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New Holland TX62, TX63, TX64 Plus, TX65 Plus, TX66, TX67, TX68, TX68 Plus. Operator's Manual - page 5

SECTION

4

NOTE:

Do not automatically assume that if an error

message is displayed you need to stop the

combine immediately.

The medium priority errors remain on the

screen for 5 seconds.

The low priority errors can only be viewed

through the error summary routine in the

service mode or after power has been switched

on.

--

All errors can be viewed in the service mode by

selecting the error summary, using

or,

, and pressing

to enter the error

summary.

If more than one error is to be displayed, they

appear in order of priority and in numerical or-

der, each error for 5 seconds, until all errors

have been displayed.

With the

or

keys, the next error

may be immediately displayed on the screen.

REMARKS:

1.

‘‘Error 100”, which has a different screen

layout, appears when the total engine

hours stored in each different electrical

component are not within 10 hours of

each other (component replaced).

Contact your New Holland dealer as

soon as possible to verify this. In the

meantime you can continue to use the

combine as it does not effect the func-

tion of the system.

2.

‘‘Error 171” is not an error indication, but

the battery voltage indication.

-- Press

to continue the error

summary when on error 100 or 171.

-- Leave the service mode by pressing

4-65

SECTION 4

2. Enter the calibration mode by pressing

The display will show the five calibration selec-

tion lines - Figure 104:

1

Machine type and specifications

2

Header width and height

3

Ground speed

4

Returns indication

5

Date and time

48151

104

3. The selection lines can be selected with the scroll

keys

or

Press

to validate the choice.

Each selection line contains different items which

are or are not applicable for the specific combine.

NOTE:

S All calibrations or steps made are to be

validated by pressing

Then automatically the display will show

the next step.

S At the first start-off it is advisable to go

through all the items as explained below.

Nevertheless, most will be calibrated be-

fore shipment.

S Every item of a specific selection line can

be changed (calibrated) separately with-

out having to recalibrate the other ones.

To arrive at a specific item in a selection

line, proceed as follows:

4-73

FIELD OPERATION

a) Once arrived at a selection line, as de-

scribed, press

to go from one

item to the next one. Press as many

times as needed until the appropriate

item is reached.

b) When no further items need to be cali-

brated, it is not necessary to proceed to

the end of a selection line, which is when

‘‘CAL/SET COMPLETE’’ is displayed.

c) After the calibration of a specific item is

validated by pressing

, the cali-

bration mode can be left by pres-

sing

Line 1 -- TYPE

1. Select line 1 (‘‘TYPE’’) in the calibration mode by

pressing

or

, and

to validate

the choice.

a) Figure 105 -- Appearing:

Select the correct language by pressing

or

, and

to validate the

choice.

52272

105

4-74

SECTION 4

b) Figure 106 -- Appearing:

‘‘CHOPPER: YES’’ or ‘‘CHOPPER: NO’’

S In case a straw chopper is installed, se-

lect

‘‘CHOPPER: YES’’ by pressing

or

, and

to validate

the choice.

S In case no straw chopper is installed, se-

lect

‘‘CHOPPER: NO’’ by pressing

48164

106

c) Figure 107 -- Appearing:

‘‘LAT. FLOAT: YES’’ or ‘‘LAT. FLOAT: NO’’

LAT FLOAT: YES

S In case the machine is equipped with

header lateral flotation, select

‘‘LAT.

FLOAT: YES’’ by pressing

or

, and

to validate.

S If not, confirm

‘‘LAT. FLOAT: NO’’ by

52335

pressing

107

4-75

FIELD OPERATION

d)

Figure 108 -- Appearing:

‘‘CAL LAT FLOAT: NO’’

S In case the machine is equipped with lat-

eral flotation

(selected

‘‘LAT. FLOAT:

YES’’ as described in c), and the lateral

float bargraph indicator B

(Fig.

82)

should give a correct indication of the

header position, select

‘‘CAL LAT.

FLOAT: YES’’ by pressing

or

, and

to validate the

choice.

48162

S If the lateral float bargraph indicator is al-

108

ready giving a correct indication of the

header position, select

‘‘CAL LAT

FLOAT: NO’’ by pressing

When selecting ‘‘CAL LAT FLOAT: NO’’,

the calibration procedure will automati-

cally continue with step f.

e) S

Figure 109 -- Appearing:

‘‘CAL LAT FLOAT: YES - SET

’’

Tilt the header completely to the right-

hand side (this side down) with the lateral

float control switch in the lever.

At its end-of-stroke, release the lateral

float control switch and press

to

validate this position.

48161

109

4-76

SECTION 4

S Figure 110 -- Appearing:

‘‘CAL LAT FLOAT: YES - SET

’’

Now move the header to its mid-position.

Press

to validate this position.

48168

110

Figure 111 -- Appearing:

S

‘‘CAL LAT FLOAT: YES - SET

’’

Now tilt the header completely to the left-

hand side (this side down) until its end-

of-stroke. Press

to validate this

position.

Now the lateral float bargraph indicator B

(Fig. 82) should show the correct header

position.

48160

111

4-77

FIELD OPERATION

f)

Figure 112 -- Appearing:

‘‘RIGHT RETURN : YES’’

Models TX62,TX63,TX64PLUS and TX65PLUS

do not have a right return, so select ‘‘RIGHT

RETURN : NO’’.

Models TX66,TX67,TX68 and TX68PLUS do

have a right return, so select ‘‘RIGHT RE-

TURN : YES’’.

Select by pressing

or

, and

to validate.

52231

112

g) Figure 113 -- Appearing:

‘‘UNITS: METRIC’’ OR ‘‘UNITS: IMPERIAL’’

This calibration offers the possibility to have a

read-out of the data on the display in metric

(km/h - ha) or imperial values (miles/h -

acres).

Select by pushing

or

and

to validate the choice.

48158

113

4-78

SECTION 4

h) Figure 114 -- Appearing:

‘‘MAXIMUM ENGINE RPM XXXX’’

The four X’s should read: 2200

This is the engine high idle speed (under no

load), which will be used as a reference for

the engine speed bargraph and rpm monitor.

Select the correct number by pressing

or

, and validate by pressing

48157

114

i)

Figure 115 -- Appearing:

‘‘CAL ENGINE RPM: NO’’

S In case an engine rpm calibration is re-

quired to give a correct indication on the

engine speed bargraph and rpm monitor,

select

‘‘CAL ENGINE RPM: YES’’ by

pressing

or

, and validate

by pressing

48156

115

4-79

FIELD OPERATION

The display will show -- Figure 116

‘‘BE SURE ENGINE SPEED IS MAXI-

MUM AND PRESS ENTER’’

Run the engine at maximum speed with-

out any mechanism being engaged and

press

to confirm this speed.

The theoretical engine speed given be-

fore is now matched to the realistic one.

The lights on the rpm monitor will blink for

5 seconds.

The real engine high idle speed is now in-

troduced as reference rpm.

S When selecting ‘‘CAL ENGINE RPM:

48155

NO’’, the calibration procedure will auto-

116

matically continue with step j.

j)

Figure 117 -- Appearing:

‘‘CLEANING SHOE

SL: YES

FS: NO’’

S

In case the machine is equipped with a

fixed cleaning shoe, select:

‘‘CLEANING SHOE

SL: NO

FS: YES’’

bypressing

or

, and

to validate.

S

In case the machine is equipped with a

self-levelling cleaning shoe, select:

‘‘CLEANING SHOE

48191

SL:YES

FS: NO’’

117

by pressing

or

, and

to validate.

On units equipped with a flex header con-

trol printed circuit, continue with step l.

4-80

SECTION 4

k) Figure 118 -- Appearing:

‘‘DISPLAY CONCAVE : YES’’

S Models TX64PLUS,TX65PLUS,TX66,TX67,

TX68 and TX68PLUS:

These combines are equipped with an

electrical threshing concave adjustment.

DISPLAY CONCAVE: YES

To continuously display the concave

position on the main screen, select ‘‘DIS-

PLAY CONCAVE: YES’’ by pressing

or

, and validate the choice

by pressing

The calibration procedure will automati-

52336

cally continue with step l.

118

S Models TX62-TX63:

Select ‘‘DISPLAY CONCAVE : NO’’ by

pressing

or

, and validate

the choice by pressing

The calibration procedure will automato-

cally continue with step o.

4-81

FIELD OPERATION

l)

Figure 119 -- Appearing:

‘‘CAL CONCAVE :’’

S In case a threshing concave actuator cal-

ibration is required to give a correct in-

dication of the concave position, shown

on the bottom line of the monitor rpm

mode, select ‘‘CAL. CONCAVE: YES’’ by

pressing

or

, and

to

validate the choice.

S If not, confirm ‘‘CAL. CONCAVE: NO’’ by

pressing

48190

119

The calibration procedure will automati-

cally continue with step o.

On units equipped with a flex header con-

trol printed circuit, continue with step r.

m) Figure 120 -- Appearing:

‘‘CONCAVE OPEN AND PUSH ENTER’’

Lower the concave completely with the con-

cave control switch on the dashboard. At its

end-of-stroke, release the concave control

switch. Press

to validate this posi-

tion.

48189

120

4-82

SECTION 4

n) Figure 121 -- Appearing:

‘‘CONCAVE CLOSED AND PUSH ENTER’’

Now raise the concave completely.

At its end-of-stroke, press

to validate

this position.

The calibration procedure will automatically

continue with step o).

On units equipped with a flex header control

printed circuit, continue with step r.

48188

121

o) Figure 122 -- Appearing:

‘‘AUTOMATIC COMP.: YES’’

S When the combine is equipped with au-

tomatic header compensation, select :

‘‘AUTOMATIC COMP.: YES’’ by pressing

or

, and

to validate.

The calibration procedure will automati-

cally continue with step r.

S When selecting ‘‘AUTOMATIC COMP.:

NO’’ (TX62 option), the calibration proce-

52226

dure will automatically continue with step

122

p).

4-83

FIELD OPERATION

p) Figure 123 -- Appearing:

‘‘CAL. HEADER SPEED: NO’’

S Select ‘‘CAL. HEADER SPEED: NO’’ by

pressing

or

, and validate

by pressing

The calibration procedure will automati-

cally continue with step r.

S Select ‘‘CAL. HEADER SPEED: YES’’

52227

when the settings of the header speed

123

should be changed.

The calibration procedure will automati-

cally continue with step q.

q) S Figure 124 -- Appearing:

‘‘HEADER SPEED UP: 200’’

Now it is possible to change the header

speed up constant into a new one be-

tween 0 and 200 by pressing

or

, and

to validate the new

value.

52230

124

4-84

SECTION 4

S

Figure 125 -- Appearing:

‘‘HEADER SPEED DOWN: 200’’

Now it is possible to change the header

speed down (in the ‘‘slow’’ position of the

button) constant into a new one between

0 and 200 by pressing

or

,

and

to validate the new value.

52228

125

S Figure 126 -- Appearing:

‘‘HEADER SPEED FAST DOWN: 200’’

Now it is possible to change the header

speed fast down (in the ‘‘fast’’ position of

the button) constant into a new one be-

tween 0 and 200 by pressing

or

, and

to validate the new

value.

52229

126

4-85

FIELD OPERATION

r) Figure 127 -- Appearing:

‘‘Set contrast LCD and push ENTER’’

S Change the contrast of the display by

pressing

or

, and press

to validate the choice.

NOTE:

In case someone pressed the

button

52273

127

while the screen was completely dark or com-

pletely blank, press the following keys:

--

1x

--

1x

A

Lateral

Concave

Compensa-

float

display

tion

--

1x

11

NO

NO

YES

NO

NO

NO

12

NO

YES

YES

--

A x.. (Fig. 128) for TX60 Series

combines without flex header

YES

NO

YES

13

YES

YES

YES

B x.. (Fig. 129) for TX60 Series

combines equipped with a flex

128

header control printed circuit.

B

Lateral float

--

or

10

NO

11

YES

in that sequence until ‘‘SET CONTRAST LCD

129

AND PUSH ENTER’’ becomes visible on the

screen. Adjust and validate the contrast as ex-

plained above.

4-86

SECTION

4

S

At the bottom of the display appears

--

Figure 130: ‘‘CAL/SET COMPLETE’’.

This means line 1 is now completely cali-

brated. After 5 seconds the monitor will

return to the rpm mode as shown in Fig-

ure 84.

SET CONTRAST LCD AND

PUSH ENTER

NOTE:

This is the case after a complete cal-

ibration of each selection line (when

‘‘CAL/SET COMPLETE’’ is shown) or

when pressing

after a specific

item calibration is confirmed

(by

pressing

).

52334

130

Line 2 -- HEADER -- Figure 131

1. Enter the calibration mode by pressing

2. Select line 2 (‘‘HEADER’’) by pressing

or

, and

to validate the choice.

48154

131

4-87

FIELD OPERATION

a) On the display will appear - Figure 132:

‘‘REEL SPEED SYNCHRO GAIN: 95 %’’

The reel speed synchronization system is an

automatic system which, if switched on with

switch 43 (Section 2, Fig. 10) in the instru-

ment panel, creates a linear relationship of

the reel speed (in m/sec) with the ground

speed. The ‘‘gain factor’’ is the factor which

controls the amount of increase of reel speed

for a certain amount of increase of ground

speed.

The smaller the factor (%) is , the smaller the

increase of the reel speed will be versus the

same ground speed increase.

48167

132

Refer to Figure 133:

a Reel circumference speed (m/sec)

b Ground speed (m/sec)

x Relationship of reel speed to ground

speed with a factor of 100 %

y Relationship of reel speed to ground

speed with a factor of 95 %

The ‘‘gain factor’’ can be selected between 0

and 1000:

0: The reel speed is constant and inde-

51511

pendent of the ground speed

133

100: When the ground speed increases 1

m/sec, then the reel speed increases

1 m/sec

1000: When the ground speed increases 1

m/sec, then the reel speed increases

10 m/sec

4-88

SECTION 4

Select the number by pressing

or

, and then validate by pressing

NOTE:

Manual operation of the reel speed va-

riator swith increases (↑) or decreases

(↓) the reel speed versus the ground

speed but the relationship remains the

same (z), even if the battery key was

turned off.

b) Figure 134 - Appearing:

‘‘HEADER WIDTH: XXX cm’’

NOTE:

In case Imperial values were chosen

‘‘HEADER WIDTH: XXft XXinch’’ will ap-

pear.

S In case a grain header is attached:

Select the correct header width by pres-

sing

(*) or

(*), and

48153

to validate.

134

This will give a correct hectare count.

17 ft = 518 cm

20 ft = 610 cm

24 ft = 731 cm

A figure up to 1999 cm can be filled in.

(*): If the key is held for more than 2 sec-

onds, the speed of change increases!

4-89

FIELD OPERATION

S When a maize header is attached: in-

crease the header width to a value higher

than 1999.

Select: number of rows x row distance

(always in cm!)

e.g.

6 x 76

row distance

number of rows

Select by pressing

or

,

and

to validate.

c)

Figure 135 - Appearing:

‘‘CALIBRATE HEIGHT: NO’’

It can be necessary to calibrate the header

height, e.g. when attaching a maize header

orchangingwheels.Thiswillensureacorrect

use of the header height bargraph indicator C

(Figure 84).

S If not needed, validate the ‘‘NO’’ choice

by pressing

At the bottom of the display appears

‘‘CAL/SET COMPLETE’’. This means

48148

line 2 is now completely calibrated (*).

After 5 seconds the monitor will return to

135

the rpm mode as shown in Figure 84.

(*): On units equipped with a flex header

control printed circuit, continue with

step f.

S If needed, select ‘‘CALIBRATE HEIGHT:

YES’’ by pressing

or

, and

to validate.

4-90

SECTION 4

d) Figure 136 - Appearing:

‘‘SET MAXIMUM STUBBLE’’ symbol

Bring the header in the maximum stubble

height position (*) (own choice).

(*): This position is also the height above

which the hectare counter will stop

counting.

Press

to validate.

48149

136

e) Figure 137 - Appearing:

‘‘SET GROUND LEVEL’’ symbol

Lower the header to the ground or lowest

level of operation and press

to vali-

date.

At the bottom of the display appears ‘‘CAL/

SET COMPLETE’’. This means line 2 is now

completely calibrated. (*)

After 5 seconds the monitor will return to the

48150

rpm mode as shown in Figure 84.

137

(*) On units equipped with a flex header con-

trol printed circuit, continue with step f.

4-91

FIELD OPERATION

f)

Figure 138 - Appearing:

‘‘FLEX HEADER INSTALLED: NO’’

S If no flex header is installed, press

to validate.

S The display will show ’’CAL/SET COM-

PLETE’’ and the monitor will return, after

5 seconds, to the rpm mode as shown in

Figure 84.

S If a flex header is installed, press

48180

138

or

to select FLEX HEADER

INSTALLED: YES’’, and press

to

validate.

NOTE:

Ensure that plug A (Fig. 3) is plugged

into socket C!

g) Figure 139 - Appearing:

‘‘FLEX HEADER SENS: X.XXX’’

X.XXX is a constant which can be selected

between 0.800 and 5.100 and allocates a

certain sensitivity to the reaction of the flex

header height control.

If too sensitive: lower the value.

If not sensitive enough: increase the value.

Press

or

to select a specific

48182

constant. Press

to validate.

139

4-92

SECTION 4

h) Figure 140 - Appearing:

‘‘CORRECTION NEUTRAL: X.XX’’

X.XX is a constant which can be selected be-

tween --1.5 and +1.5 to obtain a stable oper-

CORRECTION NEUTRAL:

ating height.

-- 0.2

Press

or

to select a specific

constant. Press

to validate.

52427

140

i)

Figure 141 - Appearing:

‘‘HEADER RAMS:’’

The combine can be equipped with 2 or 3

header rams.

HEADER -- RAMS:

2

Press

or

to select.

Press

to validate.

52733

141

4-93

FIELD OPERATION

j)

Figure 142 - Appearing:

‘‘SPEED FACTOR’’

X.XX is a constant which can be selected be-

tween 0.5 and 0.20 to obtain a good reaction

speed of the flex header height control in rela-

SPEED FACTOR:

tion to the forward speed of the combine.

0.05

Press

or

to select a specific

constant. Press

to validate.

52734

142

k) Figures 143 and 144 - Appearing:

‘‘IS STANDARD STUBBLE HEIGHT CON-

TROL CALIBRATED?: NO’’

Select ‘‘YES/NO’’ with

or

S When selecting ‘‘NO’’, press

to

validate.

The message to calibrate first the normal

header height control appears on the

screen.

48181

143

4-94

SECTION 4

Figure 144 - Appearing:

‘‘CALIBRATE FIRST THE NORMAL

HEADER HEIGHT CONTROL CAL/SET

COMPLETE’’

After 5 seconds the monitor will return to

the rpm mode as shown in Figure 84.

First perform the header height control

calibration.

Refer to paragraph headed

‘‘Header

height control calibrations’’ at the begin-

ning of this Section.

S When selecting ‘‘YES’’, press

to

validate. The calibration procedure will

48187

automatically continue with step l.

144

l)

Figure 145 - Appearing:

‘‘THRESHING ON AND SET MAX STUBBLE

HEIGHT AND PUSH ENTER’’

Select stubble height position with switch 17

(Fig.1).

Bring the header in the maximum stubble

height position with switch 18 (Fig.1).

Press

to validate.

48183

145

4-95

FIELD OPERATION

m) Figure 146 - Appearing:

‘‘THRESHING ON AND SET MIN STUBBLE

HEIGHT AND PUSH ENTER’’

Bring the header in the minimum stubble

height position with switch 18 (Fig.1).

Press

to validate.

48184

146

n) Figure 147 - Appearing:

‘‘EXECUTE US CALIBRATION AND ENTER

WHEN DONE’’

Refer to paragraph headed ‘‘Calibration of

the ground level through autofloat sensors’’

at the beginning of this Section.

NOTE:

Even if your combine is not fitted with the

autofloat sensor device, it is necessary

to perform this calibration.

Press

to validate.

48185

147

4-96

SECTION 4

o) Figure 148 - Appearing:

‘‘SET HEADER HEIGHT DRIVE BACK

POINT’’

This is the height to which the header rises

when reversing the combine.

Select this header height with switch

18

(Fig.1).

Press

to validate.

At the bottom of the display appears ‘‘CAL/

SET COMPLETE’’. This means line 2 is now

completely calibrated.

After 5 seconds the monitor will return to the

48186

rpm mode as shown in Figure 84.

148

Line 3 -- GROUND SPEED

CAUTION:

The ground speed which appears on the

screen can only be accurate if the parame-

ters are correctly programmed. Ask your

New Holland dealer to assist you, if neces-

sary.

1. Enter the calibration mode by pressing

2. Select line 3 (‘‘GROUND SPEED’’) by pressing

or

, and

to validate the

48151

choice.

149

4-97

FIELD OPERATION

On the display will appear:

‘‘GROUND SPEED CONST: XXXX’’

XXXX is a constant = measured amount of

pulses/min on the differential gear at a ground

speed of 1 km/h.

48152

150

Determination of constant: 3 different ways.

1) Taking into account the tyre dynamic radius:

GROUND SPEED CONSTANT

4-98

SECTION 4

a: Teeth on large final drive gear

b: Teeth on small final drive gear

c: Teeth on differential gear

R: Traction tyre dynamic radius (m)

(For tracks: radius of the primary

track roller)

2) Using measured wheel rotation over 100

metres

Xxaxc

Constant =

6x b

X: Traction wheel rotations over

100

metres

4-99

FIELD OPERATION

3) Driving a determined distance (e.g. 1 km)

a) Introduce a constant = 1000 (as described

in this section) by pressing

or

, and

to validate.

b)

Press

to leave the calibration mode

and enter the rpm mode.

c)

Press

to switch to the hectare

counter mode as shown in Figure 152.

48152

d)

Position the combine at the first beacon of

151

the distance to be driven (e.g. kilometre or

mile stone on public road).

e)

At the right-hand side of the bottom text line

(position G) the distance (in km or in miles)

since it was last cleared

(by pressing

) willl appear. Clear it to 0 by pres-

sing

f)

Drive the determined distance and stop the

combine (not the engine). Read the dis-

tance shown at G.

g)

Return to the calibration mode by pressing

h)

Select selection line

3

(‘‘GROUND

SPEED’’) by pressing

or

,

and

48141

152

1000 x z

Constant =

y

z: Distance shown at G

y: Real distance

4-100

SECTION 4

i) To change this ground speed constant:

press

or

, and

to vali-

date.

At the bottom of the display will appear

‘‘CAL/SET COMPLETE’’ . This means line

3 is now completely calibrated. After 5 sec-

CAL/SET COMPLETE

onds the monitor returns to the rpm mode

(Figure 84).

48152

153

Line 4 -- RETURNS CONSTANT

1. Enter the calibration mode by pressing

2. Select line

4

(‘‘RETURNS CONSTANT’’) by

pressing

or

, and

to vali-

date the choice.

a) Figure 154 - Appearing:

‘‘RETURN CAP CONSTANT: 200’’

The return capacity constant is factory-

programmed at 200 and can be varied be-

tween 5 and 5000 (5 units at a time).

The constant allocates a certain sensitivity to

the returns monitoring.

S If too sensitive: lower the value.

S If not sensitive enough: increase the

48142

value.

154

4-101

FIELD OPERATION

NOTE:

It is normally not advisable to change the fac-

tory-programmed value of 200.

In case change is required:

Press

or

to select a specific

constant. Press

to validate.

48143

155

b) Figure 156 - Appearing:

‘‘CALIBRATE RETURN: NO’’.

This calibration has to be carried out:

S At the first start-off

S Whenever changing the cleaning

shoe speed.

Select ‘‘YES/NO’’ with

or

S When selecting ‘‘NO’’, press

to

validate and to complete the calibration.

Proceed to step d.

S When selecting ‘‘YES’’, press

to

48144

validate this choice. Proceed to step c.

156

4-102

SECTION

4

c)

Figure 157 - Appearing:

‘‘CALIBRATE RETURN: YES

/

SET

THRESHING ON / SET ENGINE SPEED

MAX / RETURNS AUGER MUST BE EMPTY

/ PRESS ENTER ’’.

This means, to calibrate the returns:

S The threshing mechanism must be en-

gaged.

S The engine must be run on maximum.

S The returns auger must be empty.

Press

to confirm this.

48145

157

d)

Figure 157 - Appearing:

‘‘CAL/SET COMPLETE’’ at the bottom of the

display.

This means line 4 is now calibrated. After 5

seconds the monitor returns to the rpm mode

(Figure 84).

Line 5 -- DATE & TIME

The date and time is needed when memorizing data

or when errors are shown.

Changing can be needed:

S When changing from summer to winter time,

or vice versa

S After carrying out repairs

1. Enter the calibration mode by pressing

2. Select line 5 (‘‘DATE & TIME’’) by pressing

48146

or

, and

to validate the

158

choice.

4-103

FIELD OPERATION

a) Figure 159 - Appearing on the display:

‘‘DATE

TIME

’’

The date (day and month), the year and the

time can be selected separately by pressing

each time

The selected item will start to blink.

Change the selected item by pressing

or

(If the key is held for more than 2 seconds, the

48147

speed of change increases).

159

Press

to validate.

b) After confirming the time, the monitor dis-

plays the message ‘‘CAL/SET COMPLETE’’.

After 5 seconds the monitor returns to the

rpm mode (Figure 84).

4-104

SECTION 4

Calibration schedule

Units without flex header

Type

Header

Ground speed

Returns

Date & Time

•

Language

•

Reel speed synchro

•

Ground speed con-

•

Return cap constant

•

Date & Time

gain

stant

•

Chopper

•

Cal return

•

Cal/Set Complete

•

Header width

•

Cal/Set Complete

•

Lateral float

•

Cal/Set Complete

Cal. lateral float

•

Cal. header height

•

Right return

•

Cal/Set Complete

•

Units

•

Max engine RPM

•

Cal. engine RPM

•

Cleaning shoe

•

Display concave

Cal. concave

•

Cal. concave

•

Automatic com-

pensation

Header speed

(TX62)

•

Set contrast LCD

•

Cal/Set Complete

4-105

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