Page 1
User's
2769
Manual
Portable Double Bridge
IM 2769-10E
IM 2769-10E
6th Edition: Oct. 2017 (YMI)
Page 2
Introduction
Thank you for purchasing the 2769 Portable Double Bridge.
This User’s manual contains useful information regarding the instrument’s functions and
operating procedures, as well as precautions that should be observed during use.
Before using this product, thoroughly read this manual to understand how to use it properly.
Contact information of Yokogawa offices worldwide is provided on the following sheet.
PIM 113-01Z2: Inquiries List of worldwide contacts
Notice regarding This Document and User’s Manual
• The information covered in this User’s manual is subject to change without prior notice.
• Every effort has been made to ensure accuracy in the preparation of this manual.
Should any errors or omissions come to your attention however,
please inform YOKOGAWA accordingly.
• YOKOGAWA is by no means liable for any damage resulting from
the user’s mishandling of the product.
• This manual is intended to describe the functions of this product.
YOKOGAWA does not guarantee that these functions are suited to
the particular purpose of the user.
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IM 2769-10E
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Cautionary Notes for Safe Use of the Product
WARNING
When operating the instrument, be sure to observe the cautionary notes given below to
ensure correct and safe use of the instrument. If you use the instrument in any way other than as
instructed in this manual, the instrument’s protective measures may be impaired.
YOKOGAWA is by no means liable for any damage resulting from use of
the instrument in contradiction to these cautionary notes.
■ The following safety symbols are used on the instrument and in this manual.
Danger! Handle with Care.
This mark indicates that operator must refer to an explanation in
the instruction manual in order to avoid risk of injury or death of
personnel or damage to the instrument.
■ Since mishandling the instrument can result in an accident that may lead to
injury or death of the operator, such as an electric shock, be sure to observe
the following instructions.
● Protective Measures
• If a crack appears in the instrument after it has been accidentally dropped or bumped,
the safety-purpose insulation may be damaged.
By all means do not use the instrument, but ask the manufacture for repair.
● Connection
• To avoid electric shock, be sure to apply protective grounding to the grounding terminal.
• Install a protection fuse as shown in the example of measurement.
● Measurement
• Always maintain the instrument within the limits for allowable current, voltage and power,
during operation.
If there is more than one limit for any of these parameters, the lowest limit takes precedence.
● External Power Supply
• Only operate the instrument on a supply voltage no greater than 60 VDC.
● Operating Environment
• Do not operate the instrument in a flammable or explosive gas atmosphere.
• Do not operate the instrument if there is any condensation on it.
● Do Not Remove the Case or Disassemble
• Do not open the case except when replacing batteries or fuse.
Only Yokogawa service personnel are authorized to remove the casing or disassemble or
modify the instrument.
Do not attempt to repair the instrument yourself, as doing so is extremely dangerous.
IM 2769-10E
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Page 4
■ Since mishandling the instrument can result in an accident, such as an electric shock,
CAUTION
that may injure the operator or damage the instrument, be sure to observe
the following instructions.
● Batteries
• Do not use a mixture of different types of batteries or a mixture of old and new batteries.
If the instrument will not be used for a prolonged period, remove the batteries before storage.
The battery fluid will leak more readily during long-term storage, resulting in an instrument
malfunction.
IM 2769-10E
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CONTENTS
Introduction ....................................................i
Cautionary Notes for Safe Use of the Product .........................ii
1. GENERAL...................................................1
2. SPECIFICATIONS ............................................1
3. COMPONENT NAMES AND FUNCTIONS .........................3
4. OPERATING INSTRUCTIONS...................................7
4.1 Preparation..............................................7
4.2 Operation for Measurement.................................7
4.3 Accessories .............................................9
5. CAUTIONS .................................................10
5.1 Cautions for Operation....................................10
5.2 Cautions for Maintenance .................................10
5.3 Calibration .............................................10
5.3.1 General Check.....................................10
5.3.2 Check on Operation.................................10
5.3.3 Calibration of Standard Resistor .......................11
5.3.4 Calibration of Measuring Arm Dial ......................11
6. PRINCIPLE OF OPERATION...................................12
6.1 Basic Principles .........................................12
6.2 Error..................................................12
6.2.1 Error due to Current Lead ............................12
6.2.2 Error due to Potential Lead ...........................13
7. CIRCUIT DIAGRAM AND PARTS LIST ...........................15
IM 2769-10E
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1. GENERAL
* with an external STANDARD RESISTOR 2771
The Portable Double Bridge 2769 is quite convenient with low resistance measurement from
1 mΩ to 110 Ω.
This double bridge contains an electronic galvanometer and bridge power supply to
facilitate the operation.
2. SPECIFICATIONS
Measuring Range: 0.100 mΩ to 110.0 Ω
Accuracy:
{ 0.05 Ω × (multiplaying factor) + 0.01 mΩ }
±
at ambient temperature 5 to 35°C, and
the lead resistance between C
terminals and Rx is less than 20 mΩ.
2
Measuring Dial: 1.00 to 11.00 Ω, 0.05 Ω minimum division
Multiply Measuring range
0.0001 *
0.001
0.01
0.1
1
10
0.1Ω mΩ to 1.1 mΩ
1 mΩ to 11 mΩ
0.01 Ω to 0.11 Ω
0.1 Ω to 1.1 Ω
1 Ω to 11 Ω
10 Ω to 110 Ω
Resistance Accuracy Max. current
0.01 Ω
0.1 Ω
1000 Ω
Standard Resistor
1 Ω
10 Ω
100 Ω
±0.1%
±0.1%
±0.1%
±0.1%
±0.1%
±0.1%
Table 2.1 Multiply v.s. Standard Resistor
10 A
3 A
1 A
0.3 A
0.1 A
0.01 A
IM 2769-10E
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Electronic Galvanometer
G
(input resistance: approx. 11 kΩ)
G
G
)
GA, OFF and B check
Voltage sensitivity: approx. 20 μV/div.
Input resistance: approx. 11 kΩ
Sensitivity dial:
Power source: 9 V (dry cell Type 006P)
Battery life: approx. 300 h
Bridge Power Source
Voltage: 1.5 V
(dry cell UM-1 or SUM-1, two cell are parallel connected.)
Max. current supply: approx. 1 to 2 A
Battery life: more than 1200 measurement
(50% duty cycle, 15 sec maximum on-time)
0
1
11
1
110
G
G
1
2
=
=
0
(input resistance: approx.11 kΩ)
(input resistance: approx.11 kΩ
0
Operating Temperature and Humidity Range:
5 to 35°C, Less than 85%
Dimensions: Approx. 182 × 226 × 118 mm (excluding handle and rubber feet.)
Approx. 196 × 226 × 130 mm (including handle and rubber feet.)
Weight: Approx. 2.6 kg (5.7lbs)
Accessories: Plug (A1025WX)
User’s Manual
Carrying case (B9350AW)
Optional accessories: Standard Resistor 277100
(0.01 Ω ±0.1%, with three leadwires)
Approx. 30 × 175 × 63 mm
Approx. 0.25 kg
IM 2769-10E
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Page 8
3. COMPONENT NAMES AND FUNCTIONS
[4]
[3]
[7]
[6]
[2]
[1]
[5] Zero Adjustor
Front Panel
Rx
1S
P
2
2
1
C1P
0.01 0.1 0.3 1 3
×10
(EXT BA)
BA ON
OFF
Rx
MAX CURRENT (A)
×1 ×0.1 ×0.01 ×0.001
MULTIPLY
10
20
A
GALVANOMETER
(INT BA)
A
GA
C
P
0
10
B
G
CH
GA
OFF
5.5
5.0
20
4.5
2
1
G
0
G
[9][8]
[10]
2S
EXT BA
P
2S
C
8.0
8.5
9.0
7.5
7.0
6.5
6.0
9.5
10.0
10.5
11.0
Ω
4.0
3.5
3.0
1.0
2.5
1.5
2.0
Fig. 3.1 Front Panel
[1] Measuring Dial
This dial is used to adjust the measuring arm.
[2] Multiplying Factor Switching Plug
The multiplying factor is selected by this plug.
[3] Battery Switch
This switch turns on/off the power to the bridge.
[4] Galvanometer Button Switch
The galvanometer is connected to the bridge by depressing this switch.
This switch is locked by turning it clockwise or counterclockwise while keeping it depressed.
IM 2769-10E
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[5] Galvanometer Sensitivity Dial
The galvanometer sensitivity is selected by this dial;
G0 gives the highest sensitivity, G1 is medium, and G2 is lower than G1.
With this switch, the galvanometer driving battery can be checked through observing the meter.
When the pointer is deflected to the blue zone, this shows that the battery is good.
Also, this switch turns on/off the galvanometer driving battery.
[6] INT. BA Terminals
When the self-contained battery is used to supply power to the bridge,
these terminals are short-circuited by the short-bar.
[7] EXT. BA Terminals
When an external power supply is used, these terminals are short-circuited by the short-bar.
[8] Rx Terminals
An unknown resistance is connected to these terminals.
The Rx terminals consist of current terminals C1, C2 and potential terminals P1 and P2.
[9] P2S Terminal
This is one of the potential terminals to which the Standard Resistor 2771 is connected.
[10] EXT. BA Terminals
An external battery is connected across these terminals.
The minus (-) side of the terminals is one of the current terminals to
which the External Standard Resistor is connected.
IM 2769-10E
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Battery Replacement
The self-contained batteries are located in the bottom of the instrument case.
To open the battery cover, push the clamping plate thoroughly in the arrow direction,
and raise the foot of the cover.
While, to close the cover, push the clamping plate in the arrow direction, fit the edge A-A’ with
the groove of the instrument body, and depress the cover.
The stopper will lock the cover in its place.
Since two batteries are used in parallel connection, replace them with two new ones at a time.
Note that use of old battery in combination with new one will result in short battery life.
Fig. 3.2 Removal of the Battery Cover
A A’
Fig. 3.3 Location of Batteries
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IM 2769-10E
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Connection for External Battery
Ammeter
Slide Resistor
Rx
When an external battery is used, change the short-bar position
INT. BA
terminals to EXT. BA terminals.
Regulate the current by connecting a slide resistor in series to the external battery so as not to allow
current flow in the instrument exceeding the value indicated above the "MULTIPLY" jack and
external standard resistor.
Battery
1S
P
2S
EXT BA
1
C1P
Rx
MAX CURRENT (A)
0.01 0.1 0.3 1 3
×10
×1 ×0.1 ×0.01 ×0.001
MULTIPLY
A
(INT BA)
A
(EXT BA)
BA ON
GA
GA
OFF
OFF
2
2
G
CH
P
C2P
2S
C
Ω
1
G
0
G
Fig. 3.4 (a) Connection for External Battery
C1P
1
Rx
C
P
2
2
Fig. 3.4 (b) Connection for Rx terminal
IM 2769-10E
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4. OPERATING INSTRUCTIONS
4.1 Preparation
(1) Make sure that the INT. BA as well as P2S terminals are shorted securely.
Place the BA switch to OFF position, open the Rx terminals.
(2) Set the GA sensitivity dial to CH position.
By doing this, check that the galvanometer driving battery is good.
When the pointer of the galvanometer deflects to the blue zone on the scale,
this shows that the battery is good.
Note: It takes 1 to 2 seconds for stabilized indication.
(3) Set the GA sensitivity dial to G2, and check that the galvanometer indication is in the zero position.
If deviated, turn carefully the zero adjusting screw of the galvanometer to obtain a true zero point.
(4) Connect an unknown resistance to the Rx terminal.
(Refer to Fig. 3.4 (b) Connection for Rx terminal.)
4.2 Operation for Measurement
(1) Select a multiplying factor by using the plug, to fit the approximating value of the unknown resistance,
according to Table 4.1.
Rx MULTIPLY
0.1
1.1 mΩ
to
1
11 mΩ
to
10 to 110 mΩ
0.1
1.1 Ω
to
1
11 Ω
to
10
110 Ω
to
When using 2771
*
*
0.0001
0.001
0.01
0.1
1
10
Table 4.1
(2) Turn the BA switch ON.
(3) Set the measuring dial to a position near the center, push the GA button switch momentarily,
and observe the galvanometer.
If the deflection is on the plus (+) side, increase the dial value to obtain zero indication by
repeating the above operation.
When the indication comes near the zero position, push and turn the GA button switch
either clockwise or counterclockwise, to lock the switch.
Then, move the measuring dial to obtain zero indication on the galvanometer.
If the indication is on the minus (-) side in the beginning of this adjustment, reduce the dial value and
obtain zero indication in the same manner as above.
If more sensitivity is required, select G
position first, and G0.
1
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IM 2769-10E
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(4) When the galvanometer indication comes to zero through adjustment of the measuring dial,
Rx =
Indication on
the measuring dial
Multiplying
factor
]
GA
OFF
Rx =
Dial
indication
Value of external
standard resistor
]
1
100
Portable Double Bridge
Rx
the resistance value of Rx is calculated from the following equation.
× [Ω
(5) When measurement is finished, first release the GA button switch.
Then, turn off the BA switch and set GA sensitivity dial to
position.
(6) When it is desired to measure the resistance below 1 mΩ to 0.1 mΩ,
connect the 2771 standard resistor to the instrument as shown in Fig. 4.1.
In this case, the plug should be removed.
The unknown resistance Rx is calculated from the following equation.
× [Ω
2
C
1S
P
2S
EXT BA
2
1
C1P
Rx
MAX CURRENT (A)
0.01 0.1 0.3 1 3
×10
×1 ×0.1 ×0.01 ×0.001
MULTIPLY
P
C2P
2S
C
2771
Standard Resistor
0.01 Ω
2769
Fig. 4.1 Connection for External Standard Resistor
IM 2769-10E
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Page 14
4.3 Accessories
Current Cord
(1) Measuring Cord (275300)
The following cords are provided for connection of an unknown resistance:
Current Cord (two) length: 2 m, resistance: approx. 3 mΩ
Potential Cord (two) length: 2 m, resistance: approx. 8 mΩ
Potential Cord
Fig. 4.2 Measuring Cords
(2) Clamping Device (275400)
This clamping device is used for the measurement of a bar resistance of unit length or conductivity.
[length from terminal (P
) to terminal (P2): approx. 500 mm]
1
C1
P1
Fig. 4.3 Clamping Device
(3) Ammeter
When an ammeter is used for monitoring current through Rx,
remove the short-bar INT. BA
(or EXT. BA ) terminals and
the ammeter is connected to these terminals.
For current monitoring, DC Ammeter 2051 (0.3/1/3/10/30 A) is recommended.
P2
C2
IM 2769-10E
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5. CAUTIONS
GA
OFF
5.1 Cautions for Operation
(1) Insert the multiplying factor switching plug securely into the jack.
(2) Be sure that the GA sensitivity switch is first set to G2 position.
Then, proceed to G1, and to G0.
(3) The maximum allowable current of each built-in resistor is indicated on the panel respectively.
Be sure not to exceed this current value. (Refer to Table 2.1 of 2. SPECIFICATIONS.)
(4) Never fail to BA switch to
and GA sensitivity dial to
, when the measurement is completed.
5.2 Cautions for Maintenance
(1) When the instrument is used after a long period of time,
clean carefully the multiplying factor switching plug, dial and
the slide resistor of the measuring dial, with soft clean cloth.
In this case, be careful not to change the contacting pressure of the slider of the slide resistor.
(Avoid using sandpaper or the like when cleaning.)
(2) Remove the self-contain batteries when the instrument is stored for a long period.
(3) The panel and case of this double bridge are made of ABS resin and
has sufficient mechanical strength.
However, they are low resistive against heat and chemicals.
An organic solvent, such as lacquer thinner, should be strictly avoided
when cleaning the panel or case.
5.3 Calibration
Periodic calibration (once a year) is to be conducted in the following manner.
5.3.1 General Check
(1) Check the dials, name plate, terminals, plug, switches, etc., and
see if there are loose connections or defects.
(2) Check if the self-contained battery is exhausted.
5.3.2 Check on Operation
Measure the value of a standard resistor (100 Ω, 10 Ω, ....., 0.001 Ω), and check that
the measured result is within allowable error of 0.5% at 1.0 and 10 on the dial scale.
For this check, use of the 2792A or 2792 Series standard resistor is recommended.
(2792 Series have been discontinued.)
IM 2769-10E
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5.3.3 Calibration of Standard Resistor
measuring arm dial
standard resistor 1000 Ω
Resistance value of
Current
2S
(R1 to R
and 2771 standard resistor)
5,
Based on a four-terminal resistor comprising a pair of current terminals C
and a pair of potential terminals P2S and P1S (same as C2) as shown in Fig. 5.1,
measure R1 to R5 by the double bridge at an accuracy of higher than 0.1%.
Through this operation, obtain the calibrated resistance values of R1 to R5.
Then, calibrate the 2771 standard resistor in the same way.
In this case, the current value should be 1/3 the value indicated on the "MULTIPLY" jacks.
For this calibration, use of the
2752
precision double bridge is recommended.
5.3.4 Calibration of Measuring Arm Dial
Connect a calibrated resistor 1000 Ω as an external resistor and then
connect a variable standard resistor (10 Ω to 110 Ω) whose accuracy is 0.1% or better,
to the Rx arm in the ×10 range, and measure its resistance.
The calibrated value is obtained as follows:
100 ×
Calibrated value of
=
variable standard resistor
Resistance value of
and C2S,
2
leads
Potential
leads
C
2
P
1S
Plug
R1 to R
P
2S
5
C
Fig. 5.1 Calibration of Built-in Standard Resistors
IM 2769-10E
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6. PRINCIPLE OF OPERATION
(6.1)
N
M
N
M
n
m
m ×
(6.2)
N = n and M = m
Therefore,
From equation (6.1),
M
E
N
M
n
For example,
m
m + n
6.1 Basic Principles
Fig. 6.1 shows the theoretical diagram of the double bridge circuit.
When the resistances N and n are adjusted so that the current flowing in
the galvanometer G is reduced to zero, the unknown resistance X is expressed
by equation (6.1) as follows:
X = × S + ×
m + n +
–
Where is the lead resistance from the terminal Ps of S to the terminal Px of X.
The 2769 double bridge is designed so that the fixed resistors and
slide resistors have the following relationship:
n
N
– = 0
m
M
N
X = × S
In other words, the low resistance X can be accurately measured without influenced by
the lead resistance.
G
N
n m
M
6.2 Error
6.2.1 Error due to Current Lead
Practically,
Then, the second term of equation 6.1 is ±1 × 10-5 Ω.
If S = 0.1 Ω, the resistance value is X = 10-2 Ω ± 1 × 10-5 Ω according to equation (6.1).
This means that the error is ± 1% of the dial reading.
IM 2769-10E
Px
C
2
PsX S
Fig. 6.1 Theoretical Circuit Diagram
–
is not perfectly zero, but is approximately ±(10
m
m + n ,
0.99 ,
― 12 ―
= 10 mΩ
-3
to 10-4).
Page 18
When the value of S is small, namely, X is small, and if the value of /S is large,
N
M
n
m
(6.4)
(N + N)
N
N
M
on condition that,
M
N
M
M
N
N
(6.5)
(6.6)
From equation (6.4),
The value of should be 1.005. Therefore,
N = 0.005N
N = 110 mΩ
a large error will cause no matter how small the value of
In case of low resistance measurement, the lead resistance between
Ps and C2 is designed to be nearly zero.
Therefore, the lead resistance from C
In this view, when this double bridge is used in the × 0.0001 range,
arrange" " to be less than 10 mΩ.
6.2.2 Error due to Potential Lead
When the potential lead resistance is large and cannot be neglected, the lead connected across
the potential terminals P1 and P2 becomes an error of the M and N arms.
While, the individual resistance of M and N arms are not directly related to this error but
the ratio N/M has relation to the error.
Therefore, when the lead resistance is present on the N arm,
the influence of this can be cancelled by adding a lead resistance to the M arm.
This is expressed by the following equation.
X = × S = × S (1 + )
(M + M)
M
N
1,
–
to Rx may be considered as .
2
–
M
N
1
M
may be.
In Model 2796 double bridge, a resistance to act as can be connected to the terminals P2S.
The error becomes minimum when
is equal to
based on equation (6.4).
Then, find the value of for the measurement where the error due to
the potential lead is 0.5% of the measured value without connecting a resistance
corresponding to .
N + N
X = × S = × S (1 + )
M
(1 + )
N
N
N
M
N
N
Model 2769 bridge is designed so that the N = 21 Ω
when the measuring dial scale is minimum (1.0).
Substituting N = 21 Ω for equation (6.6),
IM 2769-10E
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Page 19
Also, the allowable error of is changed according to the ratio of N/M.
Dial Scale
Lead Resistance
at Potential
Terminal
This relationship is expressed by the graph as shown in Fig. 6.2.
For the m and n arms, there are provided no terminals such as corresponding to P2S.
The influence of the lead resistance and upon the m and n arms can be neglected
if the value of
is determined sufficiently smaller than that of S.
1.0
N
(Ω)
0.5
0.1
0
234 5
1
0.5% error
6 7 8 9 10
Fig. 6.2 Error due to Potential Lead
11
IM 2769-10E
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7. CIRCUIT DIAGRAM AND PARTS LIST
C
C
(0.01 Ω)
+
2
1S
P
2S
P
2S
Rx
EXT.
BA
18 Ω
BA
2
R104
1 MΩ
2S
R5
S
1897 Ω
1897 Ω
3
R105
R9
R8
2S
C
1
1
P
C
2
P
C
R7
13.24 Ω 120 Ω
1S
2
P
×0.1×0.01×0.001
R1
0.1 Ω
R2 R3 R4
1 Ω 10 Ω 100 Ω 1000 Ω
R13
R11
390 Ω
P
×10×1
RV2
R10
1
RV1
R12
390 Ω
M
GA
S
R6
13.24 Ω
(INT.BA) (EXT.BA)
A
A
S
2
BA
R101
1
10 kΩ
R102
1 kΩ
R103
100 Ω
G
G
G
CH
GA
+
R14
0.3 Ω
0
1
1
AMP
H
L
OFF
120 Ω
+
BA
M
+
― 15 ―
IM 2769-10E
Page 21
Printed in Japan
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