VALU-BAM MI92 eries Intrinsically safe dc sensor MI92 eries sensor, I3R2 current amplifier module (left) and intrinsic safety barrier (right) Offers economy, performance and reliability in a rugged housing Provides standard limit-switch mounting hole spacing Use approved intrinsically safety barriers and Banner M-AMP model I3R2 current trip point amplifier ertified for use in all lasses, roups, and Divisions of hazardous locations as defined by Article 5 of the ational lectrical ode when used approved I.. barriers Provides to 3 V dc supply voltage P output Features a light- or dark-operate selection switch Available in opposed, polarized and non-polarized retroreflective, diffuse, convergent, and glass or plastic fiber optic sensing modes Ranges up to 6 meters Integral 3-pin Mini-style QD fitting; QD cordset required, see Accessories ensing Mode Models Range Long-range opposed, 88 nm ffective Beam: 3 mm (.5 in) MI9QD mitter MI9RQD Receiver 6 m (2 ft) OPPOD hort-range opposed, 88 nm ffective Beam: 3.5 mm (. in) MI9RQD mitter MI9RRQD Receiver 3 m ( ft) on-polarized retroreflective, 65 nm Visible Red MI92LVQD 5 mm to 9 m (6 in to 3 ft) RTRO P Polarized retroreflective, 65 nm Visible Red MI92LVAQD 3 mm to.5 m ( to 5 ft) POLAR RTRO ensing Mode Models Range Long-range diffuse, 88 nm Infrared MI92DQD 76 mm (3 in) DIFFU hort-range diffuse, 88 nm Infrared MI92DRQD 38 mm (5 in) Focus at: 38 mm (.5 in) OVRT VIIBL RD onvergent, 65 nm Visible Red MI92VQD pot ize at Focus:.5 mm (.6 in) Plastic fiber optic, 65 nm Visible Red MI92FPQD PLATI FIBR lass fiber optic, 88 nm Infrared MI92FQD mitter MI92RFQD Receiver ee performance curves lass fiber optic, 88 nm Infrared MI92FQD LA FIBR Performance based on use of a model BRT-3 retroreflector (3-inch diameter). Actual sensing range may be more or less than specified, depending on the efficiency and reflective area of the retroreflector used. Original Document 3396 Rev. M 6 ovember 2 3396
VALU-BAM MI92 eries WARI: ot To Be Used for Personnel Protection ever use this device as a sensing device for personnel protection. Doing so could lead to serious injury or death. This device does not include the self-checking redundant circuitry necessary to allow its use in personnel safety applications. A sensor failure or malfunction can cause either an energized or de-energized sensor output condition. Overview VALU-BAM MI92 eries sensors are designed for intrinsically safe operation in hazardous atmospheres. They are certified by FM Approvals and A as being intrinsically safe when used approved intrinsic safety barriers. MI92 eries sensors may be wired for either two- or three-wire current-sinking operation. In the three-wire hookup, which requires two intrinsic-safety barriers, the sink current is 5 ma. The two-wire hookup, which requires one barrier, sinks ma (OFF state) and 2 ma (O state). ens. Regulator L.. Brown to 3V dc Receiver Amp Demodulator D.. Black Output Oscillator D urrent ense 36V 27 Ohms mitter ommon MI92 eries sensors feature rugged, encapsulated construction, along adjustable sensitivity and switchable light or dark operate. They also include Banner's exclusive Alignment Indicating Device system, which lights an indicator LD whenever the sensor sees its modulated light source, and pulses at a rate proportional to the received light signal strength. Intrinsic safety barriers and current trip point amplifier model I3R2 are also available (see Accessories). Installation otes WARI: xplosion Hazard Do not disconnect equipment unless power has been switched Off or the area is known to be nonhazardous. FM Installation. Barriers must be installed in accordance manufacturer's instructions. 2. Barrier entity parameters must meet the following requirements: Voc or Vt Vmax a i cable Isc or It I max La Li Lcable 3. Maximum non-hazardous area voltage must not exceed 25V.. For guidance on installation, see /IA RP2.6, Installation of Intrinsically afe Instrument ystems for Hazardous (lassified) Locations. 5. The sensors are suitable for installation out barriers in lass I Div. 2 roups A, B,, D; lass II Div. 2 roup ; and lass III Div. 2, when installed in (or through the wall of) a suitable enclosure provision for connection of rigid metal conduit per the ational lectrical ode, as acceptable to the local inspection authority having jurisdiction. 2 www.bannerengineering.com - Tel: -763-5-36 P/ 3396 Rev. M
VALU-BAM MI92 eries A Installation. Barriers must be installed in accordance manufacturer's instructions. 2. Barrier entity parameters must meet the following requirements: Voc Vmax a i cable Isc I max La Li Lcable 3. Maximum non-hazardous area voltage must not exceed 25V.. Install in accordance anadian lectrical ode, Part I. 5. The sensors are suitable for installation out barriers in lass I Div. 2 roups A, B,, D when installed in (or through the wall of) a suitable enclosure provision for connection of rigid metal conduit per the anadian lectrical ode, as acceptable to the local inspection authority having jurisdiction. In Div. 2 installations (out barriers), observe warning at left. 6. If barriers Volt/Ohm parameters are used, the following parameters shall apply: One ingle-hannel Barrier ystems one 28 V (max), 3 Ω (min) Two ingle-hannel Barrier or One Dual-hannel ystems two 28 V (max), 6 Ω (min) one 28 V (max), 3 Ω (min) and one V (max), 5 Ω (min) one 28 V (max), 3 Ω (min) and one 28 V diode return ensor ntity Parameters Vmax (Ui) 3V dc Imax (li) 35 ma Pi 75 mw i = μf Li = mh Wiring onnections MI92 eries sensors are certified intrinsically safe OLY when used certified energy-limiting intrinsically safe barriers. Banner does not manufacture such barriers; however, our applications engineers can refer you to suppliers of certified barriers that will interface Banner sensors. MI92 eries sensors may be wired using Banner urrent Amplifier ontrol Module I3R2. ote from the wiring diagrams that the installation may be made either a single barrier (2-wire hookup) or a double barrier (3-wire hookup). mitter-only units (MI9QD, RQD, and FQD) use the 2-wire hookup; all other models use either 2- or 3-wire hookup. In the 2-wire configuration, the sensor will act as a current sink, drawing less than ma in the OFF state and more than 2 ma in the O state. The user must provide a current sensing device ( current sensor in the diagram) to convert the current to a logic level. In the 3-wire configuration, the output may be used directly to control loads of less than 5 ma. In selecting the barrier, it is important to consider the barrier's resistance. The sensor must have at least volts across the brown and blue power leads for proper operation, and the barrier will cause a voltage drop due to its resistance. The formula that determines how much resistance is allowed is: R = (supply voltage volts). If the supply voltage is 2 V dc, then the maximum resistance is 56 ohms. If the supply voltage is 8 V dc, then the maximum resistance is 32 ohms. This includes the resistance of any current sensing device used (in the 2-wire configuration), so the barrier resistance must be further reduced by the current sensor resistance. ote that, in the 3-wire hookup, the positive load barrier is in series the load. This will result in an apparent saturation voltage of the output that is higher than the sensor output by the amount of I R (current times resistance) drop through the barrier. A positive input barrier is required for both supply and for load. The sensor s blue (negative supply) lead is normally connected to the ground terminal of the barrier. The user is responsible for proper installation and maintenance of this equipment, and must conform the certification requirements relating to barriers and to maximum allowable capacitance and inductance of the field wiring. If in doubt about these requirements, our applications engineers can refer you to the appropriate authority. P/ 3396 Rev. M www.bannerengineering.com - Tel: -763-5-36 3
VALU-BAM MI92 eries AUTIO: lectrostatic Discharge (D) pecial onditions for afe Use. Parts of the enclosure are non-conducting and may generate an ignition-capable level of D. leaning of the equipment shall be done only a damp cloth. afe area Hazardous area Barriers not required for Div. 2 3 V dc (reference OT #5 for FM & A on page 3) Operating Voltage 8 3 V dc 25 ma dc - IPUT L O A D I 5 ma max. I onnection to control room equipment should not use or generate more than 25 V V I.. - BLAK BROW 3 2 3 MI9 eries ensor Bottom view (colors shown are for mating cordset MB-32) arth ground (less than ohm) Busbar ote: mitters have no output connection (no connection to black wire) Figure. Wiring for 3-Wire onnections afe area Hazardous area Barriers not required for Div 2 3 V dc max. (Reference ote #5 for FM & A) Operating voltage 8 3 V dc 25 ma dc - Input ma (OFF state) 2 ma (O state) ensor I I.. - V - Barrier BLAK 2 3 2 3 BROW MI9 eries ensor Bottom view (colors shown are for mating cordset MB-32) arth ground (less than ohm) BUBAR Figure 2. Wiring for 2-Wire onnections www.bannerengineering.com - Tel: -763-5-36 P/ 3396 Rev. M
VALU-BAM MI92 eries pecifications upply Voltage and urrent ensor only: requires to 3 V dc, 25 ma maximum ensing Beam Infrared (88 nm) or visible red (65 nm), depending on model Adjustments Light/Dark Operate select switch on rear of sensor ensitivity control on rear of sensor allows precise gain setting (turn clockwise to increase gain) Indicators ensors include Banner's exclusive Alignment Indicating Device (D ) system, which lights a top-mounted red indicator LD whenever the sensor sees its modulated light source, and pulses the LD at a rate proportional to the received light signal strength. onstruction Housing: reinforced PBT, totally encapsulated Lenses: molded acrylic Hardware: stainless steel onnections upplied integral 3-pin Mini-style QD fitting; requires cordset model MB (see Accessories), purchased separately. Application ote pecial onditions for afe Use: Parts of the enclosure are nonconducting and may generate an ignition-capable level of D. leaning of the equipment shall be done only a damp cloth. Output onfiguration urrent sinking P open-collector transistor Output Rating Three-wire hookup sinks 5 ma maximum, continuous ( to 3 V dc) Two-wire hookup sinks ma (OFF state) and 2 ma (O state), to 3 V dc. Outputs are short-circuit protected. Output Response Time Opposed-mode receivers: 8 milliseconds O/ milliseconds OFF; independent of signal strength All other models: milliseconds O and OFF millisecond delay on power-up (output does not conduct during this time). Repeatability Opposed mode:. millisecond All other modes:.3 milliseconds Repeatability is independent of signal strength. nvironmental Ratings Banner tested to MA standards, 2, 3, 3,,, 2, and 3, I IP66 Operating onditions Temperature: 2 to 7 ( F to 58 F) Max. Relative Humidity: 9% @ 5 (non-condensing) ertifications Design tandards AT (uropean) 679-, 679-, 679-26 anadian A/A 22.2, o. 2-M987, o.57-92, o.., 679-, 679- United tates FM lass 36, 36, and 38, /IA 6- (82.2.), /IA 679-, 679-, and 679-26. Ix I 679- (d.6.); I 679- (d. 6.) Approvals AT (uropean) anadian II 2 x ib II T5 b Ta = to 7-3396; ntity FM2AT9 ntity Parameters: VMax = 3 V, IMax = 35 ma, i = μf, Li = mh. MI9(a) on-incendive for lass I, Division 2, roups A, B, and D, T5 Ta = to 7 a = 2LVQD, 2DQD, 2DRQD, 2FQD, 2VQD, 2LVAQD or 2FPQD. MI9(b) on-incendive for lass I, Division 2, roups A, B, and D, T5 Ta = to 7 Intrinsically safe for lass I, Zone x ib roup II T5 Ta = to 7 ; - 3396, ntity ntity Parameters: VMax = 3 V, IMax = 35 ma, i = μf, Li = mh. b = RQD, RRQD, RFQD, QD, RQD or FQD. United tates MI9(a) on-incendive for lass I, Division 2, roups A, B, and D, T5 Ta = to 7 uitable for lass II and III, Division 2, roups F and *, T5 Ta = to 7 a = 2LVQD, 2DQD, 2DRQD, 2FQD, 2VQD, 2LVAQD or 2FPQD. MI9(b) on-incendive for lass I, Division 2, roups A, B, and D, T5 Ta = to 7 uitable for lass II and III, Division 2, roups F and *, T5 Ta = to 7 Intrinsically safe for lass I, Zone Ax ib roup II T5 b Ta = to 7-3396; ntity ntity Parameters: VMax = 3 V, IMax = 35 ma, i = μf, Li = mh. b = RQD, RRQD, RFQD, QD, RQD or FQD. Ix x ib II T5 Ta= to 7-3396; ntity - Ix FM.29 ntity Parameters: Vmax = 3 V, Imax = 35 ma, i= µf, Li= mh P/ 3396 Rev. M www.bannerengineering.com - Tel: -763-5-36 5
VALU-BAM MI92 eries ITALL PR MF. DW. 3396 VALU-BAM MODL: Imax (li) = 35mA Vmax (Ui) = 3VD i = Li = FOR HAZARDOU LOATIO, ITALL PR MF. DW. 3396 VALU-BAM MODL: Imax (li) = 35mA Vmax (Ui) = 3VD i = Li = RTL/ LR887 xia ITRIIALLY AF/ URIT ITRIIQU 725 FM2AT9 II 2 x ib II T5 b Ta = - to 7 L I, Z Ax/x ib II T5 b L I, DIV 2 P ABD (L II, III, DIV 2 P F U only) Ix FM.29 x ib II T5 RTL/ LR887 xia ITRIIALLY AF/ URIT ITRIIQU L I, DIV 2 P ABD (L II, III, DIV 2 P F U only) Performance urves Opposed xcess ain Beam Patterns xcess ain Beam Patterns Long-range Opposed hort-range Opposed MI9QD & MI9RQD 5 mm mm 5 mm 5 mm mm 5 mm MI9QD/MI9RQD 6" 6" MI9RQD & MI9RRQD 3 mm 2 mm mm mm 2 mm 3 mm MI9RQD/ MI9RRQD. m.33 ' m 3.3 ' m 33 ' m 33 ' 5 m 5' 3 m ' 5 m 5' 6 m 2' 75 m 25'. m.33 '. m.33 ' m 3.3 ' m 33 '.6 m 2'.2 m.8 m ' 6' 2. m 8' 3. m ' Retroreflective Retroreflective performance based on use of a model BRT-3 retroreflector ( diameter). Actual sensing range may be more or less than specified, depending on the efficiency and reflective area of the retroreflector used. xcess ain Beam Patterns xcess ain Beam Patterns on-polarized Retroreflective Polarized Retroreflective MI92LVQD. m.33' " reflector (BR T-) BR T-T tape. m m.33' 3.3' reflector (BR T-3) m 33' 5 mm mm 5 mm 5 mm mm 5 mm 2 m 9' MI92LVQD BRT-3 RFLTOR m 6 m 5' 2' 8 m 27' 6" 6" m 33'. m.33 ' MI92LVAQD. m.33 ' BRT-3 retroreflector m 3.3 ' m 33 ' 5 mm 5 mm m 3' MI92LVAQD BRT-3 RFLTOR 2 m 3 m 6' 9' m 2' 5 m 5' " " 6 www.bannerengineering.com - Tel: -763-5-36 P/ 3396 Rev. M
VALU-BAM MI92 eries Diffuse Diffuse mode performance based on use of 9% reflectance white test card. xcess ain Beam Patterns xcess ain Beam Patterns Long-range Diffuse hort-range Diffuse MI92DQD Range is based on 9% reflectance white test card 9.5 mm 3 mm 6.5 mm MI92DQD.75".5".25" MI92DRQD Range is based on 9% reflectance white test card 9.5 mm 3 mm 6.5 mm MI92DRQD.75".5".25" 6.5 mm 3 mm 9.5 mm.25".5".75" 6.5 mm 3 mm 9.5 mm.25".5".75" mm. " mm. mm mm " 6 mm 6" 3 mm 6 mm 6 mm 2 76 mm mm. " mm. mm mm " 5 mm 2 6" 9" 3 mm 3 5" onvergent xcess ain Beam Pattern MI92VQD onvergent Mode 2. mm.6 mm.8 mm MI92VQD onvergent Mode.9".6". A I.8 mm.6 mm 2. mm..6".9" mm. mm. mm mm 5 mm.6" 3 mm. 5 mm. 6 mm 2. 3." Plastic Fiber Optic xcess ain Beam Pattern xcess ain Beam Pattern Plastic Fiber Optic (Opposed) Plastic Fiber Optic (Diffuse) mm. " PIT26U o Lenses mm. PIT6U o Lenses MI92FPQD Opposed mode plastic fibers mm PIT6U Lenses mm " 5 mm 3 mm 5 mm 5 mm 3 mm 5 mm MI92FPQD Opposed Mode " PIT26U 5 mm PIT6U mm 5"...6".6".. Range is based on 9% reflectance white test card.. mm. " mm. " PBT26U fiber MI92FPQD Diffuse mode plastic fiber mm. PBT6U fiber mm 3. 2.5 mm.. 2.5 mm 3. MI92FPQD - Diffuse Mode PBT26U PBT6U 7.5 mm. 5. mm 22.5 mm.6".9" 3. mm..5".".5".5".".5" 37.5 mm.5" P/ 3396 Rev. M www.bannerengineering.com - Tel: -763-5-36 7
VALU-BAM MI92 eries lass Fiber Optic xcess ain Beam Pattern xcess ain Beam Pattern lass Fiber Optic (Opposed) IT3 fibers MI9FQD MI9RFQD Opposed mode glass fibers IT23 fibers 5 mm 5 mm MI9FQD/MI9RFQD IT23 IT3 " " IT23 and L9 Lenses MI9FQD MI9RFQD IT23 and L6F Lenses 3 mm 2 mm mm mm 2 mm 3 mm MI9FQD/ MI9RFQD IT23 fibers L9 Lenses IT23 fibers L6F Lenses mm. " mm. mm mm " mm 2 mm 3 mm mm 6" 5 mm. m.33' m 3.3' m 33' m 33' 2.5 m 8' 5. m 6' 7.5 m 2'. m 32' 2.5 m ' lass Fiber Optic (Opposed) lass Fiber Optic (Retro) IT3 fibers MI92FQD Opposed mode glass fibers IT23 fibers 5 mm 5 mm MI92FQD IT23 fibers IT23 fibers " " MI92FQD L9 lens and BT3 fibers Retroreflective model BRT-3 target L6F lens and BT3 fibers 5 mm mm 5 mm 5 mm mm 5 mm MI92FQD w/l9 lens w/l6f lens BT3 fiber, retroreflective mode, BRT-3 reflector 6" 6" mm. " mm. mm mm " mm 2 mm 3 mm mm 6" 5 mm. m.33'. m.33' m 3.3' m 33'.25 ' m ' 2.5 m 8' 3.75 m 2' 5. m 6' 6.25 m 2' lass Fiber Optic (Diffuse) MI92FQD BT3 fibers Diffuse mode Range is based on 9% reflectance white test card BT23 fibers 2. mm.8mm.2 mm.6 mm.6 mm.2 mm.8 mm BT3 MI92FQD Diffuse Mode BT23.".75".5".25".25".5".75". mm. " mm. " mm. mm 2. mm 7.5 mm. 5. mm.6" 22.5 mm.9" 3. mm.." 37.5 mm.5" Dimensions 36.6 mm (.) LD Indicator 35.6 mm (.) Light/Dark Operate elect (L.O. = W, D.O. = W) 5.8 mm (2.") 39. mm (.5) Lens enterline ensitivity ontrol (Turn W to Increase).5 mm (#) crew learance (2) 7.8 mm (.7") 26.7 mm (.5") M3 x.5 Thread Hex ut upplied 5.6 mm (.2) Mini-style Quick-disconnect ontrol potentiometers are behind cover screws; remove screws to access controls 25. mm (.") 8 www.bannerengineering.com - Tel: -763-5-36 P/ 3396 Rev. M
VALU-BAM MI92 eries Accessories 3-Pin Mini-tyle ordsets Model Length tyle Dimensions Pinout (Female) MB-36.83 m (6.5 ft) MB-32 3.66 m (2 ft) traight MB-33 MI-36 MI-32 MI-33 9. m (3 ft).83 m (6.5 ft) 3.66 m (2 ft) 9. m (3 ft) traight 52 Typ. 7/8-6U-2B 3 2 ø 25.5 = Black 2 = Brown 3 = M3-36 M3-32.83 m (6.5 ft) 3.66 m (2 ft) traight = Red/Black 2 = Red/White 3 = reen Mounting Brackets MB3A Right-angle bracket curved slot for versatile orientation learance for M6 (¼ in) hardware Mounting hole for 3 mm sensor 2-ga. stainless steel Hole center spacing: A to B= Hole size: A=ø 6.3, B= 27. x 6.3, =ø 3.5 6 5 69 B A MB3MM 2-ga. stainless steel bracket curved mounting slots for versatile orientation learance for M6 (¼ in) hardware Mounting hole for 3 mm sensor Hole center spacing: A = 5, A to B = 25. Hole size: A = 2.6 x 7, B = ø 6., = ø 3. 57 7 A B 57 MB3 wivel bracket 3 mm mounting hole for sensor Black reinforced thermoplastic polyester tainless steel mounting and swivel locking hardware included 58 29 67 A B Hole center spacing: A=ø 5.8 Hole size: A=ø 7., B=ø 3. urrent Trip-Point Modules urrent Trip-Point Module Model I3R2 Description elf-contained module converts the MI92 sensor s current output signal to a trip point switch. PDT electromechanical relay switches loads that draw up to 5 amps. The PT solid-state relay can switch a dc load of up to 3 V dc, max.; 2 ma max. Powered by either 5 to 3 V ac or 2 to 25 V ac. upplies dc power to operate a single sensor or both the emitter and receiver of one MI eries opposed-mode sensor pair. The sensor's input to the I3R2 is protected against short circuits. Built-in circuit diagnostics indicate an input overload by flashing an LD status light. Module has two isolated output switches, a 5-amp rated PDT electromechanical relay and a solid-state transistor switch used for logic-level interfaces. May be ordered either alone or as a part of a kit. P/ 3396 Rev. M www.bannerengineering.com - Tel: -763-5-36 9
VALU-BAM MI92 eries urrent Trip-Point Module Model Description upply Voltage 5 to 3 V ac or 2 to 25 V ac, 5/6 Hz (8 VA) Output onfiguration (PDT electromechanical relay) ontact rating: 25 V ac maximum, 2 V dc maximum, 5 amps maximum (resistive load), / HP at 2 V ac. Install transient suppressor (MOV) across contacts which switch inductive loads. Min. load: 2 V dc,. A. losure time: milliseconds maximum. Release time: milliseconds maximum. Maximum switching speed: 2 operations/second. Mechanical life: 2,, operations Output onfiguration (olid-state dc relay) PT optically-coupled transistor; 3 V dc maximum, 2 ma maximum. mitter Power 2 V dc at 25 ma maximum available at module pin #3 Inputs Trip point for output "OFF": ma Trip point for output "O": 2 ma Trip point range for input overload indication: 3 ma I 8 ma Indicators tatus Indicators for PUT O and IPUT overload/short onstruction Housing: rugged polyphenylene oxide (PPO ).6" 2. tandard round-pin -pole base. Use R- socket or equivalent. Operating onditions Temperature: to 5 (32 F to 22 F) Intrinsic afety Barriers Model (Barrier Only) Barrier Description Kit Model Kit Description IB- ingle-channel intrinsically safe barrier I2BK- Includes I3R2 current amplifier, one R- socket, one DI-rail mount, one single-channel intrinsically safe barrier I2B- Dual-channel intrinsically safe barrier (typically used in opposed-mode applications) I2BK-2 Includes I3R2 current amplifier, one R- socket, one DI-rail mount, one dual-channel intrinsically safe barrier afe Area Hazardous Area I Dual Barrier Brown 3 MI eries mitter I.. Input: ma (OFF state) 2 ma (O state) A supply Relay outputs 5 amp contacts 5 to 3V ac 2 to 25V ac I3R2 Aux. Input ommon OPTO-oupler Output: 2 ma max. I Busbar Brown Black Bottom view of cordset connector on sensor (colors shown are for mating cordset model MI-32) 3 MI eries Receiver arth ground (less than ohm) Figure 3. Wiring onnections - MI92 eries Opposed Mode mitters and Receivers www.bannerengineering.com - Tel: -763-5-36 P/ 3396 Rev. M
VALU-BAM MI92 eries afe area Hazardous area A supply Relay outputs 5 amp contacts 5 to 3V ac 2 to 25V ac 5 6 7 8 I3R2 Input: ma (OFF state) 2 ma (O state) 3 2 9 Aux. Input ommon OPTO-oupler Output: 2 ma max. I V I.. Barrier Busbar I.. Brown Black 3 Bottom view of cordset connector on sensor (colors shown are for mating cordset model MB-32) MI eries ensor arth ground (less than ohm) Figure. Wiring onnections - All Other MI92 eries ensors Repairs and Translations Obtain assistance product repairs by contacting your local Banner ngineering orp distributor or by calling Banner directly at (763) 5-36. Access literature translated into your native language on the Banner website at www.bannerengineering.com or contact Banner directly at (763) 5-36. Banner ngineering orp Limited Warranty Banner ngineering orp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner ngineering orp. will repair or replace, free of charge, any product of its manufacture which, at the time it is returned to the factory, is found to have been defective during the warranty period. This warranty does not cover damage or liability for misuse, abuse, or the improper application or installation of the Banner product. THI LIMITD WARRATY I LUIV AD I LIU OF ALL OTHR WARRATI WHTHR PR OR IMPLID (ILUDI, WITH LIMITATIO, AY WARRATY OF MRHATABILITY OR FIT FOR A PARTIULAR PURPO), AD WHTHR ARII UDR OUR OF PRFORMA, OUR OF DALI OR TRAD UA. This Warranty is exclusive and limited to repair or, at the discretion of Banner ngineering orp., replacement. I O VT HALL BAR IRI ORP. B LIABL TO BUYR OR AY OTHR PRO OR TITY FOR AY TRA OT, P, LO, LO OF PROFIT, OR AY IIDTAL, OQUTIAL OR PIAL DAMA RULTI FROM AY PRODUT DFT OR FROM TH U OR IABILITY TO U TH PRODUT, WHTHR ARII I OTRAT OR WARRATY, TATUT, TORT, TRIT LIABILITY, LI, OR OTHRWI. Banner ngineering orp. reserves the right to change, modify or improve the design of the product out assuming any obligations or liabilities relating to any product previously manufactured by Banner ngineering orp. www.bannerengineering.com - Tel: -763-5-36