 147 187 234 288 85 1.11 114 98 1.42 1.22 5.70 S S S 4 electronic unit: 105N4001 4000 rpm TLV6K 173 169 6.2 6.2 5.0 TLV7K 2000 rpm 102H4780 30 42 73 94 119 149 183 56 1.22 75 65 1.55 1.34 6.49 S S S 4 electronic unit: 105N4001 2000 rpm TLV7K 173 169 6.2 6.2 5.0 Mountig Accessories 1. TLV7K 4000 rpm 102H4780 50 71 129 168 213 266 328 98 1.10 129 113 1.41 1.21 6.49 S S S 4 electronic unit: 105N4001 4000 rpm TLV7K 173 169 6.2 6.2 5.0 Washer Clip TLV8K 2000 rpm 102H4880 35 48 84 109 138 173 213 64 1.22 86 74 1.55 1.34 7.76 S S S 4 electronic unit: 105N4001 2000 rpm TLV8K 173 169 6.2 6.2 5.0 Washer Nut M6 Steel pin TLV8K 4000 rpm 102H4880 58 83 150 194 246 308 379 113 1.11 152 131 1.41 1.21 7.76 S S S 4 electronic unit: 105N4001 4000 rpm TLV8K 173 169 6.2 6.2 5.0 Compressor base Grommet sleeve Compressor base TLV9K 2000 rpm 102H4980 41 56 97 124 157 196 241 74 1.22 99 85 1.54 1.33 8.83 S S S 4 electronic unit: 105N4001 2000 rpm TLV9K 173 169 6.2 6.2 5.0 4000 rpm 4000 rpm

TLV9K 102H4980 66 94 164 209 263 325 397 126 1.07 168 145 1.35 1.16 8.83 S S S 4 electronic unit: 105N4001 TLV9K 173 169 6.2 6.2 5.0 9

9 TLV5.7K 2000 rpm ❍ 48 1.31 64 55 1.66 1.43 5.70 S S S 4 electronic unit: 105N4201 ❍ 2000 rpm TLV5.7K 173 169 6.2 6.2 5.0 3327-2 7382-2 Variable Speed Variable

2. TLV5.7K 3000 rpm ❍ 70 1.30 93 80 1.65 1.42 5.70 S S S 4 electronic unit: 105N4201 ❍ 3000 rpm TLV5.7K 173 169 6.2 6.2 5.0 Cabinet base Rubber grommet TLV5.7K 4000 rpm ❍ 90 1.29 120 103 1.54 1.32 5.70 S S S 4 electronic unit: 105N4201 ❍ 4000 rpm TLV5.7K 173 169 6.2 6.2 5.0 Cabinet base Screw M6 x 25 Rubber grommet NLV11K 2000 rpm 105H6930 57 77 133 171 216 270 334 408 102 1.40 136 117 1.78 1.53 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 2000 rpm NLV11K 203 197 8.2 6.2 6.2 NLV11K 2500 rpm 105H6930 65 94 168 214 269 333 407 493 128 1.35 171 147 1.72 1.48 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 2500 rpm NLV11K 203 197 8.2 6.2 6.2 Bolt joint for Snap-on

1. one compressor: 118-1917 in quantities: 118-1919 NLV11K 3000 rpm 105H6930 73 109 197 251 314 387 471 568 150 1.33 201 173 1.70 1.46 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 3000 rpm NLV11K 203 197 8.2 6.2 6.2 in quantities: 118-1918 NLV11K 4000 rpm 105H6930 80 126 233 298 373 459 559 674 176 1.32 237 204 1.69 1.46 11.15 S S S 4 electronic unit: 105N4201 / 105N4001 (LBP only) 4000 rpm NLV11K 203 197 8.2 6.2 6.2 LST - RSCR LST - RSIR Hermetic Compressors R600a • 220V - 240V PL g TL-NL e TL-NL g g for Refrigerators and Freezers

b b 8224 8217 Application Range Yellow Warning Label b 8223 All compressors for R600a have denominations ending with K after the number for displace- a1 a1 ment or capacity. a1 d d They are designed for low operating temperatures - LBP (Low Back Pressure) for use in refri- d gerators, freezers and similar applications. Main winding a1 Start winding e Main winding a1 Start winding Compressors with endings K and KK are designed for regions with stable supply voltage. N a1 Main winding N S N Endings KTK are designed for less stable supply voltage and tropical conditions. Start winding Some of the smaller compressors and the variable speed compressors are also released for medium operating temperatures - MBP (Medium Back Pressure). N L L N L N 2 C C C Danfoss Compressors R600a 8122- Starting device LST and HST Winding protector Winding protector Winding protector • R600a is flammable in concentrations of air between approximatey 1.5% and 8.5% by volume Variable Speed Drive Protection Screen for PTC (LEL lower explosion limit and UEL upper explosion limit). • An ignition source at a temperature higher than 460°C is needed for a combustion to occur. TLV NLV Note: To fulfil the requirements of • Isobutane is significantly different from R12 and R134a. This means that compressors for R600a cannot be used with R12 or R134a. Screw 3.5x12 mm Screw 3.5x12 mm EN 60355-2-34 the protection screen Mounting Compressor Mounting Compressor recesses recesses 103N0476 must be applied to the PTC • No high potential test nor start tests must be carried out while the compressor is under vacuum. starting device. • No attempt must be made to start the compressor without a complete starting device. • Allow the compressor to assume a temperature above 10°C before starting the first time in order to avoid starting problems. • Anti-freeze agents must not be used in the compressors as such agents are damaging to several of the materials used. Electronic unit Electronic unit In particular, the ethyl or methyl alcohol contents of such anti-freeze agents have a destructive effect on the synthetic motor insulation. Earth connection Earth connection

8385-4 8385-5 Model Designation Screw 3.5x25 mm Cord relief Screw 3.5x12 mm Screw 3.5x25 mm Cord relief Screw 3.5x12 mm

Compressor Optimization Compressor Application Start Generation Cover Cover design level size range characteristics Connector Connector Power supply Power supply Fan Fan M connect. M connect. Thermostat Thermostat L L N connect. N connect. N N Blank C C 7363 PL C Light C Light L L ➞ N connect. N connect. Standard energy level Blank

R+ R+ R- f Signal input R- f Signal input Nominal displacement K first generation S Semi-direct intake in cm3 R600a Blank ➞ Electronic Unit (Variable Speed) Electronically controlled PTC LST Starting Device LBP/(MBP) universal The variable speed compressor motors are ePTC (code number 103N0050) The LST starting device (Low Starting E Energy-optimized (principal rule) .2 ➞ electronically controlled. No attempt must The ePTC solution is an easy way to Torque) is used in well-designed re- TL (optimized motor) Exception: second be made to start the compressor without save energy in existing and future frigerating systems with capillary For PL KT K = LST generation Y,X High Energy- compressors the R600a characteristics a complete electronic unit, as specified in freezer and refrigerator designs. tube as throttling device and pressure LBP/(MBP) optimized capacity at rating (capillary tube) .3 ➞ the data sheet for the compressor type in It is fully interchangeable with the equalizing. Pressure equalizing may tropical question. The electronic unit has a built-in conventional PTC types 103N0018 exceed 10 minutes. (high optimization level) point is stated. third overload protection as well as thermal and 103N0021 with 4.8 mm spade The PTC needs a compressor stand- generation protection. In case of activation of this connectors. still period of 5 minutes to cool down NL V Variable Speed protection the electronic unit will protect before each start. etc. the compressor motor as well as itself. Motor Types When the protection has been activated, Compressors with the motor type the electronic unit automatically will Examples Resistant Start Induction Run (RSIR) restart the compressor after a certain have a starting device for Low Star- time. The electronic unit provides the PL E 35 K ting Torque (LST). compressor with High Starting Torque This starting device consists of a PTC, (HST) which means that a pressure- TL ES 6 KT a cord relief and a cover. equalization of the system before start is Advantages: not necessary. • 2 watt power consumption NL X 15 K 2 Compressors with the motor type The compressors are equipped with reduction Resistant Start Capacitor Run (RSCR) permanent magnet rotors (PM motor) • Short recovery time have a starting device for Low Star- and 3 identical stator windings. The elec- (re-start possible after few seconds ting Torque (LST). R600a • 220-240 V tronic unit is mounted directly on the if pressure is equalized) This starting device consists of a PTC, a compressor and controls the PM motor. • Can be used to reach a higher 50 Hz & 60 Hz cord relief and a cover. A run capacitor cabinet energy class Danfoss Compressors GmbH Legend has to be connected to the PTC unit. • Can be used to replace a run Mads-Clausen-Strasse 7 capacitor in connection with e.g. D-24939 Flensburg a1: PTC starting device Phone: +49 (0461) 4941-0 a TLES compressor b: Cover www.danfoss.com/compressors d: Cord relief • Run capacitor acceptance e: Run capacitor g: Protection screen for PTC REFRIGERATION AND AIR CONDITIONING Quick reference

CB.50.D3.02 (Produced by Danfoss Compressors/DEHC 6093, 01.2004) LST - RSCR LST - RSIR Hermetic Compressors R600a • 220V - 240V PL g TL-NL e TL-NL g g for Refrigerators and Freezers

b b 8224 8217 Application Range Yellow Warning Label b 8223 All compressors for R600a have denominations ending with K after the number for displace- a1 a1 ment or capacity. a1 d d They are designed for low operating temperatures - LBP (Low Back Pressure) for use in refri- d gerators, freezers and similar applications. Main winding a1 Start winding e Main winding a1 Start winding Compressors with endings K and KK are designed for regions with stable supply voltage. N a1 Main winding N S N Endings KTK are designed for less stable supply voltage and tropical conditions. Start winding Some of the smaller compressors and the variable speed compressors are also released for medium operating temperatures - MBP (Medium Back Pressure). N L L N L N 2 C C C Danfoss Compressors R600a 8122- Starting device LST and HST Winding protector Winding protector Winding protector • R600a is flammable in concentrations of air between approximatey 1.5% and 8.5% by volume Variable Speed Drive Protection Screen for PTC (LEL lower explosion limit and UEL upper explosion limit). • An ignition source at a temperature higher than 460°C is needed for a combustion to occur. TLV NLV Note: To fulfil the requirements of • Isobutane is significantly different from R12 and R134a. This means that compressors for R600a cannot be used with R12 or R134a. Screw 3.5x12 mm Screw 3.5x12 mm EN 60355-2-34 the protection screen Mounting Compressor Mounting Compressor recesses recesses 103N0476 must be applied to the PTC • No high potential test nor start tests must be carried out while the compressor is under vacuum. starting device. • No attempt must be made to start the compressor without a complete starting device. • Allow the compressor to assume a temperature above 10°C before starting the first time in order to avoid starting problems. • Anti-freeze agents must not be used in the compressors as such agents are damaging to several of the materials used. Electronic unit Electronic unit In particular, the ethyl or methyl alcohol contents of such anti-freeze agents have a destructive effect on the synthetic motor insulation. Earth connection Earth connection

8385-4 8385-5 Model Designation Screw 3.5x25 mm Cord relief Screw 3.5x12 mm Screw 3.5x25 mm Cord relief Screw 3.5x12 mm

Compressor Optimization Compressor Application Start Generation Cover Cover design level size range characteristics Connector Connector Power supply Power supply Fan Fan M connect. M connect. Thermostat Thermostat L L N connect. N connect. N N Blank C C 7363 PL C Light C Light L L ➞ N connect. N connect. Standard energy level Blank

R+ R+ R- f Signal input R- f Signal input Nominal displacement K first generation S Semi-direct intake in cm3 R600a Blank ➞ Electronic Unit (Variable Speed) Electronically controlled PTC LST Starting Device LBP/(MBP) universal The variable speed compressor motors are ePTC (code number 103N0050) The LST starting device (Low Starting E Energy-optimized (principal rule) .2 ➞ electronically controlled. No attempt must The ePTC solution is an easy way to Torque) is used in well-designed re- TL (optimized motor) Exception: second be made to start the compressor without save energy in existing and future frigerating systems with capillary For PL KT K = LST generation Y,X High Energy- compressors the R600a characteristics a complete electronic unit, as specified in freezer and refrigerator designs. tube as throttling device and pressure LBP/(MBP) optimized capacity at rating (capillary tube) .3 ➞ the data sheet for the compressor type in It is fully interchangeable with the equalizing. Pressure equalizing may tropical question. The electronic unit has a built-in conventional PTC types 103N0018 exceed 10 minutes. (high optimization level) point is stated. third overload protection as well as thermal and 103N0021 with 4.8 mm spade The PTC needs a compressor stand- generation protection. In case of activation of this connectors. still period of 5 minutes to cool down NL V Variable Speed protection the electronic unit will protect before each start. etc. the compressor motor as well as itself. Motor Types When the protection has been activated, Compressors with the motor type the electronic unit automatically will Examples Resistant Start Induction Run (RSIR) restart the compressor after a certain have a starting device for Low Star- time. The electronic unit provides the PL E 35 K ting Torque (LST). compressor with High Starting Torque This starting device consists of a PTC, (HST) which means that a pressure- TL ES 6 KT a cord relief and a cover. equalization of the system before start is Advantages: not necessary. • 2 watt power consumption NL X 15 K 2 Compressors with the motor type The compressors are equipped with reduction Resistant Start Capacitor Run (RSCR) permanent magnet rotors (PM motor) • Short recovery time have a starting device for Low Star- and 3 identical stator windings. The elec- (re-start possible after few seconds ting Torque (LST). R600a • 220-240 V tronic unit is mounted directly on the if pressure is equalized) This starting device consists of a PTC, a compressor and controls the PM motor. • Can be used to reach a higher 50 Hz & 60 Hz cord relief and a cover. A run capacitor cabinet energy class Danfoss Compressors GmbH Legend has to be connected to the PTC unit. • Can be used to replace a run Mads-Clausen-Strasse 7 capacitor in connection with e.g. D-24939 Flensburg a1: PTC starting device Phone: +49 (0461) 4941-0 a TLES compressor b: Cover www.danfoss.com/compressors d: Cord relief • Run capacitor acceptance e: Run capacitor g: Protection screen for PTC REFRIGERATION AND AIR CONDITIONING Quick reference

CB.50.D3.02 (Produced by Danfoss Compressors/DEHC 6093, 01.2004)