550mm LENGTH OF 20mm FLEXIBLE CONDUIT COMPLETE WITH TERMINAL BOX MOUNTING FACE

Product Code

SCP250 SCP315 SCP350 SCP400 SCP450 SCP500 SCP560 SCP630 SCP710 SCP800

710 800

725 820

765 870

850 970

810 910

146 146

101 101

Weight kg 30 33

Accessories

p14 p14 p14 p177
Performance & Electrical Data
SINGLE Phase - 220V-240V / 50Hz
SCP250/4-1 SCP315/4-1 SCP350/4-1 SCP400/4-1 SCP450/6-1 SCP450/4-1 SCP500/6-1 SCP500/4-1 SCP560/6-1 SCP560/4-1 SCP630/6-1 SCP630/4-1 Speed r/min Airflow m3/s @ Static Pressure Pa. 0 0.35 0.65 0.88 1.35 1.16 1.65 1.55 2.48 2.40 3.45 3.55 4.0.29 0.58 0.77 1.25 0.98 1.55 1.40 2.34 2.20 3.25 3.20 4.0.22 0.50 0.66 1.13 0.73 1.43 1.10 2.20 2.05 3.10 2.80 3.Motor Electrical Data
FLC Amps SC Amps Output kW
Speed Control Electronic EL31TK EL31TK EL31TK EL31TK EL31TK EL31TK EL31TK EL61TK EL31TK EL61TK EL101 Transformer TC12 TC12 TC12 TC14 TC12 TC14 TC14 TC18 TC14 TC18 TC18 TC110

dBA @ 3m 59 68

0.54 0.97 1.25 2.05 1.70 2.90 2.40 3.84 1.10 1.90 2.60 1.90 3.71 1.76 2.35 3.57 3.42 3.04
0.90 0.90 0.90 1.80 1.05 1.80 1.55 3.60 2.20 4.90 6.00 7.90
1.45 1.45 1.45 3.60 2.00 3.60 3.50 10.8 5.50 15.0 12.6 19.75
0.09 0.09 0.09 0.25 0.12 0.25 0.18 0.55 0.25 0.75 0.55 1.1
Sound levels are average spherical free field values at 50% peak pressure for comparative purposes only.
THREE Phase - 380V-415V / 50Hz
SCP315/4-3 SCP350/4-3 SCP400/4-3 SCP450/6-3 SCP450/4-3 SCP500/6-3 SCP500/4-3 SCP560/6-3 SCP560/4-3 SCP630/6-3 SCP630/4-3 SCP710/6S-3 SCP710/6D-3 SCP710/4S-3 SCP800/6S-3 SCP800/6D-3 Speed r/min Airflow m3/s @ Static Pressure Pa. 0 0.65 0.88 1.35 1.16 1.65 1.55 2.48 2.40 3.45 3.55 4.75 3.87 4.67 6.00 4.70 6.0.58 0.77 1.25 0.98 1.55 1.40 2.34 2.20 3.25 3.20 4.65 3.46 4.39 5.76 4.13 5.0.50 0.66 1.13 0.73 1.43 1.10 2.20 2.05 3.10 2.80 4.54 3.03 4.09 5.49 3.52 5.0.54 0.97 1.25 2.05 1.70 2.90 2.40 4.40 2.48 3.76 5.23 4.95 1.10 1.90 2.60 1.90 4.25 3.37 4.97 4.41 1.76 2.35 4.05 3.80 3.200 Motor Electrical Data

FLC Amps

Speed Control SC Output TransAmps kW former 1.15 1.15 4.50 1.70 4.50 2.40 6.20 2.40 7.50 5.80 15.5 5.40 12.3 15.5 5.40 12.3 0.12 0.12 0.37 0.18 0.37 0.25 0.55 0.25 0.75 0.55 1.5 0.50 1.1 1.5 0.50 1.1 TC33 TC33 TC33 TC33 TC33 TC33 TC33 TC33 TC35 TC35 TC35 TC33 TC35 TC35 TC33 TC35

%,6/),V!/@( H:!O =@MV(/@( , ():6( :6 s& WL w&C 1ddu3 Rdddr
Flexible performance P f9/!,vK( =:!VO ,(@M6,%:V :%=(KK(@ ,KKMH (, :!( ,9/!%(6! M) !O( :%=(KK(@ )@M% ),V!M@ (! %,:%/% =:!VO ,6zK( :) @(/:@(r Adaptable P.M%=,V! &.m ),6 M=(@,!( , ?M@% f @/66:6z
,6 V,6 v( /( )M@ /==K , H(KK , (!@,V!r
H:!O ,6 (K(V!@M6:V M@ !@,6)M@%(@ VM6!@MKK(@c HO:VO %(,6 !O( ,:@)KMH V,6 v( ,K!(@( !M /:! :!( VM6:!:M6r
Warranty J W,VO &.m O, , M6( (,@ H,@@,6!r
Strong durable casing J BO( !((K ),6 V,( O, ,6 ,:!:M6,K ;@(!/@6' M6 !O( )K,6z( )M@ (!@, !@(6z!O ,6 @:z::! ,6 !O( =MH(@ VM,!( ):6:O a=,!(K v(:z(c FfN idnRS (6/@( , KM6z K:)(r
The Compact SCD is a short cased axial fan designed for duct mounting. The fan design, construction and finish provides a strong, durable and weather proofed range. The Compact fan boasts highly efficient lightweight, robust motors, with proven reliability, ensuring long life and trouble free operation, excellent all round performance and simple speed control.
TERMINAL BOX FITTED AS STANDARD COMPLETE WITH CONNECTION BLOCK. CABLE ENTRY IS 21
E HOLES F EQUI-SPACED ON G PCD
SCD250 SCD315 SCD350 SCD400 SCD450 SCD500 SCD560 SCD630

560 630

636 709

250 250

330 365
7.0 9.5 9.5 9.5 9.5 9.5 11.5 11.5

605 674

Weight kg 23 30
p21 p21 p21 p22 p22 p22 p177

Speed r/min

Airflow m3/s @ Static Pressure Pa. 150 200
A.V. Mounts S1B S1B S1B S1B S1B S1B S1G S1G S1G S1G S1G S1G
SCD250/4-0.35 0.29 0.22 0.90 1.45 0.09 SCD315/4-0.65 0.58 0.50 0.90 1.45 0.09 SCD350/4-0.88 0.77 0.66 0.54 0.90 1.45 0.09 SCD400/4-1.35 1.25 1.13 0.97 1.80 3.60 0.25 SCD450/6-1.16 0.98 0.73 1.05 2.00 0.12 SCD450/4-1.65 1.55 1.43 1.25 1.10 1.80 3.60 0.25 SCD500/6-1.55 1.40 1.10 1.55 3.50 0.18 SCD500/4-2.48 2.34 2.20 2.05 1.90 1.76 3.60 10.8 0.55 SCP560/6-2.40 2.20 2.05 1.70 2.20 5.50 0.25 SCD560/4-3.45 3.25 3.10 2.90 2.60 2.35 4.90 15.0 0.75 SCD630/6-3.55 3.20 2.80 2.40 1.90 6.00 12.6 0.55 SCD630/4-4.16 4.06 3.95 3.84 3.71 3.57 3.42 3.04 7.90 19.75 1.1 Sound levels are average spherical free field values at 50% peak pressure for comparative purposes only.
Speed r/min Airflow m3/s @ Static Pressure Pa. Motor Electrical Data Speed Control FLC SC Output TransAmps Amps kW former TC33 TC33 TC33 TC33 TC33 TC33 TC33 TC33 TC35 TC35 TC35 dBA @ 3m 68 A.V. Mounts S1B S1B S1B S1B S1B S1G S1G S1G S1G S1G S1G

320 360

355 400
1.6 2.0 2.0 2.0 2.0 2.5 2.5 2.5
0.9 1.0 1.3 1.5 2.0 2.5 4.0 5.0

F C 2 HOLES 10

For free standing mounting of ducted fans Fixes directly to fan case flange Powder coated steel (pastel beige, RAL 7032) Supplied individually, less fixings

Silencers

068-0250-*D**P 068-0315-*D**P 068-0350-*D**P 068-0400-*D**PC 068-0450-*D**PC 068-0500-*D**PC 068-0560-*D**PC 068-0630-*D**PC

1 or 2 SEE DIM A

1120 1260

712 782

M6 M8 M8 M8 M8 M8 M10 M10
Weight kg 1DENP 1DEP 2DENP 2DEP
POD FITTED TO EP TYPE ONLY
E = WITH POD or EN = WITHOUT POD
C No. D TAPPED HOLES ON E - PCD
For information on silencers and an explanation of the data, see p20 Pre-galvanised sheet steel with perforated steel lining Infill of glass tissue faced high density mineral wool For saturated or other special applications please refer to Elta

Impeller Guards

078C-0250-C 078C-0315-C 078C-0350-C 078C-0400-C 078C-0450-C 078C-0500-C 078C-0560-C 078C-0630-C

585 655

0.9 1.1 1.4 1.6 1.8 2.2 2.5 2.6
Miniflow SAMF - Cased Axial
4 standard sizes from 150mm to 315mm. Air volume flow rates of up to 0.639 m3/sec. Static pressures of up to 175 Pa. External rotor motors. Motors are IP44 protected and Class B Insulation. Ambient operating temperatures of up to 50 C. Easy to install. Fully speed controllable. Robust steel casings. Extensive stock range available.
Material strength J.,:6z =@MG:( , KM6z K,!:6z VM6!@/V!:M6c %,6/),V!/@( )@M% z,KG,6:( !((Kc H:!O , O:zO /,K:! =MH(@ VM,!( ):6:O ,)!(@ %,6/),V!/@( M6 ,KK %M(K (V(=! !O( &fD?u4doRPR HO:VO O, , :( V,! ,K/%:6:/% OM/:6zr External rotor motor J BO(( ,@( O:zO /,K:! %M!M@ ,6
%,:6!(6,6V( )@(( H:!O (,K( )M@ K:)( v,KK v(,@:6zc HO:VO %(,6 !O( ),6 V,6 v( %M/6!( ,! ,6 ,6zK(r
Flexibility J BO( &fD? V,6 v( /( HO(@( !O(@( ,@( KM6z /V! @/6 !M vMM! (!@,V!:M6r Mounting arrangement J &/:!,vK( )M@ /V! %M/6!:6z ,! ,6

,6zK(r

Full accessory range J &=(( VM6!@MKK(@c ,6!:PG:v@,!:M6 %M/6!c :K(6V(@c 6M6 @(!/@6 ,%=(@c )K(:vK( VM66(V!M@c %M/6!:6z v@,VU(! ,6 ),! VK,%=r Tested to the very latest standards J &fD? /6:! ,@( !(!(
Impeller design J BO(( ,@( ,(@M6,%:V,KK (:z6( v
VM%v:6:6z !O( :%=(KK(@ H:!O !O( @M!M@ M) !O( (!(@6,K @M!M@ %M!M@r BO( %M!M@ ,6 :%=(KK(@ : v,K,6V( !M /,K:! VK, Ihrnr
Speed controllable J W,VO ),6 : )/KK =(( VM6!@MKK,vK( H:!O ,6 (K(V!@M6:V VM6!@MKK(@c HO:VO %(,6 ,:@)KMH V,6 v( ,K!(@( !M /:! :!( VM6:!:M6r Safety J fKK %M!M@ ,@( ):!!( H:!O :6!(z@,K ;BO(@%,K MG(@KM, =@M!(V!:M6' =@(G(6!:6z !O( %M!M@ )@M% MG(@O(,!:6zc (V(=! !O( &fD? u4doRPR HO:VO : :%=(,6V( =@M!(V!(r Ease of installation J N:zO!H(:zO! (:z6 M) !O( &fD?
(6/@( , H:)!c (, !M :6!,KK =@M/V!c HO:K! =:zM! :6K(! l M/!K(! VM66(V!:M6 ,KKMH (,( M) :6!,KK,!:M6 )M@ /V!HM@U !(% ):!!:6zr f =@(PH:@( !(@%:6,K vM : ,KM ):!!( HO:VO : (!(@6,K !M !O( V,:6zr

TC12 TC12 TC14 TC14 TC18 TC14 TC18 TC18 TC18 TC18
SLC315/4-2 SLC315/2-1 SLC355/4-2 SLC355/2-1 SLC400/4-2 SLC400/2-1 SLC450/4-2A SLC450/4-2B SLC450/2-1 SLC500/4-2A SLC500/4-2B SLC560/4-2A SLC560/4-2B SLC630/6-1A SLC630/6-1B SLC630/4-2 dBA Attenuation 1DENP -8 -9 -9 -9 -9 -9 -9 -9 -10 -9 -9 -9 -9 -11 -11 -10 1DEP -11 -12 -12 -11 -12 -13 -12 -12 -16 -15 -14 -15 -13 -15 -14 -14
dBA Attenuation 2DENP -13 -14 -14 -14 -14 -15 -15 -14 -16 -16 -14 -16 -15 -16 -15 -15 2DEP -15 -15 -16 -15 -16 -17 -15 -15 -22 -22 -15 -21 -15 -23 -21 -25

Isolating Vibrating Fans

Do not bolt fan directly to the building structure as noise and vibration can be transmitted directly to the building fabric.
Isolate fan and duct from the building structure with fan on neoprene or vibration isolators and suitable flexible connectors.
SLC315/4-3 SLC315/2-3 SLC355/4-3 SLC355/2-3A SLC355/2-3B SLC400/4-3 SLC400/2-3 SLC450/4-3A SLC450/4-3B SLC450/2-3A SLC450/2-3B SLC500/4-3A SLC500/4-3B SLC500/4-3C SLC500/2-3A SLC500/2-3B SLC560/4-3A SLC560/4-3B SLC560/4-3C SLC560/2-3 SLC630/6-3A SLC630/6-3B SLC630/4-3A SLC630/4-3B Speed r/min Airflow m3/s @ Static Pressure Pa. 0 0.64 0.95 0.85 1.48 1.93 1.42 2.40 1.70 2.04 2.89 3.83 1.72 2.59 3.00 4.12 4.76 2.80 3.50 4.06 6.70 2.78 3.40 3.69 5.0.58 0.93 0.77 1.45 1.89 1.31 2.37 1.57 1.88 2.82 3.79 1.63 2.41 2.83 4.08 4.72 2.67 3.31 3.85 6.63 2.40 3.04 3.52 5.0.46 0.91 0.66 1.42 1.85 1.16 2.34 1.42 1.70 2.78 3.74 1.50 2.23 2.60 4.02 4.68 2.52 3.13 3.60 6.51 1.90 2.48 3.32 4.0.88 1.38 1.82 2.29 1.18 1.43 2.72 3.69 1.30 2.00 2.32 3.98 4.60 2.29 2.88 3.32 6.0.84 1.34 1.77 2.0.82 1.31 1.73 2.0.78 1.26 1.68 2.0.66 1.17 1.56 2.04 1.03 1.40 1.88 1.800 Motor Electrical Data
Speed Control dBA A.V. @ SC Output Mounts Trans- 3m Amps kW former 1.94 8.54 3.22 17.9 33.6 5.82 33.6 5.82 9.42 33.6 61.7* 5.82 11.4 15.4 61.7* 82.4* 11.4 15.4 20.4 92.5* 5.77 8.53 15.4 25.0 0.12 0.55 0.18 1.1 2.2 0.37 2.2 0.37 0.55 2.2 4.0 0.37 0.75 1.1 4.0 5.5 0.75 1.1 1.5 7.5 0.37 0.55 1.1 2.2 S1G S1G S1G S1G S2B S1G S2B S2B S2B S2B S2B S2B S2B S2B S2 S2 S2B S2B S2B S2 S2B S2B S2B S2 TC33 TC33 TC33 TC33 TC33 TC33 TC33 TC33 TC35 TC33 TC33 TC33 TC63
2.66 3.63 1.03 1.62 3.90 4.52 1.98 2.60 2.94 6.30

5.38 6.22

7.22 8.50

6.87 8.16

6.48 7.80

5.55 6.90
6.55 5.66 7.82 6.95 11.16 10.78 13.76 13.38 7.38 6.52 8.88 8.00 12.19 11.80 15.02 14.62 17.48 17.15
10.39 10.00 9.00 7.70 13.02 12.60 11.65 10.38 5.10 6.88 11.42 10.96 9.90 8.70 14.18 13.71 12.71 11.50 9.77 16.84 16.35 15.35 14.12 12.38
1.61 4.30 6.78 8.82 4.30 5.36 8.82 10.6 4.08 5.36 6.82 14.2 21.0 4.08 5.36 6.82 14.2 21.0 28.4
SLC710/6-3A SLC710/6-3B SLC710/4-3A SLC710/4-3B SLC800/6-3A SLC800/6-3B SLC800/4-3A SLC800/4-3B SLC900/8-3 SLC900/6-3A SLC900/6-3B SLC900/4-3A SLC900/4-3B SLC1000/8-3 SLC1000/6-3A SLC1000/6-3B SLC1000/4-3A SLC1000/4-3B SLC1000/4-3C dBA Attenuation 1DENP -12 -11 -10 -10 -12 -11 -10 -10 -11 -9 -11 -9 -9 -9 -10 -10 -9 -9 -10 1DEP -17 -14 -14 -14 -14 -15 -19 -15 -15 -13 -15 -15 -14 -15 -15 -15 -16 -16 -15
Sound levels are average spherical free field values at 50% peak pressure for comparative purposes only. All starting currents are quoted as direct-on-line. Those marked * are available for star-delta starting if required. dBA Attenuation 2DENP -17 -15 -14 -14 -16 -15 -15 -14 -15 -13 -15 -13 -13 -15 -16 -14 -14 -14 -13 2DEP -25 -21 -21 -21 -21 -22 -28 -22 -20 -19 -20 -21 -20 -20 -24 -20 -26 -26 -21
For sizes 315mm to 630mm see p37
Matching Flanges AXIAL FLOW
Fit directly to fan case flange Provides easy connection to flexible connector or ducting Hot dipped galvanised steel
063-0315-MAN150 063-0355-MAN150 063-0400-MAN150 063-0450-MAN150 063-0500-MAN150 063-0560-MAN150 063-0630-MAN200 063-0710-MAN200 063-0800-MAN200 063-0900-MAN200 063-1000-MAN250
0.6 0.7 0.9 1.1 1.2 1.3 1.4 2.0 2.3 2.7 3.0
061B-0315 061B-0355 061B-0400 061B-0450 061B-0500 061B-0560 061B-0630 061B-0710 061B-0800 061B-0900 061B-1000
1.5 1.5 1.5 1.5 2.0 2.0 2.0 2.0 2.5 2.5 2.5
0.7 0.9 1.2 2.2 2.6 3.0 3.5 3.7 5.0 5.5 6.5
062-S1G 062-S2 062-S2B 062-S2Y 062-S3B

M6 M8 M10

0.040 0.100 0.100 0.102 0.104

TAPPED HOLE

060B-0315 060B-0355 060B-0400 060B-0450 060B-0500 060B-0560 060B-0630 060B-0710 060B-0800 060B-0900 060B-1000

B CENTRE TO CENTRE

0.22 0.22 0.22 0.22 0.22 0.22 0.22 0.22 0.22
Multiflow SMC - Cylindrical
Multiflow SMC is a range of circular cased mixed flow fans with a unique adjustable pitch mixed flow impeller, ideally suited for installation within ductwork and suitable for extract or supply for a broad range of industrial, commercial and residential applications.
Unique adjustable pitch mixed flow impeller. 9 standard case sizes from 315mm to 1000mm. Air volume flow rates of up to 8.00 m3/sec. Static pressures of up to 600 Pa. Wide operating range. Greater pressure capability than axial fans. Greater airflow capability than centrifugal fans.
Non overloading power curve. Non-stall characteristic. Suitable for operating temperatures of up to 50 C. Motors are foot mounted totally enclosed metric type. Sealed for life ball bearings to operate at any angle. Motors are weatherproofed to IP55 with Class F insulation to EN 600345.
Better performance J D:( )KMH Y6M6P!,KKQ ,:@)KMH =@M=(@!:(
,6 , 6M6PMG(@KM,:6z ,vM@v( =MH(@ V/@G( ,KKMH , H:( @,6z( M) M=(@,!:6z =(@)M@%,6V( !M v( ,VO:(G(r
Fully speed controllable J D/K!:)KMH &D. :6zK( ,6 !O@((
=O,( /6:! V,6 v( ,9/!( M6 :!( )M@ /! @(/:@(%(6!r
Distinctive J BO( /6:/( (:z6 M) D/K!:)KMH &D. ),6
(6,vK( !O( @(/:@( =(@)M@%,6V( !M v( ,!!,:6( )@M% , %,KK(@ ),6 :( !O,6 : 6M@%,KK ,VO:(G,vK( H:!O !=:V,K VM6:V,K !K(c ):( vK,( %:( )KMH ),6r
Blade settings J f9/!,vK( =:!VO %:( )KMH :%=(KK(@ O,G( !O( vK,( ,6zK( ),V!M@ (! !M %((! !O( @(/:@( /!r Circular ducting P.,:6z :6VM@=M@,!( %(!@:V )K,6z(
Material strength J D/K!:)KMH &D. %:( )KMH ),6 O,G( ,
KM6z K,!:6zc @Mv/! V,:6z (:z6 )M@ ,( !@(6z!O ,6 /@,v:K:!r.,:6z ,@( %,6/),V!/@( )@M% O(,G z,/z( !((Kc @MKK )M@%( ,6 H(K(c !O(6 OM! :==( z,KG,6:( !M s& iR1 ,)!(@ ),v@:V,!:M6r fKK !O( %M!M@ /==M@! ,@( OM! :==( z,KG,6:( !M s& iR1 ,)!(@ %,6/),V!/@(r
Ease of installation J fKK %M!M@ ,@( =@(PH:@( !M ,6 :6!(z@,K wT44 !(@%:6,K vM M !O( ,@( @(, )M@ V/!M%(@ :6!,KK,!:M6r Tested to the very latest standards J &D. /6:! ,@( !(!(
!M w&C 40du3u11i a,:@:( =(@)M@%,6V(S ,6 !M s& 0g0 T! R3u104 aM/6 =(@)M@%,6V(S ,! WK!, ?,6 MH6 !(! ),V:K:!c %(,6:6z ,VV/@,!(c /=P!MP,!( :6)M@%,!:M6 M6 =(@)M@%,6V( ,6 6M:( ,!, !O,! V,6 v( @(K:( /=M6r

SMC560/6-5-3 SMC560/4-5-3 SMC630/6-5-3 SMC630/4-4-3 SMC710/6-5-3 SMC710/4-5-3 SMC800/8-5-3 SMC800/6-5-3 SMC1000/8-5-3 SMC1000/6-5-3 dBA Attenuation 1DENP -10 -9 -10 -11 -11 -10 -10 -12 -10 -10 1DEP -13 -13 -15 -17 -14 -16 -14 -16 -14 -15
dBA Attenuation 2DENP -15 -15 -15 -16 -15 -16 -16 -16 2DEP -19 -19 -18 -21 -19 -21 -19 -25
dBA Attenuation 2DENP -16 -16 -15 -16 -16 -15 -15 -17 -14 -15 2DEP -19 -20 -23 -25 -22 -24 -22 -23 -20 -21

Flanges

063-0315-MAN150 063-0400-MAN150 063-0450-MAN150 063-0500-MAN150 063-0560-MAN150 063-0630-MAN200 063-0710-MAN200 063-0800-MAN200 063-1000-MAN250
0.6 0.9 1.1 1.2 1.3 1.4 2.0 2.3 3.0
061B-0315 061B-0400 061B-0450 061B-0500 061B-0560 061B-0630 061B-0710 061B-0800 061B-1000
1.5 1.5 1.5 2.0 2.0 2.0 2.0 2.5 2.5
0.7 1.2 2.2 2.6 3.0 3.5 3.7 5.0 6.5
060B-0315 060B-0400 060B-0450 060B-0500 060B-0560 060B-0630 060B-0710 060B-0800 060B-1000

23 27.5 27.5 27.32 36

1.0 1.5 2.0 2.5 4.0 5.0 5.5 6.0 12.0
068-0315-*D**P 068-0400-*D**P 068-0450-*D**P 068-0500-*D**P 068-0560-*D**P 068-0630-*D**P 068-0710-*D**P 068-0800-*D**P 068-1000-*D**P

710 E 800 1000

M8 M10 M10 M10 M10 M10 M10 M10 M12

90 151

078C-0315-C 078C-0400-C 078C-0450-C 078C-0500-C 078C-0560-C 078C-0630-C 078C-0710-C 078C-0800-C 078C-1000-C
1.1 1.6 1.8 2.2 2.5 2.6 3.2 3.5 4.5
241B-0400-BELL 241B-0450-BELL 241B-0500-BELL 241B-0560-BELL 241B-0630-BELL 241B-0710-BELL 241B-0800-BELL 241B-0900-BELL 241B-1000-BELL
4.5 5.3 6.2 7.5 9.0 11.1 13.5 17.3 20.0
019-0315-STD 019-0400-STD 019-0450-STD 019-0500-STD 019-0560-STD 019-0630-STD 019-0710-STD 019-0800-STD 019-1000-STD
2.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 4.0
7.5 9.0 12.0 18.0 21.0 25.0 29.0 34.0 85.5
Multiflow SMT - In-Line Tube
The Multiflow SMT is a range of in-line mixed flow fans with a compact profile which offers excellent pressure development characteristics, designed specifically for use with rigid or flexible ductwork for a wide variety of residential and commercial applications.
Integral mixed flow impeller design. 4 standard sizes from 100mm to 200mm. Air volume flow rates of up to 0.233 m3/sec. Static pressures of up to 250 Pa. Greater pressure capability than axial fans. Greater airflow capability than centrifugal fans. IPX4 Splash proof.

Smooth Flow Damper Pressure Drop Curve
Smoothflow Damper Spring Operated Damper
Prevents reverse flow of air when fan not operating Injection moulded blue ABS Gravity operated
018-150-SJSD 018-200-SJSD

178 228

0.3 0.1

0 0.00

Volume - m /s
018-150-CLAMP 018-200-CLAMP

0.33 0.42

018-0150-FILT-P 018-0200-FILT-P

Reducing Adapters

B INSIDE
Enables connection to 100mm PVC pipe Injection moulded blue ABS

018-0150-SJSR

Y-Pieces

UT SID BO E

Enables connection to two extract systems Injection moulded blue ABS

018-0150-SJSY

Hideaway SHM - Multi Spigot
The Hideaway SHM is a duct mounted in-line centrifugal fan with dual circular inlet spigots, designed specifically for installations where space is at a premium and noise levels are an important design criteria. The SHM is designed with a two speed motor where ventilation is either by continuously running, or boost ventilation when there is full occupancy.
1 standard size of 150mm. Air volume flow rates of up to 0.104 m3/sec. Static pressures of up to 200 Pa. Motors are external rotor, protected to IP44 with Class B Insulation. Single inlet backward curved impellers. Low profile unit. 100mm dual circular inlet spigots and 150mm outlet spigot. Low noise levels.
Continuous and boost ventilation. Suitable for ambient operating temperatures of up to 50 C. Easy to install. Overcomes space constraints. Fully speed controllable. Robust galvanised sheet steel housing, acoustically lined. Extensive range of stock is available. Suitable for ducted extract systems.
Material Strength P f @Mv/!c K:zO!H(:zO! /6:! H:!O ,
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Sound levels are average spherical free field values at 50% peak pressure for comparative purposes only. For silencer selection refer to Elta Fans. For explanation of belt drive selection see p110.

STBR1 STBR1/L

0.50 Volume - m /s

STBR2 STBR2/L

600 0.55kW 450 0.37kW 0.75kW

Pressure - Pa 0 0.10

STBR3 STBR3/L

550 500

0.55kW

STBR4 STBR4/L

1.00 1.50 Volume - m3/s 2.00 2.50 3.00
900 4kW 800 3kW 1200r/min 700 1100r/min 600 1.5kW 1000r/min Pressure - Pa 500 900r/min 400 800r/min 300 700r/min 200 600r/min 500r/min 400r/min 0 0.50 5.5kW 7.5kW

STBR5 STBR5/L

1.50 2.50 Volume - m3/s 3.50 4.50 5.50

STBR6 STBR6/L

Speed r/min dBA @3m 67 68

4.00 Volume - m3/s

Roof ventilator short-circuiting of air
If the unit does not have an airtight seal between the base and the upstand, shortcircuiting of outside air can occur thereby reducing the amount exhausted from the building.
An airtight seal between the upstand and the fan base prevents short-circuiting of outside air ensuring the fan is exhausting from the designated space.

Heritage SGE

The Heritage SGE range of vertical discharge centrifugal roof extract units has been developed to simplify cleaning and general maintenance and to assist in the collection of grease in applications such as fast food restaurants, commercial kitchens and process work where exhaust air is grease laden.
4 standard sizes from 400mm to 560 mm. Air Volume flow rates of up to 3.21m3/sec. Static Pressures of up to 800Pa. Horizontal mounting. Speed controllable. Motors are squirrel cage induction type. Suitable for operating temperatures of up to 50C. Motors are protected to IP55 with Class F insulation to EN 60034-5. Galvanised mild steel with a powder coat finish.
Effective design P BO( OM/:6z :6VM@=M@,!( , z@(,( o
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Warranty J W,VO &IW O, , M6( (,@ H,@@,6!r
Easy access P ?M@ %,:6!(6,6V( ,VV( !O( /6:! : ):!!(
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Easy maintenance P BO( H:6 v,6 V,6 v( (,:K @(%MG(

Skyflow SSFV

The SSFV range is a range of vertical discharge axial flow roof extract units which are designed to discharge the air at higher velocities away from roof levels, balancing the need to satisfy architects modern day building needs against a vertical design. The Skyflow is UV stabilised for a durable, long lasting product, which delivers exceptional performance and noise characteristics.
8 standard sizes from 315mm to 710 mm. Air volume flow rates of up to 4.63 m3/sec. Static pressures of up to 200 Pa. UV stabilized GRP cowl finished in goose wing grey. Supplied fully assembled with axial flow fan as an option. Highly efficient, lightweight induction motors. Suitable for operating temperatures of 50 C with speed controllers and +70 C Fixed speed. Motors protected to IP55 with Class F insulation.
Fully speed controllable. Thermal overload protection. Suitable for curb or purlin mounting. Impellers are highly efficient aerofoil bladed section, produced from GRP, retained in an aluminium hub and balanced to Grade G6.3. Extensive stock range available. Optional colours available.
Material Strength J f @Mv/! ,6 /@,vK( /6:! H:!O !O( !M=
VMHK ,6 ),6 /==M@! OM/:6z :6 p !,v:K:( IFT !M =@MG:( , KM6z(@ K:)( HO:K! !O( :6K(! z/,@ ,@( :6V =K,!( ,6 !O( ),6 =K,!( ,6 %M!M@ ,@( =MH(@ VM,!( (=M =,:6! ):6:Or
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Integral P f:@ M=(@,!( O/!!(@ ,@( ):!!( , !,6,@
HO:VO !M= ,6 :VO,@z( ,:@ a:@! ,:@S )@M% @(P(6!(@:6z !O( v/:K:6zc , H(KK , =@M!(V!:M6 ,z,:6! !O( (K(%(6!r
Time saving P m@M= :6 :K(6V(@ V,6 v( /==K:( HO:VO
Tested to the very latest standards J &&?p /6:! ,@( !(!(
Mounting J &&?p /6:! ,@( (:z6( !M v( /:!,vK( )M@
(:!O(@ V/@v M@ =/@K:6 %M/6!:6z ,6 V,6 v( %M/6!( M6 )K,! M@ :6VK:6( @MM) H:!O , %,:%/% =:!VO ,6zK( M) u4Xr
Quality assurance J fKK /6:! ,@( (:z6( ,6 %,6/),V!/@( H:!O =@MV(/@( , ():6( :6 s& WL w&C 1ddu3 Rdddr Warranty J W,VO &&?p &U)KMH O, , uR %M6!O H,@@,6!r Full accessory range P T/@K:6 vM(c @M= :6 :K(6V(@c =(( VM6!@MKK(@c :6G(@!(@ ,6 M,U(@ O((!r

Easy to install on exterior wall. Stylish, compact design for installation in tight spaces. Lightweight, durable construction. Powerful air extract. Suitable for applications requiring long lengths of duct.
Suitable for operating temperatures up to 50C. Insect proof cover. Easy access for cleaning. Can be used with variable speed controller. Thermal overload motor protection.
Ease of installation J BO( /@),V( %M/6!( W:):! BO@/PH,KK
/6:! : (:z6( )M@ :%=K( :6!,KK,!:M6 v %M/6!:6z :! M6 !O( (!(@:M@ H,KK ,6 :! VM%=,V! (:z6 ,KKMH :6!,KK,!:M6 :6 !:zO! =,V(r
Insect proof J BO( /6:! : ):!!( H:!O ,6 :6(V! =@MM) VMG(@ H:!O )K %(O ):!!( !M !O( M/!K(!r Colour co-ordination J BO( !,6,@ /6:! O, , !K:O z@( VMKM@vM6 ):6:O ,6 : (:z6( !M /:! %M! v@:VU VMKM/@r Safety J BO( (!(@6,K @M!M@ %M!M@ ,@( ,KK ):!!( H:!O :6!(z@,K !O(@%,K MG(@KM, =@M!(V!:M6 =@(G(6!:6z !O( %M!M@ )@M% MG(@O(,!:6zr Accessories - BO@(( =(( H:!VOc ),! VK,%= ,6

:K(6V(@r

Flexibility J BO( W:):! BO@/PA,KK /6:! V,6 v( /( H:!O ,

G,@:,vK( =(( VM6!@MKK(@r

Range J BO( @,6z( VM%=@:( vM!O )M/@ =MK( ,6 !HM =MK(
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Maintenance J BO( /@),V( %M/6!( VMG(@ : (,:K @(%MG(
)M@ VK(,6:6zc )M@ (,%=K(c :) /( )M@ @,6z( OMM (O,/!r
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Performance J W:):! BO@/PA,KK /6:! VM%=@:( v,VUH,@ V/@G( V(6!@:)/z,K :%=(KK(@ HO:VO =@MG:( =MH(@)/K ,:@ (!@,V!:M6 /:!,vK( )M@ %/K!: =M:6! (!@,V!c v/! : ,KM /:(! (6M/zO )M@ , :6zK( =M:6! !(% H:!O , )(H %(!@( M) )K(:vK( /V! v(!H((6 !O( ),6 ,6 z@:KK(r

WIRING ACCESS

GREASE DEFLECTOR

OUTLET FLYSCREEN

SEWE154 SEWE152

Speed r/min 1380 2460

Airflow m3/s @ Static Pressure Pa. 0 0.067 0.0.056 0.0.043 0.0.025 0.0.0.0.0.0.0.024

142 OD

FLC Power dBA@ Weight kg Amps Watts 3m 0.16 0.5 0.068 0.058

p170 p170 p177

068-0150-JF*

018-150-CLAMP

Portacooler SPC
Portacooler is a range of fully portable enclosed axial fans, ideal for localized free-standing cooling or ventilation which comes complete with guards fitted for safety, integral speed controller and a plug and lead so the fan is ready to run.
Maximum air flow 3.0 m3/s. 3 sizes, 350mm, 450mm & 560mm. Free standing. Variable fan position. Highly efficient, lightweight induction motors. Motors protected to IP55, with Class F insulation. Safety guards front and rear.
Suitable for operating temperatures up to 50C. Flying lead with 13A UK plug. Supplied ready to run. One piece tubular frame. Saddle feet fitted to protect frame. Variable speed control. Rugged construction.
Design P BO( &T. : , )/KK =M@!,vK( (6VKM( ),6 H:!O

IP51 Enclosure Power On indication Fail Indication Suitable for operating temperatures up to 40C

Optional features

Duty Share.M%%M6 GMK! )@(( VM6!,V! )M@ ),6 ),:Kr Rgdp M6o M)) (6,vK( )@M% , @(%M!( M/@V(r Rgp M6o M)) (6,vK( )@M% , @(%M!( M/@V(r &/:!,vK( )M@ /( H:!O =(( VM6!@MKK(@ !M , %:6:%/% GMK!,z( M) idpr

Benefits

BO(( /6:! =@MG:( ,/!M%,!:V VO,6z( MG(@ :6 !O( (G(6! M) ),6 ),:K HO(6 /( :6 VM69/6V!:M6 H:!O @/6 ,6 !,6v ),6 (!r &(K(V!:M6 M) (:!O(@ ?,6 u M@ ?,6 R =@MG:( ,6 (VM6M%:V,K %,6/,K %(!OM M) (!(6:6z !O( K:)( VVK( M) !H:6 ),6r C=!:M6,K m/! &O,@( =@MG:( ,/!M%,!:V VO,6z(MG(@ v(!H((6 ?,6 u ,6 ?,6 R (! G:, :6!(@6,K !:%( VKMVUr
SINGLE Phase 220V240V 50/60Hz

Product Code(1)

149-ACO1/E 149-ACO1/A 149-ACO1/B (1) E A B FLC Amps 9 Weight kg 1.2 1.IP Rating IP51 IP51 IP51
Standard codes shown, Electric type, operation by fuse rupture; refer to fan compatibility table for correct model. Air type, operation by airflow switches; refer to fan compatibility table for correct model. For use as either Electric type or Air, suitable for speed control to minimum 70V. For additional options refer to suffix list and options compatibility table.

THREE Phase 400V 50 Hz

149-ACO3/B 149-ACO3SD FLC Amps Weight kg IP Rating IP51 IP51
(1) Standard codes shown, B For use with three phase twin fans up to 4kW. SD Star / Delta for use with 5.5kW and 7.5kW units, refer to fan compatibility table. For additional options refer to suffix list and options compatibility table.
SQT STDD STDR STBD 240V 1Ph 50Hz STBD 400V 3Ph 50Hz STBD5/6 400V 3Ph 50Hz STBR 240V 1Ph 50Hz STBR 400V 3Ph 50Hz STBR5/6 400V 3Ph 50Hz

ACO Product Code

149-ACO1/E 149-ACO1/A 149-ACO1/B 149-ACO3/B 149-ACO3SD

Optional Features

Option

Duty Share

Description
Automatically changes between fan 1 and fan 2 at a predetermined time as selected via internal time clock A volt free contact that can be used to connect a visual / audible alarm located externally to the panel, also for use with energy management systems A volt free contact or 240V connection terminal to allow the auto changeover panel to be remotely switched On and Off

Suffix

Volt Free Contact (fail indication) Remote On / Off
Option Compatibility Table
149-ACO1/E 149-ACO1/A 149-ACO1/B 149-ACO3/B 149-ACO3SD Duty Share (option) VFC Fail (option) Remote On / Off (option) Speed Control (standard)
Requirement is for an Auto changeover panel for use with an SQT125-L. Controller is to have a Volt free contact for remote fan fail indication to BMS system. Auto Changeover Panel required is: 149-ACO1/EV (Standard code 149-ACO1/E from fan compatibility table with suffix V for volt free contact) If speed controllability had been required the above controller would be 149-ACO1/BV

Introduction

1 Dear Customer

2 The System Philosophy

3 Important Notes
Dear Customer By purchasing an Elta R Routine Total Station from Carl Zeiss you have opted for a leading-edge product in the field of surveying instruments. We congratulate you on your choice and would like to thank you for the trust placed in our company.
For quite some time, surveying has no longer been limited to the measurement of bearings and distances. Complex measurement systems have been in demand that do not only satisfy ever increasing needs for automatization, but also those involving digital data processing as well as the effectiveness of daily measuring practice. New standards have thus been set regarding technology and operating convenience. The Elta R Routine Total Stations are part of a complete range of surveying instruments from Carl Zeiss. Data interchange between all the instruments is ensured by a common data format. The operating convenience offered by the Elta R hardware is very high within this group of total stations. The clear graphic display and only 7 keys give the user a wide variety of information for the processing in the field and provide him with valuable aids for achieving high productivity in solving his surveying tasks. The software meets high standards.
G Attention ! Please read the safety notes in chapter 2 carefully before starting up the instrument.
The instrument was manufactured by tested methods and using environmentally compatible quality materials. The mechanical, optical and electronic functions of the instrument were carefully checked prior to delivery. Should any defects attributable to faulty material or workmanship occur within the warranty period, they will be repaired as a warranty service. This warranty does not cover defects caused by operator errors, inexpert handling or inappropriate application. Any further liabilities, for example for indirect damages, cannot be accepted. User manual: Cat. No.: Date: Software release: Edition 1003.532 June 1998 V 3.xx
Subject to alterations by the manufacturer for the purposes of further technical development.
F Tip The type label and serial number are provided on the left-hand side and under-side of the instrument, respectively. Please note these data and the following infor-mation in your user manual. Always indicate this reference in any inquiries addressed to our dealer, agency or service department: Instrument: o o Elta R 45 Elta R 55 Software version o Elta R 50

Serial number:

We would like to wish you every success in completing your work with your Elta R. If you need any help, we will be glad to be of assistance. Yours
ZSP Geodetic Systems GmbH Tatzendpromenade 1a D-07745 Jena Phone: ++64-3200 Telefax: ++64-3229 E-Mail: surveying@zeiss.de http://www.zeiss.de
Elta R - The Routine Total Stations
This chapter gives you an overview of the operation and controls of the instrument as well as the programs which are a special feature of the Elta R Routine Total Stations.

1 Instrument Description

2 Operation

3 Safety Notes

Elta R

Hardware Overview

Sighting collimator Mark for trunnion axis height Telescope focusing control Vertical tangent screw Eyepiece Vertical clamp Display (graphic capabilities 128 x 32 pixels) Interface Keyboard Horizontal clamp Horizontal tangent screw Tribrach screw Telescope objective with integrated sun shield Battery cassette lock Vertical axis level Battery Circular level Adjustment screws for optical plummet Optical plummet Tribrach clamping screw
Fig. 1-1: Elta R 45, Control side
Fig. 1-2: Elta R, Objective side
Fig. 1-3: Elta R, Optical plummet
The Routine Total Stations Elta R 45, Elta R 55 and Elta R 50 The electronic Routine Total Stations as instruments of mean accuracy are not only appropriate for land-measuring by geodesists, but also users on building sites appreciate their uncomplicated handling as well as rapidity, reliability and clearness in measuring. Measurements are made easy thanks to menu guidance supported by graphics, instrument software with flexible point identification and universal data record formats. The principal features: Distance measurement Measuring range Angle measurement by phase comparison method Elta R 45 up to 1500 m with 1 prism, Elta R 55 / R 50 up to 1300 m with 1 prism Hz and V electronically by increments, quick initialising, all common units and angle reference systems Automatic compensation of sighting axis and index errors Display screen with graphic capabilities (128 x 32 pixels), user-friendly surface, easy familiarisation, simple handling, reliable control of all measuring and computing processes with clear references, integrated, practical application programs, ergonomic arrangement of controls, light, compact construction Eco-friendly power supply for about 1000 angle and distance measurements, charging time 1 hour RS 232 C (V 24) interface as data input and output In the internal data memory of Elta R 45 and Elta R 55, 1900 data lines can be saved.
Error compensation The advantages in operating
Quick charging, longer times of measuring Data management
Software - Overview Menu (ON+MENU)
Addco (addition constant)
Scale Temp (temperature) Pressure Connecting distance Object height Point-to-line distance Vertical plane Orthogonal lines Parallel lines Alignment Unknown station Known station Stationing in elevation Polar points Setting out Angles Distances V reference Coo system Coo display Temperature Pressure Switch off Acoustic signal Contrast Record. Format Parity Baud rate Protocol 9 Position C Position P Position I T-O Rec. PC Demo

Orientation of Hz circle Aim: Hz = 0

Sight target

Aim: Hz = xxx,xxx
Turn the instrument to the desired Hz circle value
Display page 2: Aim: Change counting direction
Measurement clockwise Measurement anticlockwise
G Attention ! The set counting direction is only valid in the start-up menu. After the connection and in all programs, the Hz counting direction is always set clockwise.

Frequently used Settings

Alteration of pressure, temperature, scale and addition constant

1 Input

and to go to the desired menu point to confirm
and to alter the addition constant (scale, temperature and pressure) step by step to confirm
For the first starting, only temperature and pressure are entered. If a prism with another prism constant than -35 mm should be used permanently, also this setting should be realised immediately. (For calculating the constant see annex.)
Formulae and constants Annex

Range of values

-30 oC < Temp. -0,127mm< Addco 0,995000 < Scale 440hPa < Press. < 70 oC < 0,127mm < 1,005000 < 1460 hPa
with 1 oC with 1 mm with 1 ppm with 4 hPa
Instructions for Settings

4 Setting the instrument

to go to and to select the menu point Angle and distance display to change setting to quit menus and to quit setting / confirm change Possibilities: Angle
grad grad DMS deg mil 0,005-0,001-0,0005 (Elta R 50 and Elta R 55) 0,005-0,001-0,0002 (Elta R 45) 10- 5- 1 0,0050 - 0,0010 - 0,00050

MOD ESC

Distance
0,01-0,005-0,001 0,02-0,01-0,001
G Attention ! The defined presentations of angle and distance are related to the display. Saving is realised with the highest possible precision.
Vertical reference system
to change setting to quit menus and to quit setting / confirm change V reference systems:

Zenith angle

Vertical angle

100grads

300grads

200grads

Examples
1: Zenith angle unit 400 grads
2: Vertical angle unit 360

Height angle

1600mil

-1600mil

3: Height angle unit 6400 mil
The setting of the measuring unit % is done in the set-up menu!
System of coordinates / display of coordinates:
to change setting to quit menus and to quit setting / confirm change Assignment of coordinates:
Indication sequence: Y-X / X-Y G Attention !

HD: Display of the reduced distance and the height difference
Display of the calculated values
yxh: Display of the local rectangular coordinates Measurement in the local system with station y=x=0 The input of Zs,ih and th allows measurements with absolute heights.
The measuring modes can be changed at any time and the results will be displayed immediately in the selected measuring mode, but not, though, another recording. All following measurements are displayed and recorded in the newly selected mode.
In all measuring modes, the angle reading is updated continually. The distance or coordinates are updated only after the next measurement.

Measurement

After entering and defining all parameters required you can carry out the measurement.
Measurement to further points + PNo Input point number and code
After the measurement, the flush right point number is incremented by one unit within the number of digits displayed up to the special character (no figure) to the left of it. (According to this picture, counting goes only up to 9, then it will begin again with "0".)
Measurements in the modes are realised without entering and recording local or global heights Display with absolute heights, with the heights Zs, ih and th entered

HzV and SD

Car Adapter for LG20: 708410
External Battery 6V/7Ah 708146-9901 only for Type Cool Blue
LG20 230V: 708100 Charger 115V: 708103
Internal Battery 6 V1,1Ah 702504-9040
Power Cable 6V 708177-9480

Data Cable 708177-9460

Data Transfer Software e.g. Terminal program (Accessories / Windows )

PC Station

The basic requirement for a measurement in a system of coordinates is a stationing within this system. That means, that the position and height of the instrument are determined by measuring to known backsight points. In the case of an unknown station, the scale and the orientation of the Hz circle in azimuth direction are computed additionally to the station coordinates. In the case of a known station, only the scale and the orientation of the Hz circle in azimuth direction are computed. After the stationing, the actual measurements that means setting out and polar points - are possible within this system of coordinates.

1 The Menu Guidance

Stationing

2 Unknown Station

Unkn. station Known station

3 Known Station

Stat. in elevation elevatio
4 Stationing in Elevation

Polar survey

5 Polar Points

Setting out

6 Setting Out
The guidance through the menu is very easy to understand and based on a unique schema for all programs.

Principle

3 Coordinates 2 Unknown station
After calling the respective program, a graphics appears with a detailed explanation of the program. A and B are backsight points with known coordinates and S is the station the coordinates of which are to be calculated.

Station known YS

given: requ.: : (Y,X)S,A : Om , m or Om
meas.: : (SD,Hz)S-A, or (Hz,V)S-A By measuring to a known Backsight Point A, the instrument will calculate the circle orientation Om and the scale m. Measurement Known Station

S CHCK

to call station S
to quit the program Selecting the coordinates of station S
After defining S: There are two ways to calculate the orientation.

Hz XY S

see below page 4-11 to repeat station S
Orientation using a known Azimuth The orientation using a known azimuth will be selected if the bearing angle between the station and the backsight point is known (for example calculated from coordinates) and a distance measurement to the backsight point is impossible. to set the required direction by turning the instrument
to clamp the set direction to sight the known point allocation is completed to confirm, record, quit the program to reject, new start Display of results and recording
Orientation using known Coordinates This orientation method will be used if the coordinates of the backsight point are known. Selecting the coordinates of BP A
SD/Hz/V Distance and bearing measurement Hz/V Bearing measurement

to BP A

to confirm the orientation, continuation to reject the orientation, new start
to accept the new scale to transfer the orientation accepting an old scale to transfer the orientation entering any scale to repeat the calculation
Display of results and recording
If recording is activated, the following lines are saved in dependence on the settings: Designation of the mode Point numbers and code Y,X Y,X Coordinates of station point Coordinates of backsight point A
SD,Hz,V Readings for backsight point A according to selection m,Om Scale and circle orientation according to selection
3 Stationing 3 Stationing in elevation
Stationing in elevation permits the determination of the height above Mean Sea Level independently of planimetric stationing. In programs involving local coordinates, in particular, the absolute height can be included in the measurement. The stationing in elevation is possible before or after a planimetric stationing.

to measure to point P page 5-33
The station point is point A
further in the main program
The station point is point B
The Station equals Point C

+ PNo ,

If recording is activated, the following lines are saved in dependence on the settings: Designation of the mode Point numbers and code SD, Hz, V th,ih SD, HD, h SD, Hz, V y,x,h A=S, B=S C=S, P=S Information lines Y,X,h P=S Polar coordinates A,B,C Reflector height, instrument height (only if changed) Basis A-B Polar coordinates P Coordinates P
2 Applications 7 Alignment
8 Alignment A (Hz,V)A x y SDP +h -h Pi
Determination of point distances x,y on the straight line from S to A.
Examples for application: Checking of point deviations from a given straight line Setting out of straight lines in the case of direct visual contact
meas.: : (Hz,V)A requ.: : (y,x)P , in relation to S-A, h in relation to the alignment height in point Pi

Measurement Alignment

+ PNo to measure to point A
There is only an angle measurement carried out to point A !
to call P Measurement to point A to be repeated?
If recording is activated, the following lines are saved in dependence on the settings: Designation of the mode Point numbers and code Hz, V SD, Hz, V y,x,h Point A Polar coordinates P Coordinates P

Data Management

Decisive features of an efficient work routine are the saving of the measured and computed values as well as the transfer of measured data to a PC and the transfer of coordinates from the PC to the surveying instrument. This chapter describes all processes necessary to meet these requirements. The section Editor only applies to Elta R 45 and Elta R 55. 1 Editor 6-2

2 Data Transfer

3 Data Formats

4 Interface

5 Remote Control

5 Data Record Lines

Calling the EDIT Menu ON EDIT

1 Editor

Compensator activated Indication of battery level Display of the free data lines and address of the last data line written

Display of Data Lines

to go to memory display to call search function to change page.
to display preceding data line to display following data line
allows to change point number and code
G Attention ! In the coordinate and application programs, fixed codes are assigned to certain data lines. Such codes cannot be modified by the operator.

Searching for Data Lines

to call search function to search for point number to search for code to search for address Input of the point number, code or address to be searched for
to continue search using the same criterion to change page
to display preceding data line to display following data line to quit search routine F Tip If no data line is found to which the search criterion applies, search is followed by an error message.

Deleting Data Lines

to call the function "Delete"
C Technical Information This function deletes all data lines or the data lines from a selected line number (address) to the last data line saved.
G Attention ! The deletion is definite and irrevocable. To avoid any unintentional loss of data, utmost care has to be taken over this action!

all ?P

to select all lines or from the line with point number xx or from the line with code xx or from the line with address xx
Example: search for point number 2
to continue search using the same criterion
to switch over to the page of readings

to confirm the line

For another check, the selected data lines are displayed again and have to be confirmed.
to confirm the selection to reject the selection / quit the routine

Entering Data Lines

to call the function "Input"
to enter the planimetric coordinates to enter planimetric coordinates and heights to enter heights
Example of a height input: Z 149,362 m Confirmation of the old value (in this case 149,362 m) Z=0 Set the height to zero
and to go to the desired position and to browse through digits to confirm
to switch over to the page for readings

to confirm and save

Input of further coordinates and heights with point number and code
G Attention ! The sequence and designation of the coordinate axes depend on the selected system of coordinates and the setting of the display of coordinates. The softkey YX and YXZ, respectively, is labelled according to this selection.
Data transfer can be performed between and by Elta R
This allows an easy data exchange between instrument and computer.
Preparing the Instrument for Data Transfer ON

YES MOD

5 Interface
to go to the menu to change settings

Menu Interface Elta R

PC Elta S Connect both devices by the serial interface cable and start the necessary programs for data transfer. Cable for data transfer Elta R PC cable with protocol Xon/Xoff: Order number 708177-9470.000
Interface parameters for transmitting and receiving project files: Baud rate: Protocol: Parity: Stop bits: Data bits: F Tip For data transfer to and from the PC, you can use for example the MS-WindowsTM Terminal program. 9600 Xon/Xoff even 1 (not variable) 8

PC Terminal Settings

Set the PC for data transfer as follows: Example for Windows Terminal program:
For sending or receiving a project file, set the terminal preferences as shown in the follows:
To transmit a project file, select Send text fileor Receive text file.

Data Transmission

Instrument Settings:

5 Interface YES

to go to the menu to confirm
Data transfer menu between Elta R and PC
1 MEM -----> Peripheral YES
Selection of the required data lines
F Tip Now, set the PC to Receive text file The. instrument or program at the receiving end must be set to the receive mode before you can transmit the project file.

to start

The data lines are transferred to the PC.

to end data transfer

Data Reception

On the instrument:

Data transfer menu between PC and Elta R
2 Peripheral -----> MEM YES
Enter the name of the source file into the PC Start the transfer from the PC The data lines are transferred to the Elta R.
G Attention ! The instrument only accepts coordinates.

to end data reception

F Tip Time Out occurs after 30 seconds without data communication. The message Time Outindicates a data error. After that, the program returns to the data transfer menu.
Zeiss Geodetic Systems are used for measurement functions with different data processing requirements. Elta instruments allow densely packed internal measurement and result data lines to be output in various formats. M5, R4, R5, Rec500 record format Four data formats which have grown historically are subject to on-site revision service for compatibility with customer instruments. Currently, M5 is the format to provide most comprehensiveness in definitions. It should be used preferentially for any other tasks. This chapter describes the structure of data format and the type identifier of measured and calculated values.
Data transfer Data management
C Technical All instruments have a serial interface which ensures the data exchange.
User interface Data management
G Attention! Instead of the usual marks within the 27 digit point identification, the M5 data format of Elta * R is limited to a 12 digit point number and a 5 digit code.
Description of M5 data format M5-> 5 Measuring data blocks per data line: 1 Address block 1 Information block 3 numerical data blocks The Zeiss M5 data format is the common standard for all current Carl Zeiss surveying systems. All 5 data blocks are preceded by a type identifier. The 3 numerical data blocks have a standard layout comprising 14 digits. In addition to the decimal point and sign, they accept numeric values with the specified number of decimal places. The information block is defined by 27 characters. It is used for point identification (PI) and text information (TI e.g.). The address block is comprised of 5 digits (from address 1 to 99999). The M5 data line The data line of the M5 format consists of 121 characters (bytes). The multiplication of this figure by the number of addresses (lines) stored shows the size of the project file in bytes. Blanks are significant characters in the M5 file and must not be deleted. The example describes an M5 data line at address 176 with coordinates (YXZ) recorded in unit m. The point identification of marking 1 is DDKS S402 4201. Column 119 includes a blank (no error code). The end of the line has CR, LF (columns 120 and 121, shown here as <= ).

Col. 120-121: Column 119: Col. 114-117: Carriage Return <, Line Feed Blank field, in case of error e Unit for block5
Column 99-112: Block5 value block Column 96-97: Type identifier5 for block5 Column 91-94: Unit for block4 Column 76-89: Block4 value block Column 73-74: Type identifier4 for Block4 Column 68-71: Unit for block3 Column 53-66: Block3 value block Column 50-51: Type identifier3 for block3
Column 22-48: Information block PI or TI (point identification PI or text information TI, TO etc.) Column 18-20: Type identification2 PIa (a=1-0, for 10 Markings) or TI Column 12-16: Memory address of data line Column 8-10: Column 1-6:

n blank

Type identifier1 Adr for address Defines M5 format

| separator

Explanations to the data line

Abbr. For

Description Format identifier M5 Format type Address identifier Value1 Type identifier Marking Value2

Digits 1

Characters alpha alpha alpha numeric alpha numeric alpha alpha numeric alpha alpha numeric alpha alpha numeric alpha alpha ASCII code
Meaning Elta Format 5 meas. data blocks Value1 Memory address Value2 (PIa ,TI, TO.) a=1, 2, 3 ,., 9, 0 PI or TI Value3 14-digit value 4-digit unit Value4 14-digit value 4-digit unit Value5 14-digit value 4-digit unit Error message, or n Hex code Hex 7C Hex 20 Hex 0D Hex 0A

T3 dim3

Type identifier Value3 Unit Type identifier Value4 Unit Type identifier Value5 Unit Identifier

T4 dim4

T5 dim5

Special characters |

Separator Blank CR (Carriage Return) LF (Line Feed)
ASCII 124 ASCII 32 ASCII 13 ASCII 10

< =

For your information

only! Elta R - Page 6-23

The point identification PI in M5 Format The PI is comprised of 27 characters. It starts in column 22 and terminates in column 48 in the M5 data line. The data structure within the PI is defined by markings. A maximum of 10 markings, marked in the preceding type identifier with PI1 to PI0 (columns 18, 19, 20), can be designated to the PI (depending on the instrument).
For your information only!

Elta R - page 6-26

The type identifier in the M5 Format In the course of the time, requirements on the data format have increased. Therefore, the M5 Format carries most of the type identifiers of all available formats, always based on the preceding format (Rec500). Type identifiers are defined by two characters (except for Adr). If only one character is necessary, the second character is a blank. In the M5 Format there are 5 Type identifiers (TK) defined: TK1: TK2: TK3: TK4: TK5: Adr T2 T3 T4 T5 Identifier address (Value1) Identifier information (Value2) Identifier 3. Value field (Value3) Identifier 4. Value field (Value4) Identifier 5. Value field (Value5)

Description of R4 and R5 (M5, Rec 500) format of Elta R stands for the data R4 recording format of the Elta R instruments containing 4 measuring data blocks: 1 Information block 3 numeric Data blocks stands for the data R5 recording format of the Elta R instruments containing 5 measuring data blocks: 1 Address block 1 Information block 3 numeric Data blocks Abbr. Description For Marking format R4,R5 format type R4, R5 Adr Address marking <aa> Value1 Tk Type identifier Info <Info> Info Ti Type identifier Value i <Wi> Value i (i = 1,2,3) dimi dim i (i = 1,2,3) & Special characters M5 Data format Two data recording formats - R4 and R5 - are available in the Elta R total station (tachymeter). Both formats can be chosen in the instruments. Depending on the setting with or without address, either data record format R5 (with address) or R4 (without address) can be used. R4 and R5 format data lines The data line in the R4 format contains 80 characters (Bytes). It is comprised of an information block and 3 numeric value blocks. The data line in the R5 format contains 89 characters (Bytes). It is comprised of one address block, one information block, 3 numeric value blocks. Both formats contain the same type identifiers for each block. Digits Characters 4 alpha

Meaning Elta R Format

4 or. 5 Data blocks
alpha numeric alpha num / alpha num / alpha numeric alpha
3 digits for marking Address in R5 Format Type identifier TR or KR Info for data line Type ID Value block Value block Value i Unit block Value i
The special characters n,|,< and = are analogous the M5 format.
The R4 Data line Column 79-80: Carriage Return <, Line Feed = Column 74-77: Unit for 3. Value block
Column 62-72: 3. Value block
Column 59-60: Type identifier for 3. Value block Column 54-57: Unit for 2. Value block
Column 42-52: 2. Value block
Column 39-40: Type identifier for 2. Value block Column 34-37: Unit for 1. Value block
Column 22-32: 1. Value block
Column 19-20: Type identifier for 1. Value block Column 11-17: Column 8-9: Column 1-6:
Data line information (alpha numeric) Type identifier information Defines R4 format

| Separator

The R5 Data line Column 88-89: Carriage Return <, Line Feed = Column 83-86: Unit for 3. Value block
Column 71-81: 3. Value block
Column 68-69: Type identifier for 3. Value block Column 63-66: Unit for 2. Value block
Column 51-61: 2. Value block
Column 48-49: Type identifier for 2. Value block Column 42-46: Unit for 1. Value block
Column 31-41: 1. Value block
Column 28-29: Type identifier for 1. Value block Column 20-26: Data line information (alpha numeric) Column 17-18: Type identifier information Column 12-15: Memory address of Data line Column 8-10: Column 1-6:
Type identifier Adr for address Defines R5 Format
The point identification in the R4/R5 Format For a point identification in the R4 and R5 format are max. 7 digits available. The PI is controlled by two Type identifiers, TR and KR, which describe the kind of PI. TR KR Type identifier for a text information block Type identifier for a PI with code and point number. Point number: Point code: 0.9, right-aligned, 4-digit 0.9, Blank, # 3-digit

The 3 digit code can be combined with additional characters. It is suggested to use the character # for marking incorrect measurements. Elta R - Marking in the M5/Rec 500 Format The Elta R uses a mark which is saved internal in the instrument. This mark consists of 3 blocks with clearly defined block lengths. The user is able to manipulate the order of the 3 blocks. Examples: Layout gage: Sample Marking: Sample Marking: PPPPPPPPPPPP CCCCC IIIIIII 123456789012345678901234567 PPPPPPPPPPPP CCCCC IIIIIII Meaning: 12-digit point number 5-digit point code 7-digit information block IIIIIII

CCCCCPPPPPPPPPPPP

F Tip The information block (I) is left-aligned, the code (C) and point number (P) are rightaligned. Upon data conversion to the R4 / R5 format, the point number and point code will be shortened to 5 and 3 digits, respectively. The right-aligned digits remain.
Change settings of Elta R Markings in the M5 / Rec 500 format ON

5 User interface YES

go to the menu to change setting F Tip In case of overlapping information in the blocs, the instrument returns into its initial state (Default).
Elta R Markings in R4/ R5 format In instruments of the Elta R Serie one marking can be used. In both the R4 and R5 format 7 characters are available for point identification and marking. The PI is controlled by two type identifiers TR and KR, which mark the kind of the PI. TR KR Type identifier for one text information block Type identifier for a PI with code and point number. Point number: Point code: 0.9, right-aligned, 4-digit 0.9, Blank, # 3-digit
The 3 digits in the code can be combined with any applicable character. It is sug gested, to use the character # to mark incorrect measurements. Examples: Layout gage: Text information: Point number and code: IIIIIII CCC PPPP TI 1234567 TR IIIIIII KR CCCPPPP Meaning: 7-digit Text information block 3-digit Code block 4-digit Point number block In the M5 / Rec500 Format a 5-digit code and a 12-digit point number are used. In the R4 / R5 Format the established digits (3 and 4, respectively) remain right-aligned.
Definition of type identification Definition Type identifiers are assigned to the 5 measuring data blocks of pre-set codes, which show the number or character value of the block. Type identifiers are (except for Adr) defined with two characters. If only one character is necessary, the second character is blank. The code is case sensitive. The following table lists all Type identifiers in alphabetical order according to the CZ Data Formats and the possible position of characters after the comma (,????) as well as signs (): Type identifiers - CZ Formats M5, R4, R5 and Rec500 (Elta R) Type identifier ,????

User interface

Hardware interface
The interface for the peripheral equipment is of the asynchronous, serial type and conforms to DIN 66020 standard (V 24 / RS 232 C). The interface is provided on the slip ring connection. Interface functions: (1) Data transfer: Direct transmission of measured data between Elta R and the connected peripheral instrument (computer, printer,.). A series of transmission parameters are available for the control of this process. (2) Software updates for the Elta R can be loaded via this interface. Pin assignment of the interface /connecting cable Pin Signal Ground SD ED Vcc Vcc Ground Direction Output Input In In Designation Ground (-Ubatt ) Transmitted data Received data External power supply (+Ubatt ) External power supply (+Ubatt ) Ground (-Ubatt )
Pin assignment (exterior view of connector), 8-pin female stereo connector
Connecting cable: Cable 708177 - 9460 is used for external data recording and for data transfer to a PC. You can also use cable 708177 - 9470 (with angled plug) if the Elta R is installed on a tripod during data transfer.
This charpter decribes the conditions of data transfer, data transmission protocols, overviewe about key codes and answers of the PC for the instrument control. XON/XOFF Control
The X ON/X OFF protocol is a very simple, but efficient data transmission protocol. It is preferably employed for so-called terminal programs (e.g. terminal under Windows or Xtalk) and can be used in data recording from the Elta R to a computer. Rec 500 Software Dialog (Rec 500 Protocol)
Control diagram of the `Rec 500 software dialog
The following definitions apply to the time values entered in the control diagram: t1 : Interval between signal A from Elta R and the response from the recording unit with signal B, and interval between the end of data transfer and the acknowledgement with signal B. 0 > t1 < t(Time-Out) t1 = 20 s The recording unit may respond without delay to the recording request from the Elta R. However, the selected time-out t(Time-out) must not be exceeded; otherwise an error message is displayed and external recording is deactivated. The Elta R assumes that no external recording unit has been connected. t2: Interval between the acknowledgement of the reception of a data line by the connected recording unit with signal B and the transmission of a further data line. Depending on the type of recording line involved, this amounts to 10 ms > t2 < 100 ms Rec 500 software dialog is also suited for data transmission to the Elta R The control diagram is identical to the one shown above, with the designations of the transmitted data line and received data line being interchanged, as data is now transmitted by the peripheral unit.

Key Codes and Function Requests If the Elta R is controlled by a computer, the keys can be emulated with the following codes: Key Code F1 T31 F2 T32 F3 T33 F4 T34 F5 T35 MEAS T4D symbol for CR/LF Key ON+F1 ON+F2 ON+F3 ON+F4 ON+F5 ON+MEAS Code TB1 TB2 TB3 TB4 TB5 TCD
The Elta R can be controlled either by key pressure or, equally, from a connected computer. Each recognized key code is acknowledged by the Elta R with 'Q '; in the event of errors such as incorrect syntax of the call or data transmission errors, the response is 'E '. Function requests:
Code FKO FMD FMW FMS FMR FMK
Each function request is answered with a data line in the selected format. The with/without address setting is effective. Only the XON/XOFF protocol is used
Compensator reading in sighting direction Slope distance SD Angle readings Hz, V SD, Hz, V HD, Hz, h reduction y, x, h local coordinates
G Attention! The values entered for scale, addition constant, index and collimation correction are taken into account in all function requests.

Parameters:

Reading: Response: Setting: Response:
?KTTT !KTTT |1234567890123456 unit !KTTT |12345678901234 unit Q
The response to a reading command is identical with the setting command. In the event of errors such as incorrect syntax of the call or data transmission errors, the response is 'E '.

Designations:

?K !K TTT | 1-6 unit Q
fixed character string for reading fixed character string for setting type identifier (see examples) carriage return/line feed separator, ASCII dec. 124 numerical value, 16 characters blank, ASCII dec. 32 unit of the associated numerical value, 4 characters or blanks acknowledgement
Examples for the parameter calls:
?K00A Instrument Identification !K00A | 702718-0000.730 ?K00a Serial Number !K00a | 209187
RO RW (a=0:aus, a=1:an) RW (a=0:aus, a=1:10 a=2:30 min)
?KSND Acoustic Signal !KSND | a Bit ?KAPO Automatic Shutoff !KAPO | a Byte min, ?KP20 Compensator !KP20 |

a Bit

RW (a=0:aus, a=1:an) RW (a=0:Grad, a=1:%) RW (ZZZZ=ZEN : ze-
?KSPR Vertical Angle Display !KSPR | a Bit ?KSVR Vertical Reference System !KSVR | ZZZZ nith angle,
ZZZZ=VERT: vertical angle, ZZZZ=HGHT: height angle) ?KSKO Coordinate System and Display Sequence RW !KSKO | ab (a=1:xy, a=2:yx, a=3:ne b=1:RW-HW, b=2:HW-RW) ?KSMW Angle Resolution and Unit !KSMW | 0.0005 gon (0.0005/0.001/0.005 gon RW
?KSMS Distance Resolution and Unit !KSMS | 0.001 m m