Pc200-7 Main Pump Test Method
Short Description
KOMATSU excavator dash 7 main pump...
Description
SEBH801100 1/26
PPM REBUILT UNIT MANUAL II TESTING METHOD
Category Type of the Pump
Testing method for pumps HPV95+95 (112+112 cc/rev specification)
Stamping Sta mping on the nameplate
DZJ
Part No. of the Pump Machine model installing these motors Serial No. of the machines installing these motors Applications
708-2L-00300 PC200/200LC-7
PC210/210LC-7
GALEO
GALEO
#200001~
#400001~ Main pump 2004/5/20
Issuance history
Remarks
SEBH SE BH80 8011 1100 00 2/ 2/26 26
INTRODUCTION • This document is organized into the following parts
1.
Test Method ···························································· Pages 3 - 11
2.
Test Hydraulic Circuit Diagram ············ ························ ························ ············ Page 12
3.
Performance Diagram and Standard Value Table ········ ·········· ·· Pages 13 - 23
4.
Names of Sections and Related Dimension ················· Page 24 - 26
5.
Schematic Diagram of Test Jig (Reference) ······ ············ ············ ······ No indication
• This document mainly provides the test method using the KHT75-3 hydraulic test stand or equivalent. • Applicable bench 1) Converted value test: Use the Komatsu general-purpose hydraulic test stand (KHT75-3) or its equivalent. 2) Standard value test: Hydraulic test stand having the same performance as the production plant hydraulic test stand.
Use Komatsu genuine genuine engine oil E010-CD or equivalent. Discoloration of oil during during test is managed managed for Class NAS10.
• Scope This document is adopted for quality verification testing of the remanufactured main pump, pump, HPV95 + 95 (1 (112 12 + 112 cc/rev specifications), which is installed on PC200/210 series-7.
2
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1. Test Method 1-1) Since high pressure is produced during this HST pump test, great care should be taken when selecting the equipment, device, test jigs and components. Also, great attention should be given to the pump installation condition, the hydraulic circuit configuration, and the universal joint connection. 1-2) Test Specifications See the following Table 1-1. Table 1-1 List of Test Specifications Pump type Specifications Piston pump capacity
HPV95+95 Standard
Conversion
13~112
←
(cc/rev) 150mAp-p
EPC current dither
←
40Hz Direction of rotation
Right hand
←
1950
1500
Maximum hydraulic pressure of pump
37.3
34.3
(MPa{kg/cm2})
{380}
{350}
(input shaft) Maximum revolution of input shaft (rpm)
Pump suction pressure
0.98 ± 0.05
(MPa{kg/cm2}) Pump drain pressure
0.98 or less 2
(MPa{kg/cm }) EPC valve original pressure 2
(MPa{kg/cm }) Maximum flow (L/min)
←
{1.0 ± 0.5} ←
{1.0} 3.1
←
{32} 220 (23)
168 {19}
3
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1-3) Test Items 1) For test items and contents, see Table 1-2 below. For converted value test, conduct tests as limited by the capacity of the KHT75-3 hydraulic test stand.
The converted value test determines pass or fail after converting the results of measurements into
standard values. The test standard values to be adopted are:
• Standard value test: Standard of performance standard value table • Converted value test: Conversion of performance standard value table Table 1-2 Test Item Test Items
Test Method
Legend: Conduct • ∆ Conduct, if possible. • Performance check
Don’t test
n i - Flow check PQT control characteristics LS control characteristics g n n s i i e m 293 19.6 34.3 m e d e e e 6.9{70} n u u c o d d d n 9.8{100} {200} {200} o {350} m o o m i u m n i e r 3 x m R m m e n Fi n e control STD f w i f a ← ← ← i o H S L mode mode M M D l f
Standard Conversion
×
*
*
×
×
×
×
×
y r t i o l e a c m n r e o s n e r b a p f r o o f e k c c n e e s h b C a
Carry out the converted value test marked with an asterisk (*) to the extent that hydraulic setting is allowed.
1-4) Test Basic Hydraulic Circuit Diagram • See Appendix Figure 1 in “Section 3 Test Hydraulic Circuit Diagram”.
1-5) Functions and Conditions of Sample Sections • See Appendix Table 1 in “Section 4 Names of Sections and Related Dimensions.”
1-6) Test Equipment, Device, and Jig 1) Equipment to be used: Have the equipment listed in Table 1-3 ready. Table1-3 Pressure Gauge and Device
For information as to how to install pressure gauges, see Test Hydraulic Circuit Diagram.
Part Number
Part Name
Quantity
799-101-5120
Gauge
4
799-101-5130
Gauge
2
799-101-5140
Gauge
2
–
Gauge
1
(or Manufacturer’s Type)
Differential 799-401-2700 799-401-2810 799-552-3050 799-552-3930
pressure gauge Transformer unit
1 1
Controller module 2set
Specifications
Measuring Points and Application
0~39.2MPa
Pump discharge port (P1f, P1r)
{400kg/cm2)
LS input port (PLS)
0~5.9MPa 2
EPC original pressure sensing port
{60kg/cm )
(CEPC)
0~2.5MPa
PC mode switching pressure sensing port (CPC)
{25kg/cm2)
LS mode switching pressure sensing port (CLS)
0~0.4MPa {4kg/cm2) 0~49MPa {500kg/cm2)
Pump suction (PS) section Between pump discharge port (PP1) and LS input port (PLS)
Power supply: 100VAC Power supply for differential pressure input, 12VDC output gauge Dither signal generator Adjusts the following dither signal. Dither signal adjuster 40Hz · 150mAp-p 4
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Table 4 List of Devices (Continuation) Part Number
Part Name
(or Manufacturer’s Type) *FSC-750 *DRM-100
Quantity
Flowmeter
1
Flow display
1
Working pressure:
For measuring LS drain (Q3)
34.3MPa{350kg/cm2} 0~100L/min
Stop valve (S1)
1
Working pressure:
For generating differential pressure at LS
34.3MPa{350kg/cm2} (S1)
(PT 3/8 thread)
or more
Made by Hirose
Maximum flow:
Valve Industry
30(L/min) or more 2
Relief valve
–
Measuring Points and Application
Measuring flow:
Made by Flowtec *GNT-3
Specifications
Set pressure:
For safety valve 2
34.3MPa{350kg/cm } or more Maximum flow: 160(L/min) or more
For information as to how to install the above devices, see Hydraulic Circuit Diagram (Appendix Figure 1).
The connector for the controller must be changed to a German type connector.
Any device with an asterisk (*) is not included in the supplies; their manufacturer’s names are enclosed in parenthesis. (Part number registration not set) You can choose a product of any manufacturer that satisfies the specifications.
2) Jigs and components to be used: Have jigs and components listed in Table 1-4 ready. Table 1-4 Test Jigs No.
Part Number
Part Name
Quantity
1
799-404-2980
Plate
1
For installing pump
2
799-404-2970
Coupling
1
For connecting input shaft
3
799-404-2910
Adapter
1
1.6 mm diameter fixed throttle valve
Specifications and Application
The jigs are the same as those used for testing HPV95 + 95 pumps. Piston pump discharge port (P1) must be provided with a port for introducing LS pressure, the one for introducing pump pressure, the one for removing the differential pressure gauge, and the one installing the safety valve.
3) In addition to those listed in Table 1-4, have components such as an adapter and hose ready, which are required for configuring a test hydraulic circuit.
For information on manufacturing of jigs and components, see “Section 4 Names of Sections and Related Dimensions.”
4) Have a penetrant testing agent (e.g. developer such as color check) ready.
5
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1-7) Preparatory Steps for Test
7-1 Installation Condition of Pump
Perform the following steps prior to this test. 1) Installing hydraulic test stand (see Fig. 7-1) Install the test stand so that the sample bleeder (PDa) turns up. • Fig . 7-1 P1f : Pump discharge port on the F side P 1r: Pump discharge port on the R side PDr: Air bleeder (used for air bleeding) PD1f: Pump case drain port on the F side 2) Installing universal joint
Fig.7-2 Pump Hydraulic Circuit Diagram
Since the universal joint rotates rapidly, install it in a level position when connecting, and take action not to cause run-out. Protect the coupling from becoming detached from the shaft. 3) Configuring test hydraulic circuit (see Appendix Figure 1) i) Configure as per test hydraulic circuit diagram in the Appendix Figure 1.
For the main pump hydraulic circuit diagram,
Fig.7-3 R Pump Drain Hydraulic Circuit Diagram
see Fig. 7-2. ii) Set up circuits for bleeding air and force-feed lubrication on the rear pump. (See Fig. 7-3.)
Use drain port (PD2r) for air bleeding of the rear pump. (See Fig. 7-3.) • Set the drain discharge port higher than the pump discharge port (P1r), because the drain port tends to point downward. • Drain pressure: 0.98/ MPa{1kg/cm 2} or less
Use the plug (PT) for forced-feed lubrication of the rear pump. (See Fig. 7-4.)
Fig. 7-4 Locations of R Pump Case Drain Plugs
• Flow of forced-feed lubrication:40(L/min) or less iii) Install pressure gauges on hydraulic detection ports.
For specifications of the pressure gauge to be installed, see Appendix Figure 1.
For details of port and adjustment sections, see Appendix Table 1.
6
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4) Filling the pump case with oil Pour oil into the pump case (PS port), bleed the air (P Da, P D1f, and P D2r ports), and fill the pump case with oil.
Be sure to perform this to prevent the possibility of damage inside the pump.
Be sure to release air from the rear pump.
Specified torque for air bleeder: 7.8~9.8 Nm(0.8~1 kgm) PT port plug specified torque:
58.8~78.4 Nm (6~8kgm) 5) Cleaning pump assembly
Fig. 8-1 Maximum Flow Adjustment Section
Clean the pump assembly to check for oil leakage and apply penetrant testing agent to each of valve, plug and input shaft oil seal. 1-8) Verification Test and Adjustment Methods
Prior to conducting a test, check connections of piping (PA and PB ports), hose and adapters.
For more information on conditions and standard values during testing, see the “Performance Standard Value Table” in Section 3.
1) Running-in
Fig. 8-2 Detail of Maximum Flow Adjustment Section
Check for abnormality (pressure, vibration, sound, etc) and oil leakage while the pump is running. 2) How to check and adjust maximum and minimum pump flow (1) Check piston pumps P 1f and P 1r delivery for the maximum and minimum flow under the predetermined conditions. DFor the measurement of minimum flow, add
the amount of drain at LS pressure port (amount of oil flowing when the stop valve S1 is open = Q3). • Q T = Q1 + Q3 (L/min) (2) How to adjust pump flow
Before making adjustments, place alignment mark.
i) Adjust the maximum flow using the adjustment screw (Ma). (See Fig. 8-1.)
The maximum flow adjustment section has been mounted to reference dimensions when the pump was assembled (see Fig. 8-2). [Reference] L2 = 12.6 ± 0.1 mm 7
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ii) Adjust the minimum flow using the adjustment
Fig.8-3 Minimum Flow Adjustment Section
screw (Mb). (See Fig. 8-3.)
Since the minimum flow adjustment section has been mounted with the pre-adjusted PC valve assembly, be sure to check the performance of PC valve assembly (PQT performance) after you make adjustments (see Fig. 8-4). [Reference] L1 = 19.1 ± 0.1 mm
• Fig . 8-1 ~ 8.4 Ma
: Maximum flow adjustment screw
Mb
: Minimum flow adjustment screw
MPC : PC valve adjustment screw 1
: Cover
A
: Locknut
Fig. 8-4 Detail of Minimum Flow Adjustment Section
(3) How to adjust maximum and minimum flow (see Fig. 8-5) Symbol enclosed in parenthesis indicates the
method of adjusting the minimum flow.
Prior to adjustment, measure the length between the alignment mark and the screw head, L3 and L4.
i) Loosen the locknut A. ii) Adjust the screw Ma (Mb).
Fig. 8-5 Details of Maximum and Minimum Flow Adjustment Sections
iii) After adjustment, temporarily tighten locknut A and measure the flow. iv) When the measured value is within the standard value, fully tighten locknut A. (See Table 8-1.)
Locknut A: 568 ~ 676 Nm (58 ~ 69 kgm)
• Fig . 7-5, 7-6 Ma
: Maximum flow adjustment screw
Mb
: Minimum flow adjustment screw
MPC : PC valve adjustment screw PC : PC valve assembly 1
: Cover
Table 8-1 Procedure for Adjusting Maximum and
2
: Cover
Minimum Flow
A
: Locknut
Phenomenon Large standard Locations of adjustment flow Maximum flow adjustment screw (Ma) Minimum flow adjustment screw (Mb)
Small standard flow
Turn cw
Turn ccw
Turn ccw
Turn cw
8
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3) How to test and adjust PQT control characteristics (1) Testing PQT control characteristics (see Fig. 7-6)
Fig. 8-6 P-Q-T Characteristics Chart and Difference in Flow (∆Q) Check
Measure the flow caused by the pressure fluctuation and check that the values plot on PC characterist ics chart (P-Q) and torque characteristics chart (P-T) are within the standard value. i) H mode: E PC current - 350 mA (without P-Q-T chart) ii) S mode: E PC current - 460 mA (with P-Q-T chart) iii) L mode: E PC current - 710 mA (P-Q-T without chart)
For more information on the PQT control characteristics (P-Q-T chart), see “Table of Performance Standard Values and Fig.1” in Section 3. Measure PQT control characteristics at both
pressure rise and pressure drop and, then, adopt the value at pressure rise.
Close stop valve S1.
(2) Checking difference in flow of pump discharge amounts
Use three modes.
Check that the difference in flow (∆Q) between P 1f pump delivery (Q f) and P 1r pump delivery (Qr) under the same conditions is below the predetermined value. (See Fig. 8-6.) Be sure to make this check to prevent travel
deviation when installed on an actual machine. Check this when testing PQT control chara-
cteristics.
Predetermined pressure: P A1 = P A2 (same pressure)
∆Q
= Less than 7.3 L/min: When making standard value test
• Both Q 1f > Q 1r and Q 1f < Q 1r are acceptable.
9
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(3) How to adjust PC control characteristics 1)
For locations of adjustment sections, see Fig. 8-7. Prior to adjustment, measure the length be-tween the alignment mark and the screw head, L5.
• Fig. 8-7 MPC: PC valve adjustment screw Mb: Minimum flow adjustment screw PC: PC valve assembly B: Locknut 2)
Make adjustments in the following order (see Fig. 8-7).
(i) Loosen lock nut B. (ii) Adjust the PC control characteristics using the adjustment plug (M PC).
q To adjust the PC control characteristics to a value below the standard
→ tighten
the plug (turn cw)
w To adjust the PC control characteristics to a value above the standard
→ loosen
the plug (turn ccw)
(iii) After adjustment, temporarily tighten locknut B and measure the PC control characteristics. (iv) When the measured value is within the standard value, fully tighten locknut B to the specified torque.
Locknut B: 27 ~ 34 Nm {2.8 ~ 3.5 kgm}
4) How to test and adjust LS control characteristics (1) Testing LS control characteristics (see Fig. 8-8) Measure the flow caused by fluctuation in LS differential pressure under a constant control pump
Fig. 8-7 Details of PC Control Section
pressure and check that it is within the LS control characteristics chart.
Use normal mode (A) and fine control mode ( B).
• Control pressure (pump pressure) * i)
6.9 MPa{ 70{kg/cm2}): without LS chart
* ii) 9.8 MPa{100 kg/cm2}): (without LS chart) iii) 19.6 MPa{200kg/cm2}): (with LS chart) iv) 29.4 MPa{300kg/cm 2}): (without LS chart) v) 34.3 MPa{350kg/cm2}): (without LS chart)
For more information on the LS control characteristics (LS), see “Performance Standard Value
Fig. 8-8 Details of LS Characteristics Chart
Table - Fig.2” in Section 3.
The same standard value is applied to control pressure of 6.9 MPa (70 kg/cm 2) and 9.8 MPa (100 kg/cm2).
Adopt the value when LS differential pressure is reduced.
For the overall pump capacity (QT), add the amount of drain at LS pressure port (amount of oil flowing when stop valve S1 is open = Q3). • Q T = Q1 + Q3 (L/min)
Be sure to slowly open and close stop valve S1. 10
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(2) How to adjust LS control characteristics (see Figs.
Fig. 8-9 LS Adjustment Section
8-9 and 8-10) Make adjustments in the following order.
Prior to adjustment, measure the length, L6. (See Fig. 8-10.) • Figs. 8-9 and 8-10 MLSf: LS adjustment plug on the front pump MLSr: LS adjustment plug on the rear pump C: Locknut i) Loosen locknut C. ii) Adjust the LS control characteristics using the
Fig. 8-10 Details of LS Adjustment Section
adjustment screw (M LS). (See Table 8-2.)
q To adjust the LS control characteristics to a pressure lower than the standard, tighten the screw (turn cw)
w To adjust the LS control characteristics to a pressure higher than the standard, loosen the screw (turn ccw). iii) After adjustment, temporarily tighten locknut C and measure the control characteristics. iv) When the measured value is within the standard value, fully tighten locknut C to the specified torque.
Locknut C: 49 ~ 68.6 Nm(5 ~ 7 kgm)
5) Checking for Abnormality Check the following items for abnormality during the test and after the test and determine pass/fail results. (1) Oil leakage from the following sections i) Input shaft oil seal ii) Valve connections iii) Plug connections iv) End cap connections (2) Abnormal sound, vibration, or temperature (3) Other abnormalities 6) POST-TEST TASKS To remove the sample and restore to the original state, keep the following in mind. 1) Drain the residual oil out of the sample and check the oil for a foreign substance. 2) Remove all the jigs installed for testing. 3) Seal off all ports with nylon plugs or the like to prevent the ingress of dirt and dust. 4) Record the test results on appropriate report forms. (Retention period: 3 years) 11
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Appendix Figure 1: Pump Test Basic Circuit Diagram . ) 2 m c / g k 4 ( a P M 4 . 0 = K 4 d n a , ) 2 m c / g k 5 2 ( a P M 5 . 2 = K 5 2 , ) 2 m . c p / g m k u 0 p . 6 ) t ( s f a a n h o s P i t t M a u 9 c p . i f i 5 i c n s = e t i p s m K 0 v o 6 e , r r f ) / c d 2 c e m c 2 w / g e 1 1 i v k 0 + s 0 2 a 4 ( 1 e a 1 s P ( i w 5 k 9 c M . + l o 2 5 c 9 3 9 i s D p = K P 0 H m 0 f u o p 4 e : s g l n w p i t o s m l l e a o t s f e e s h t h t a s f e r w o a o n s h o n s i t i o a t m t a o a r n r f g g o i s a i e d n d o t i i t e u c g c e r i r u i c d a s e g i e h h h T T T : : : 1 2 3 e t e e t o o t o N N N
s s t m s t e e I t t l l s e A T
12
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3. Performance Standard Value Table 1) This document contains the Table 3-1) Standard Value Table. 2) When conducting a test, select the applicable model from the following table. 3) PC200-7, PC200LC-7, PC210-7, and PC210LC-7 Common to all models. This
standard value table is common to PC228US-3, too.
Table 3-1) List of Standard Value Tables Chart and Standard
Remarks
Value Table No. Fig. 1
PQT characteristics performance chart (S mode)
Fig. 2
LS characteristics chart (control pressure: 19.6 MPa{200 kg/cm 2})
Table 1
Running-in
Table 2
PQT characteristics (H mode)
Table 3
PQT characteristics (S mode)
Table 4
PQT characteristics (L mode)
Table 5
LS characteristics ([normal and fine control modes] Control pressure: 9.8 MPa{100 kg/cm2})
Table 6
LS characteristics ([normal and fine control modes] Control pressure: 19.6 MPa{200kg/cm2})
Table 7
LS characteristics ([normal and fine control modes] Control pressure: 29.4 MPa{300kg/cm2})
Table 8
LS characteristics ([normal and fine control modes] Control pressure: 34.3 MPa{350kg/cm2})
13
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Fig. 1 Pump Assembly Performance Specification Chart (Standard Value) Model
PC200-7(#200001~)
Test item: PQT characteristics (S mode)
s (application serial number) PC210-7(# 40001~) n Direction of rotation Right-handed rotation o i t i Pump type HPV95+95 d Number of revolu- Standard 1950rpm n tions of input shaft Conversion 1500rpm (Pump capacity) (112+112cc/rev) o c t s t Part number 708-2L-00300 PC mode (Epc) 460mA e e n r T r u Applicable chart Values at pressure rise are applied
LS set (ELS)
C
0 mA
Pump absorption torque
Pump pressures (P1f and P1r)
See chart
EPC original pressure (P EPC) 3.14{32}MPa{kg/cm2} LS differential pressure ( ∆PLS) PC mode selection pressure (Pm) LS set switching pressure (Psig)
0
MPa{kg/cm2}
(0.90{9.2})MPa{kg/cm2} 0
MPa{kg/cm2}
T
r 1 P + 2 f 1 P = 1 P
: p e o g r r d a ) 2 h e c r m s u / i s c d g s k R e r d p 0 2 ) n 2 t ( a a a a m F s P c d s P / f l e g r o M k a M d 6 w r . o 0 n 6 o . . 1 2 a 9 l f n 2 2 t 1 i : n d d s ) i m n n s e / e c L a a i s c i n 3 r n 8 0 . . r e e e r 7 1 2 t e f e 1 1 s f f t ( y e i r ( D a H . . 1 2
e r u s s e r p e g r a h c s i d p m u P
Miscellaneous
Pump delivery 1
QT 14
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Fig. 2 Pump Assembly Performance Specification Chart (Standard Value) Model
PC200-7(#200001~)
Test item: LS characteristics
s (application serial number) PC210-7(# 40001~) n Direction of rotation Right-handed rotation o i t i Pump type HPV95+95 d Number of revolu- Standard 1950rpm n tions of input shaft Conversion 1200rpm (Pump capacity) (112+112cc/rev) o c t s t PC mode (Epc) 310mA Part number 708-2L-00300 e T n e r The values, when the LS differential pressu r A: 0 mA u Applicable chart CLS set (ELS) re is increased, must be within the range. B:1000mA 1. A: Normal mode B: Fine control mode
Pump pressures (P1f and P1r) 19.6{200}MPa{kg/cm2} EPC original pressure (P EPC) 3.14{32}MPa{kg/cm2} LS differential pressure ( ∆PLS)
See chart
PC mode selection pressure (Pm) 0.34{3.5}MPa{kg/cm2} LS set switching pressure ( A :0) (Psig)
MPa{kg/cm 2 }
( B :0.29{3})MPa{kg/cm 2}
2. The difference in the set pressures for pump pressure of 9.8MPa (100kg/cm 2) and 34.3MPa (350kg/cm 2) must be within 0.3 MPa (3 kg/cm2) in terms of LS differential pressure. Miscellaneous 3. Hysterisis standard (reference) At 6.9 and 9.8 MPa (70 and 100 kg/cm 2) : 0.25 MPa (2.5 kg/cm2) or less At 19.6 MPa (200kg/cm2) : 0.29 MPa (3.0kg/cm 2) or less At 29.4 and 34.3 MPa (300 and 350 kg/cm 2) : 0.34 MPa (3.5kg/cm 2) or less
S L P 1 P = S L P ∆
e r u s s e r p l a i t n e r e f f i d S L
Pump delivery 1
QT 15
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Table 1: Performance Standard Value Table (PC200/210-7· [1/8])
k c e h c w o l f p m u P
d a o l o n h t i w w o l f m u m i n i M d a o l o n h t i w w o l f m u m i x a
M e l g n a e t a l p h s a w s t a n i g n i n n u R
← ← ← ←
e r o } } m } 9 9 0 0 5 . . ← 4 { 5 4 { 5 r o 2 5 { 4 . 2
←
} e r e o r o m r m o r 5 o 5 4 . 2 2
} } 0 0 . 0 7 . 0 5 0 ← ← ← 7 5 4 5 4 9 5 1 1 1 1 { 1 1 {
0 ← 1
} 4 } 4 . 0 . 0 0 9 0 ← ← ← 9 3 2 3 2 { {
9 ←
} 4 } 4 . 0 . 0 8 7 ← ← ← 8 2 7 2 2 { 2 {
} 6 } 0 6 . 0 . 0 8 5 0 9 0 9 ← ← ← ← 9 2 1 { 1 2 1 {
n i - 0 g 7 5 ← ← n 9 i 1 n n u 0 0 0 ← R 6 0 5 5 1 1
} } 7 . 0 7 . 0 4 3 ← ← 3 4 1 1 { 1 1 { } } 8 . 0 . 0 0 8 ← ← 9 9 0 1 1 { {
} } 8 . 0 . 0 5 ← ← ← ← ← 8 0 9 1 9 0 1 { { 0 0 4 } 4 } 0 9 4 0 . 0 . 0 0 0 ← ← ← 9 3 { 2 { 2 3 1 1 0 0 0 3 5 9 5 ← ← ← 1 1 0 0 0 2 0 5 0 ← ← ← 1 1
←
←
←
←
←
←
←
←
←
←
←
←
←
—
1 2 2 ~ 6 1 2
0 7 1 ~ 6 — — 6 1
—
←
←
←
s e m i t
←
←
←
←
←
←
←
←
←
←
←
←
←
←
←
←
←
←
←
←
←
—
← ← —
←
← ← —
←
n i ← m — 1
←
← ← —
←
n i ← m — 2
←
← ← —
←
n i ← m — 1
←
n i ← m — 2
←
←
← ← —
← ← —
s e m i t f o r e b m u n d n a n i m
e r u ) s S s L e r P p l 1 a i t P n = e r P e ∆ f f ( i d S L
—
[ ] — —
r o
—
e c n e s e r P
[ ] —
[
— —
[ e c n e s b a
—
—
—
—
—
—
—
—
—
—
—
) ) d n 4 } 4 } ) e 5 2 s i 1 3 . 0 . 3 . 3 0 — o m — ( l { 3 0 ( { ( C 1 n e i n e i 1 . } h t g t g – – h i i n 0 1 ± a W n a ± { W r r } 2 n i a m c P / – m / M g L k { g 1 T P C P m i s – – Q ∆ E P P S P
r S f b 2 C 1 L 1 m M P P P y E E S s d n n t m r i o n t r e a s o i e t t r n n I a d e t a r o e e n v t r e r r u u n o r a o r c l t R F a u t V S C f c a g d n g r h i a d s e d e n t h n e c i g t u i r a t h t f p p a c S w t a s n h i i d l h f s c n w i s e a a s o e s r s n t n d d t o u n i u o o o t p i e s t p i t m i c s a s n d t i e m n o r C S u e r f i o P p C R o D P L
— —
— —
r o
—
— — — — — — — —
e c n e s e r P
e e r h T
d d d a a a 0 0 n h 0 o o 0 l l 1 0 0 t 1 0 3 o o 1 5 h g i N N R e e l b g 0 5 0 . } a 1 n 1 – 0 5 w o a ± ± l { ± ± s A r
m – A p m r
2 2 ~ 7 — — 1
e c n e s b a
r o
←
⇔ ⇔ 0
←
8 2 ~ 3 2
]
e r o m
0 {
1 ← 1
Category
n e ← p ← O
d ) ) e r 4 5 n 0 o d 3 . a 1 } 6 } } . 3 ) e m 0 0 h 3 6 4 0 0 0 2 5 0 t r 0 9 s r 9 0 1 r 0 . . . 9 5 h o o o ( l e { 1 2 { { r 1 2 3 3 1 1 g o o c i C 0 i 0 w 0 ( ( T R
} 3 } 3 . 0 . 0 4 5 ← ← ← 4 5 3 3 3 3 { {
m e i t I t n t s U e T l s o
←
]
e r u s s e r p l a n i g i r o C P E
Test Conditions
— —
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— —
— — — — — — — —
e c n e s b a r o e c n e s e r P
—
— — w o l e B
e c n e s b a r o e c n e s e r P
— — — — — — — —
e c n e s b a r o e c n e s e r P
— w o l e B
— — — — — — — — –
Standard Value
– – – – –
} } m a 2 m g m k c P / p r { M g m k N { g T Q 2 m i s Q ∆ M T P P d n d n t e f e r e r r i r i a u u q u a o a o s s s s r r r h s s d e d e s o e e t r v n v n t n p r a n a n u o g p t o t o p i n g t i S C S C n n i p h i
} m m g N k {
Q T ∆ s s s d i t d i t d n e n r o d r m n m a i a m a i s d l a i l i t r r r r d r e f e e e e n v n p p o e n a w p a t r w p d e t e u o u t o o e S C S o r e r L b L s u m m u d n d r u o p s s i n r n a s r s a C s S o d e t r y e d L e P e v n n n e s n b u ) r a a ) r o t o p r v i a q r l f e p e S C e e o e c g c n d p t m v i i n g l n i t y m n n n i p r e e a e h r h v g u o r p e c n P i t i n m e e t u c c v f e f i t p a i m r p r l r e t e i e o r e e u e f c w w t e p i a f R e n e R ( s R ( s S O P d f D r e
– n i m / L
k c e h c n o i t a r e n e g t a e h
r
y r e v i l e d p m u P
d n a
c t h f o i c , t e s w i o b s w i r y d a s e s o n t e a r e p d o e l e s a m r e p m u m S r v s o i p C n d l l ) P L ) b e a e ) a n d e e , n c c c e a n g o n n t p i e e e a t r k r n m a e r e a e f e t f f o e e e l r u o R l R R F p R ( ( ( i O
)
(
n o i t a n i m r e t e D
Measurement Value 16
SEBH801100 17/26
Table 2: Performance Standard Value Table (PC200/210-7 [2/8]) } 2 ) . 0 5 8 7 1 ← ← ← ← ← ( 3 3 {
←
←
←
←
←
←
} . 0 4 ← ← ← ← ← 3 4 5 1 3 3 {
←
←
←
←
←
←
} 3 3 . 0 1 ← ← ← ← ← 2 3 3 3 {
←
←
←
←
←
←
} 4 . 0 2 0 1 ← ← ← ← ← 9 2 3 {
←
←
←
←
←
←
} 4 . 0 1 7 1 ← ← ← ← ← 2 8 2 {
←
←
←
←
←
←
} 5 . 0 0 1 ← ← ← ← ← 6 7 2 2 {
←
←
←
←
←
←
} 5 . 0 3 9 ← ← ← ← ← 2 2 2 {
←
←
←
←
←
←
} ) 6 . 0 3 / 8 * ← ← ← ← ← 1 2 2 2 1 { (
←
←
←
←
←
←
. w o l f n i e c n e r e f f i d e h t e r u s a e m , ) * ( k s i r e t s a n a h t i w s m e t i t s e t r o F
) 7 e d o m H ( 6 s c i t s 5 i r e t c a r 4 a * h c T Q 3 P
} 6 . 0 0 ← ← ← ← ← 9 1 2 {
←
←
←
←
←
←
} 7 . 0 ← ← ← ← ← 5 6 1 1 {
←
←
←
←
←
←
} 7 . 0 3 ← ← ← ← ← 4 1 1 {
←
←
←
←
←
←
} 8 . 0 ← ← ← ← ← 1 2 1 1 {
←
←
←
←
←
←
} 8 . 0 0 ← ← ← ← ← 9 1 {
←
←
←
←
←
←
} . 0 2 ← ← ← ← ← 9 6 7 {
←
←
←
←
←
←
) ) 5 3 ) ) 8 5 9 } ( ~ — — 7 9 ← ~ 5 5 4 ( { 6 ( 3 5 ( ) ) ) 0 2 ) } 0 5 6 3 . ( — — 2 3 ( ← 1 ~ 6 ~ 6 ( { 1 7 ( 4 6 ) ) 9 7 ) ) 0 6 7 } 1 ( 4 6 ← ( — — 6 ~ 6 ~ ( { 5 ( 4 4 7 ) ) 4 7 ) ) 2 7 7 } 1 7 ( ( ← ~ — — 5 6 ~ 6 5 ( { 2 ( 8 5 ) ) ) 3 2 ) } 3 8 2 5 . 1 ( 7 ← ( ~ — — 6 6 ~ 6 ( 7 { 4 ( 5 9 ) ) 9 6 ) ) 3 } 8 1 ( — — 7 6 8 ← ( ~ 6 ~ 6 1 ( { 2 ( 0 6 1 ) ) 8 4 ) ) 6 0 6 } 1 1 ( ( — — 8 0 ← ~ 7 6 ~ 0 ( { ( 0 3 8 1 ) ) ) 5 8 } 7 0 3 4 ) 5 2 1 . 1 ( . . ( 7 4 8 9 ← ~ 6 ~ 6 7 ( { 4 3 ( 8 1 ) ) 0 7 ) ) 9 1 7 } 1 1 ( ( — — 7 9 ← ~ 6 6 ~ 3 ( { ( 4 5 9 1 ) ) 0 6 ) ) 2 3 7 } 2 1 5 ( ( ← ~ ~ — — 3 6 6 { 1 1 ( ( 8 1 1 1 1 6 ) 2 3 ) } 2 1 4 5 . 7 8 ~ ~ ← 6 0 — — ( 5 5 { 9 2 ( 1 1 1 6 ) 2 3 ) } 5 2 1 3 5 . 4 ~ ~ . . 0 1 ← 8 3 7 4 5 5 ( { 0 2 ( 2 1 1 6 ) ) 2 3 2 1 1 } ~ ~ — — 4 5 ← 0 4 4 9 ( { ( 1 2 2 1 1 6 ) 2 3 ) } 2 1 8 5 . 3 4 ~ ~ ← 2 0 — — 3 3 ( { 1 3 ( 2 1 1 6 2 3 2 1 ~ ~ 6 2 — — — 1 3 2 1 n e n e w i i w h h o o l – t i g i g n t n l e e a a W r W r B B
] ]
e c n e s b a r o e c n e s e r P
— — — — [ [ ] ]
— — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ]
d ) d ) ) d d a a 0 0 n a 4 } 4 } ) e 0 h o o 0 1 2 3 5 5 0 s l . l 1 0 0 0 1 9 2 t . . 3 ( l — — — — — o 3 o { 0 3 3 o 1 1 h { g i ( ( N C N ( [ [ R e e l } } b g 0 5 1 0 . . a 1 – – – – – – – – n 1 – w 0 5 0 1 ± o a ± ± l { { ± ± ± s A r } } } m 2 } m a 2 e i n n t i i a m m t g m k P / I n m m m c P / – A – m m g { M c p p / / t N m U r r M k g g L L { s m k { { e N k T l s o 2 C S f r g 1 g b T T ) P C Q T Q 2 P 1 m i m i L 1 s S – – s m ∆ E P M P Q Q ∆ M T P ∆ P P y E E P P P S s s s d n t e e s d i t d i t d n n d n n t f ( r e r r i r i e n m r i r o d r d o o o t u u r o n t a u m n i m a i e i a a a i q s s s a m s t a a l l s e n n s r r i h r s s I d r t r a e t r r r r d r d d d e e e o e e e a s o r e r t e f e e e e n v t e v n v n v r n n r t n r p p o u n e r F e p a n o u r a n a n l R u a t u o p w p a n t s ) r d o t o p r w p g g a t o r c u i o u o u t o t t o n S t e i e e s i V S C f u S C S C n S C S o c i n p t g L L b r r e h L i s a n r c h e d s t c m r P s m u u f o i r a d n d h i g t r s w i a d u p o o b i s h n p e e r n d n a e s n s S s a r C s t c i i r s s l n r a e w o d g s d y e e e t d t u p P e L e y a r y e p d t r a t p i h s u a 1 l v t n r n r n i p f r r e m e a o n b c e ) S P t a a e e p m m s o i ) p e p q e v t r s a n w t o r h i f l a r n = a d l h i v r l e v s u e S C f s w e n i c i e o e p C S p n c i l e c t L t n d d g g l ) P ) a s o e s m s i a v e r i i r g n i e n e a e ) t m P i y n t n d t n n n l e e s p u n e i e e r d e d c r a d n e c o ∆ f a g o u o o u n i c m i r h r h v i n c f p ( o o D n e P t o t p i n n e i n s i t t p i p e p e e u e t t r r t e r c f c p t v e i m s a n c d a i r p r e e f m l C f d t i i o r m s m n m a t f f e e i e t e r e e o n r e e e e o f e u e f u e u P R i C S r o r c u f a f S w R w t o i p R ( R R ( e e n P p P F p R ( C R o D P L L E ( s ( s S P d e r o m r o
e c i w T
s e m i t f o r e b m u n d n a n i m
k c e h c n o i t a r e n e g
t a e h d n a
, e s i o n l a m r o n b a
O
Category
Test Conditions
, e g a k a e l l i O
D r R e
Standard Value
Measurement Value 17
SEBH801100 18/26
Table 3: Performance Standard Value Table (PC200/210-7 [3/8]) } 2 } 2 ) . 0 . 0 5 8 7 8 7 1 ← ← ← ← ← ( 3 3 { 3 3 {
←
←
←
←
←
} } . 0 3 . 0 4 ← ← ← ← ← 3 5 4 5 4 1 3 3 { 3 3 {
←
←
←
←
←
} 4 } 4 3 . 0 . 0 1 ← ← ← ← ← 1 2 1 2 3 3 3 3 { {
←
←
←
←
←
} 4 } 4 . 0 . 0 2 9 8 9 1 ← ← ← ← ← 8 2 2 2 2 { {
←
←
←
←
←
} 5 } 5 . 0 . 0 1 6 5 1 ← ← ← ← ← 2 6 2 5 2 2 { {
←
←
←
←
←
} } 5 . 0 5 . 0 0 3 2 1 ← ← ← ← ← 2 3 2 2 { 2 2 {
←
←
←
←
←
} 6 } 6 . 0 . 0 9 2 1 2 * ← ← ← ← ← 1 2 2 { 2 2 {
←
←
←
←
←
} } ) 6 . 0 6 . 0 3 8 7 / 8 ← ← ← ← ← 7 8 1 1 2 { 1 1 { (
←
←
←
←
←
} 7 } 7 . 0 . 0 5 4 5 ← ← ← ← ← 4 1 1 1 1 { {
←
←
←
←
←
} 8 } 8 . 0 . 0 1 2 ← ← ← ← ← 1 2 1 1 1 1 { {
←
←
←
←
←
} 8 } 8 . 0 . 0 1 0 ← ← ← ← ← 1 1 0 1 1 { 1 {
←
←
←
←
←
} 8 } 8 . 0 . 0 ← ← ← ← ← 8 9 { 8 9 {
←
←
←
←
←
} 9 } 9 . 0 . 0 ← ← ← ← ← 6 7 6 7 { {
←
←
←
←
←
} 9 } . 0 . 0 2 ← ← ← ← ← 9 4 5 { 4 5 {
←
←
←
←
←
. w o l f n i e c n e r e f f i d e h t e r u s a e m , ) * ( k s i r e t s a n a h t i w s m e t i t s e t r o F
) 7 e d o m S * ( 6 s c i t s 5 i r e t c a r 4 a h c T Q 3 P
d d d a a a 0 0 n h 0 o o 5 0 l l 6 0 1 9 5 t 4 o o 1 1 h g i N N R e e l b g 0 5 0 . } a 5 1 n 1 – w 0 o a ± ± { ± ± r s l A
m e t t I i n t s U e T l s o
m – A p m r
] ]
— — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ]
e r o m r o
e r u ) s S s L e r P p l 1 a i t P n = e r P e ∆ f f i ( d S L
–
Test Conditions
n i m / L
o r e b m u n d n a n i m
— — — — — [ [
g 1 i – – s P S
–
T Q
Standard Value
–
– – – – –
} } m a 2 m g m k P / c p r { M g m k N { g T Q 2 m i s Q ∆ M T P P t e e d n d n f r e r r i r i u u a u a o a o s s r r r s h q d s d s e e o s s e t e n v n v t n r p r n n p a a u t o t o p i o g g t n n S C S C i n p i h i
} m m g N k {
Q T ∆ s s t d i t d n s d i e n r o d r m n i m a i i a s d m a l a l i t r r r r d r e f e e e e n v n p p o e a w p a n r w p o t d e t e o u o u t e S C S o r e r L b L s u m m u d n d r u p o i s s r a s n n a r s C s S o d y e t d L e s e v P e n n r u n n ) r a o e a ) r q v b t o r i p p l a r e e e S C f o e e p t c g c n d g l m i m n i t y n n i n v i e p u n r e o g c m r h a r h e p v P i t n e n i e u e t c f t c p t e v f r p r a i m l r e i e i t e r e o f e f e u e f a c w w p e n R ( s R ( s S O P d i D e r R e
m P
e r u s s e r p l a n i g i r o C P E
s e m i t f
e c n e s b a r o e c n e s e r P
— — — — [ [ ] ]
e c i w T
} 2 a m c P / M g k { P C P ∆ E P
f r S b 2 C 1 L 1 m M P P P y E E S s d n t m r i o n t r o n t e a s i t e n n I d r t r a e a o e r e e n v t r r u a n o u r l R F a t o r c u t V S C f c a g d n g r h i d a s e h d n e t c i n g e f u t r a t h i t p a p w t a c S s n h i d l h i s f c n w a s o e s s e a i r n t n d t s d o u n i u o o i o t p t e s p i t i m s a n c s d t i m e n r o f i C S u e r o P p C R o D P L
Category
) ) d 0 } 4 } ) e 2 2 s 9 . 0 0 1 . . 9 ( l o { 0 3 3 ( { ( C 1 . } – 0 1 { ± ±
) ) ) 4 7 ) } 5 7 5 4 . ~ — — 1 2 ← ( ~ 5 1 5 ( 1 { 3 ( 4 ( ) ) ) 2 3 ) } 8 8 6 8 . ( — — 1 2 ← ( ~ ~ 5 5 ( { 2 0 ( 5 4 ) ) 1 0 ) ) 9 7 0 } 3 ( ( ← ~ 5 ~ — — 2 5 ( { 2 7 ( 6 4 ) ) ) 5 1 ) } 0 5 8 5 1 . ( — — 3 4 ← ( ~ ~ 5 5 3 ( { 6 7 ( 5 ) ) ) 9 2 ) } 1 9 4 5 . 1 ( 5 ← ( ~ — — 4 5 ~ 5 ( 4 { 4 ( 6 8 ) ) ) 3 3 ) } 3 0 1 2 . 1 1 ( — — 4 5 ← ( 5 ~ ~ 5 ( { 3 1 ( 9 7 ) ) 8 7 ) 3 0 3 6 ) 9 } 1 1 ( . . ( 7 5 3 5 ← ~ 5 5 ~ 0 ( { ( 6 0 7 1 ) ) 8 0 ) ) 6 3 9 } 1 1 5 ( ( ← ~ 5 ~ — — 3 5 { 0 0 ( ( 3 0 1 1 ) ) ) 0 6 ) } 9 4 5 5 1 1 . ( — — 0 1 ← ( ~ ~ 5 5 3 7 ( { 5 1 ( 1 1 ) ) 2 3 ) ) 1 6 1 } 2 1 3 6 8 ( ( . . ← ~ ~ 7 5 7 4 4 { 5 4 ( ( 7 3 1 1 ) ) 0 9 ) ) 2 6 1 } 2 1 7 ( ( ← ~ ~ — — 6 4 4 { 2 0 ( ( 8 4 1 1 1 0 ) 2 7 ) } 2 1 7 5 . ~ ~ 9 0 ← 7 1 — — 3 4 ( { 9 5 ( 1 1 1 0 ) ) 2 7 2 1 3 } ~ ~ — — 3 4 ← 1 3 3 8 ( { ( 1 5 2 1 1 0 ) 2 7 ) } 2 1 0 5 . 7 7 ~ ~ ← 3 3 — — 2 2 ( { 1 6 ( 2 1 1 0 2 7 2 1 ~ ~ 6 6 — — — 1 6 2 1 n e n e w i i w h h o o l – t i g i g n t n l e e a a W r W r B B
n i m / L
k c e h c n o i t a r e n e g
t a e h
r
y r e v i l e d p m u P
d n a
c t h f o i c , t s w i e o b s w i r y d a s o e s n a r e p d t o e l e e e s a m r p m m r v o s u i p C S l n L d e l ) P ) b n d a e ) e a , n c e c a c n e g n e a i n t p o e e r k r r n m t a e e f a f e f e l o r u t o e e e i l R ( R O R ( F p R (
)
(
n o i t a n i m r e t e D
Measurement Value 18
SEBH801100 19/26
Table 4: Performance Standard Value Table (PC200/210-7 [4/8]) } 2 } 2 ) . 0 . 0 5 8 7 8 7 ← ← ← 1 ← ← ( 3 3 { 3 3 {
←
←
←
←
←
} 3 } . 0 . 0 4 ← ← ← ← ← 3 5 4 5 4 1 3 3 { 3 3 {
←
←
←
←
←
} } 4 3 . 0 4 . 0 2 1 ← ← ← ← ← 1 2 1 3 3 { 3 3 {
←
←
←
←
←
} 4 } 4 . 0 . 0 2 0 9 0 1 ← ← ← ← ← 9 3 2 3 2 { {
←
←
←
←
←
} 4 } 4 . 0 . 0 1 8 7 8 1 ← ← ← ← ← 7 2 2 2 2 { {
←
←
←
←
←
} 5 } 5 . 0 . 0 0 5 4 5 1 ← ← ← ← ← 4 2 2 2 2 { {
←
←
←
←
←
} 6 } 6 . 0 . 0 9 2 1 * ← ← ← ← ← 2 2 2 1 2 2 { {
←
←
←
←
←
} 6 } ) 6 . 0 . 0 3 8 ← ← ← ← ← 0 1 0 1 / 2 2 { 2 2 3 { (
←
←
←
←
←
} } 6 . 0 6 . 0 8 7 ← ← ← ← ← 7 8 1 1 { 1 1 {
←
←
←
←
←
} 7 } 7 . 0 . 0 6 5 6 ← ← ← ← ← 5 1 1 1 1 { {
←
←
←
←
←
} 8 } 8 . 0 . 0 1 2 ← ← ← ← ← 1 2 1 1 1 1 { {
←
←
←
←
←
} 8 } 8 . 0 . 0 0 1 ← ← ← ← ← 0 1 1 1 1 1 { {
←
←
←
←
←
} 8 } 8 . 0 . 0 ← ← ← ← ← 7 8 { 7 8 {
←
←
←
←
←
} } . 0 9 . 0 2 ← ← ← ← ← 9 5 4 5 4 { {
←
←
←
←
←
. w o l f n i e c n e r e f f i d e h t e r u s a e m , ) * ( k s i r e t s a n a h t i w s m e t i t s e t r o F
) 7 e d o m L ( 6 s c i t s 5 i r * e t c a r 4 a h c T Q 3 P
d
a 0 0 n 0 h 0 1 0 1 5 9 5 t 7 1 1 h g i
e l e b g a n w o a l r A
s m e t t I i n t s U e T l s o
R
0 1 – ±
0 1 ±
m – A p m r
d d a a o o l l o o N N 5 . } 0 5 ± ± {
] ]
— — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [ ] ] [ [ ] ]
— — — — — [ [ ] ] — — — — — [ [ ] ] [ [ ] ]
e r u ) s S s L e r P p l 1 a i t P n = e r P e ∆ f f i ( d S L
–
— — — — — [ [ ] ] — — — — — [ [ ] ] — — — — — [ [
Test Conditions
g 1 i – – s P S
–
T Q
Standard Value
–
– – – – –
} } m a 2 m g m k c / p { P r g m M k N { g T Q 2 m i s Q ∆ M T P P e d n d n t f e r e r r i r i u u a u q a o a o s s s r s h r r s s d e d e s o e e r n v n v r t t p n n n p a o t a o u i t o g g p n t i i n S C S C n p h i r
} m m g N k {
Q T ∆ s s s d i t t d i d n e n r o d r m n i m a i m a i a s d a l i t r l r r r d r e f e e e e n v n o p p e n a o t a r w p w p t d e t e u o u e o o r e r S C S b L L s u m m u d d n u r p s s o n i r n a s a s C s S r o d y e t d L e s e P e v n n n r e b u n ) r a a ) r t p o o r v i a q r l f e p e e e m S C n e p o c g c t v i i d n g l t n i m n n y e p u n a r e g o c r i r h e v n m P i p e n t e h e t u t c f c p i e f v t a p r i m i i r r l e e e r o e f a f e u e f c w w t e p R e n ( s R ( s S O P d i D e r R e
m P
e r u s s e r p l a n i g i r o C P E
m u n d n a n i m
— — —
— — — — — [ [ ] ]
r o
n i m / L
— — —
— — — — — [ [ ] ]
e r o m
s e m i t f o r e b
e c n e s b a r o e c n e s e r P
— — — — [ [ ] ]
e c i w T
} 2 a m c P / M g k { P C P ∆ E P
r S f b 2 C 1 L 1 m M P P P y E E S s d n n t m r i o t r o n t e a s i t n n t e r I a r d e a o e e t r r e v n r u u n o r l a R F a t o r c u t V S C f c a g d n g r h i a d s e d n e t h n c i g e t t u i r a h t f p p a c S w t a s n h d l h i s i f c n a s o e w s e a i s r n t n d t s d o u n i u o o i o t p t e s p i t m s i a n c s d t i m e n r C S o f i u e r o C R o D P L P p
Category
) ) } d 4 8 e 4 } . 2 1 1 0 . 3 . 1 0 s o l { 3 2 ( 2 { C ( 1 . } – 0 1 { ± ±
) ) ) ) 0 1 3 } 4 3 4 5 ← ( — — ~ 3 3 ~ 6 ( { ( 8 ( ) ) ) 9 8 ) } 8 4 3 1 . ( — — 5 5 ← ( ~ ~ 3 ( 3 8 3 { ( 1 1 ) ) ) 7 4 ) } 5 5 4 8 . ( — — 5 6 ← ( ~ ~ 3 ( 3 8 1 { ( 2 2 ) ) 4 0 ) ) 6 5 3 } ( ( 6 7 ← ~ — — 3 ~ 3 6 ( { 7 ( 3 2 ) ) ) 0 4 ) } 5 7 5 8 . ( — — 6 7 ← ( ~ ~ 3 3 ( { 3 3 ( 4 3 ) ) ) 8 0 ) } 3 7 6 6 . ( — — 6 7 ← ( ~ ~ 3 3 ( { 3 8 ( 5 4 ) ) 7 7 ) ) 8 6 3 3 } 6 7 ( ( . . ← ~ ~ 7 5 6 3 3 { ( 4 9 ( 6 4 ) ) ) 2 1 ) } 7 9 7 0 . ( — — 6 6 ← ( ~ ~ 3 ( 3 7 1 { ( 6 5 ) ) 5 1 ) ) 0 8 3 } 1 ( 5 6 ← ( — — 3 ~ 3 ~ ( { 9 ( 7 5 7 ) ) ) 5 9 ) } 1 5 8 8 . ( — — 4 5 ( ← 1 ~ 3 ~ 3 ( { 5 5 ( 6 8 ) ) ) 4 3 } 3 0 3 6 ) 2 6 . 1 1 . . 9 ( 7 5 0 ← ( 2 ~ ~ 3 ( { 8 5 ( 9 7 ) ) 0 8 ) ) 4 0 4 } 1 1 ( 8 9 ( ← ~ — — 2 2 ~ 5 ( { ( 0 0 8 1 ) ) 2 5 ) ) 6 2 5 } 1 1 ( 4 5 ( ← ~ — — 2 2 ~ { 7 ( ( 7 2 9 1 ) ) ) 4 2 ) } 8 4 2 5 1 1 . ( ( 6 ← ~ ~ — — 6 1 1 8 3 ( { 4 1 ( 1 1 1 0 2 7 2 1 ~ ~ 5 2 — — — 8 4 1 1 n e i n e w i w h o o l l t g t g – h i i n n e e a a W r W r B B
n i m / L
k c e h c n o i t a r e n e g t a e h d n a
y r e v i l e d p m u P
c t h f o i c , t e s w i o b s w i r y d a s e s o n a r e p d t l e m o e a e m r e p u m s r v o p C S l s n L b d i l ) P ) a e a e ) n d e e , c n a c c n o e n n e g t p i a e k t e r r r n m a e e e a e t f f f o e e e l r u o R l R R F p R ( ( ( i O
)
(
n o i t a n i m r e t e D
Measurement Value 19
SEBH801100 20/26
Table 5: Performance Standard Value Table (PC200/210-7 [5/8]) ]
7 ← ← ← ← ←
←
8 } . 0 ← 9 { 0 1
6 ← ← ← ← ←
←
8 } . 9 ← 8 0 {
←
←
←
← ← ←
←
8 } . 8 ← 7 0 {
←
←
←
← ← ←
←
9 } . 7 ← 6 0 {
←
←
←
← ← ←
←
9 } . 6 ← 5 0 {
←
←
←
←
←
e 5 ← ← d o m 4 ← ← l o r t n 3 ← ← o c e 2 ← ← n i F 0 0 : 1 5 0 9 5 1 1
9 } . 5 ← 4 0 { } } 0 8 0 0 0 8 . . 1 0 0 0 0 9 9 3 0 1 1 1 { {
← ← ←
d n a h t h g i R
←
←
←
←
← ←
←
← — —
—
— — — — — [ ]
← ←
←
← — —
—
— — — — — — [ ]
—
— — — — — — [ ]
—
— — — — — — [ ]
—
— — — — — — [ ]
—
— — — — — — [ ] ] ]
—
— — — — [ [ [
←
←
8 2 ← ← ~ 0 1 2 ← ← 2 ~ 0
← ←
9 ← ← ← ← ←
←
8 ← ← ← ← ←
←
5 } . 4 ← 3 { 2 2
e d 6 } o 7 2 . 3 ← ← ← ← ← ← ← m { 2 2 l a 6 } 1 6 ← ← ← ← ← ← . 2 ← m { r 2 2 o 6 } N 5 : . 1 ← ← ← ← ← ← ← 0 { 2 2 ) 4 / 6 } 1 . 0 ( 4 ← ← ← ← ← ← ← 9 { 1 2 s c i 7 } t 4 3 . 5 ← ← ← ← ← ← ← s { 1 1 i r e } t 9 c 2 ← ← ← ← ← ← ← 8 . 0 { 0 1 a r } a 0 0 0 8 } 0 8 0 h 5 0 . . 1 0 0 0 1 0 5 9 9 c 9 3 1 1 1 1 { { S n d L i n 5 } d n a h t h g i R
←
1 2 ~ — — 0 0 7 1 — — ~ 0
← — —
n e ← p ← ← ← — — O d e 9 1 0 0 s 0 2 6 7 — — ← l 2 o 2 ~ 1 1 ~ C e r o m r o e c i w T
n e d n e r o i n } p m 7 ) a 5 ) ) ) g 0 0 h 0 } O r } 4 } o . } } 4 0 n 5 0 0 5 8 1 1 4 2 4 0 8 i 3 . 0 . 0 1 . 9 ⇔ s e 1 0 0 . . . t 9 5 0 3 3 n 1 1 h 3 1 9 1 9 1 m ⇔ 3 { 0 3 d i { 2 t { { { ⇔ 0 e n ( ( ( ( s e g u 0 { i r o e l h R R C T
5 } . 5 ← 4 2 2 {
e c n e s b a
) 1 2 2 ~ 0 (
) 0 7 1 — — ~ 0 (
—
r o
e c n e s e r P
e c n e s b a r o e c n e s e r P
— — — — — — — — ]
e c n e s b a
←
←
←
← ←
←
← — —
—
— — — — — [ ]
←
←
←
← ←
←
← — —
—
— — — — — — [ ] } 0
←
←
←
—
— — [ ]
←
←
←
—
— — [ ]
←
←
←
← ←
←
← — —
—
— — [ ]
←
←
←
← ←
←
← — —
—
— — — — — — [ ]
←
←
←
← ←
←
← — —
—
— — — — — — [ ]
←
←
—
— — — — — — [ ] ]
—
— — — — — [ [
8 ← ← 2 ~ 0 1 2 ← ← 2 ~ 0
1 2 ~ — — 0 0 7 1 — — ~ 0
n e ← p ← ← ← — — O d e 9 1 0 0 s 0 2 6 7 ← l — — o 2 2 1 1 ~ ~ C e r o
←
←
m r o e c i w T
e n r e o
r o
e c n e s e r P
5 3 { 3 . 4 3 t a s s e l r o } 0 . 3 { 4 9 2 . 0
— — — — — — — — —
e c
n p m ) e ) s a 5 ) ) g 0 0 h 1 0 O r } } 4 b } o . } 2 a 4 4 2 7 0 0 n 5 0 0 s 5 8 8 2 i 2 3 . 0 . 0 1 . 0 ⇔ e 2 o 1 — — — — — — — — — — — r 0 9 . . 5 t 1 3 e n 9 9 3 m ⇔ 3 d i 1 1 ⇔ 3 { 0 { ~ ~ c t { { n n 1 1 h e ( 0 0 ( e 0 e s ( ( g u e s { 0 i r o e l h r R P R C T e l e n e n e } } i i w w b 5 1 0 g 0 . . a h h o o l 1 – – t – – – – – – – i g i g n 1 – n t n l w 0 5 0 1 ± ± e e o a ± ± a a l { { ± ± W r W r B B s A r } } m 2 2 } e i n n t i i a a m m t m A m I n m m c c P / P / – m – m m g p p / / t N U r r M k M g g L L { s k k { { e T l s o 2 C S f r g 1 g b T ) P C Q L Q 2 L m i P 1 m i L 1 s S – – s P T m ∆ E P M P Q Q ∆ M P P P ∆ P P y E E P ∆ ∆ P S s d n s d s t t e e t d s t n d n d f ( e n i n i d r r r e r i r i m r i r n r d o n o o o t u u r o n t a u s m a i m a i e a s i a a m i a s s a s t e n n s i l r r d d r h s I d r t r a e t r l d s s s r r r d e e e e r a s o e e r e f e e r r e n v t e e e e n v n v n n v r t r o e p p a n u a n o u r n e r F a n a n l a t p p p R u u l s ) r d r w p w p t o t o t o p g g a t o r c u o t e S t e o u o u S C n n e s i u a i V S C f S S C S C o i c L L b r r i e n t g L t h s i e a n h d c n s u u m r t c f e i r s m s d n a d h i g t r u o a d i p P o r w i s h n e e - e n n a d e s n n r e s w r C s S s r a s t c i i i l f n r d g u d f s e y e d e t p L i t 1 u y a r y e d d t r a e e s t p i h a P e v n t n r i n r c s r r l p f e m n e a o c ) P e t a S a ) p e p e e e p S m s t e v n t o o r s a n w h i e r n = a l r f i e d l h i e v r l v s L C S p S C r n e f s w e i c i e c l n i e e c l L g g t n d f m d f a l v n s i a a s o e r i e P i i n ) g i t i r t n i e n e a ) s P i y n e i n l e e s n t n d r e p d n e e r a e d e d d n ∆ f g c t a o u o o u n i e c m g r c c n f p ( o r h r h v i n e o D o t p i n e i e n n n s i t t p i p e i p e e t u c c t e r t e f v e i m s d a n c f a i r e r m l r p k i C f i f i p e d t i m s m n e t m a f e e t e f f e r c o r e d n o e u e f P R u e u o f e e i C S S r u t o i r f r w R w t f a h S o p i R R ( e L E ( s ( s S O P d P p P F p C R o D P L C L R D ( D r s e m i t f o r e b m u n d n a n i m
k c e h c n o i t a r e n e g
t a e h d n a
, e s i o n l a m r o n b a , e g a k a e l l i O
Category
Test Conditions
Standard Value
Measurement Value 20
SEBH801100 21/26
Table 6: Performance Standard Value Table (PC200/210-7 [6/8]) ]
7 ← ← ← ← ←
←
8 } . 0 ← 9 { 0 1
6 ← ← ← ← ←
←
8 } . 9 ← 8 0 {
←
←
←
8 ← ← 2 ~ 0
← ← ←
←
8 } . 8 ← 7 0 {
←
←
←
← ←
← ← ←
←
9 } . 7 ← 6 0 {
←
←
← ← ←
←
9 } . 6 ← 5 0 {
←
←
←
←
e 5 ← ← d o m 4 ← ← l o r t n 3 ← ← o c e 2 ← ← n i F 0 0 : 1 5 0 9 2 1 1
9 } . 4 ← 3 0 { } 6 } 6 0 0 . 0 . 0 1 0 0 9 0 0 9 3 0 2 1 { 2 1 1 {
← ← ←
d n a h t h g i R
←
←
←
←
← ←
9 ← ← ← ← ←
←
8 ← ← ← ← ←
←
5 } . 4 ← 3 { 2 2
←
d n a h t h g i R
s m e i t I t n t s U e T l s o
0 1 ±
m – A p m r
5 . } 0 5 { ± ±
7 1 ~ — — 0
— — — — — [ ]
—
— — — — — — [ ]
← — —
—
— — — — — — [ ]
— —
—
— — — — — — [ ]
— —
—
— — — — — — [ ]
— —
—
— — — — — — [ ] ]
— —
—
— — — — — [ [
1 6 2 3 1 ← ← 2 ~ ~ 0 0 1 6 2 6 3 ← ← ← 2 9 2 5 1 ~ ~ n 6 2 1 e 2 1 3 ← p ← 3 2 8 1 1 ~ ~ O d 6 e 6 1 9 3 s 4 2 ← l 2 1 8 o 1 ~ ~ C
←
m r o e c i w T
r o
e c n e s e r P
) 1 2 2 ~ 0 (
) 6 3 1 — — ~ 0 (
—
e c n e s b a r o e c n e s e r P
— — — — — — — — ]
e c n e s b a
←
←
←
← ←
←
← — —
—
— — — — — [ ]
←
←
←
← ←
←
← — —
—
— — — — — — [ ] } 0
←
←
←
—
— — [ ]
←
←
←
—
— — [ ]
←
←
←
← ←
←
← — —
—
— — [ ]
←
←
←
← ←
←
← — —
—
— — — — — — [ ]
←
←
←
← ←
←
← — —
—
— — — — — — [ ]
←
←
—
— — — — — — [ ] ]
—
— — — — — [ [
←
←
1 . } 0 1 { ± ±
} 2 a m c P / M g k {
8 ← ← 2 ~ 0 1 2 ← ← 2 ~ 0
1 2 ~ — — 0 0 7 1 — — ~ 0
n e ← p ← ← ← — — O d e 9 1 0 0 s 0 2 6 7 — — ← l 2 o 2 ~ 1 1 ~ C
a ) ) g 0 0 h } 6 } 4 . 5 2 4 } 4 } 6 0 . 0 2 n 5 0 0 5 . i 2 1 . 0 0 9 0 9 0 . 3 3 . 3 2 t 1 n 9 ⇔ 3 3 { 0 1 2 { { 1 2 { ⇔ 0 n 1 1 h ( ( g u 0 { i R R 0 1 – ±
—
e r o
e d 6 } o 7 . 3 ← ← ← ← ← ← ← 2 { m 2 2 l a 6 } 1 6 ← ← ← ← ← ← . 2 m ← { r 2 2 o 6 } N 5 : . 1 ← ← ← ← ← ← ← 0 { 2 2 ) 4 / 6 } 2 . 9 ( 4 ← ← ← ← ← ← ← 8 { 1 1 s c i 7 } t 3 ← ← ← ← ← ← . 6 ← 5 s { 1 1 i r e } t 2 c 2 ← ← ← ← ← ← ← 7 . 3 { 1 1 a r } 6 } a 0 0 0 6 . 0 . 0 0 h 5 0 1 1 0 9 9 0 9 2 c 1 1 3 1 0 2 2 1 { { S n d L i n 5 }
e l e b g a n w o l a r A
←
← — —
←
e n r d n e o i n } p m 7 ) ) ) O r a g 0 0 h } 6 } 4 o . 5 } ) 0 6 4 } 4 } n 5 0 0 5 . 0 . 0 1 1 4 0 ⇔ s 0 9 2 i 3 1 . 9 e 1 0 0 . . . 2 t 3 0 1 2 9 3 3 n 9 3 m ⇔ 3 { 0 { 2 { d i t 1 { 1 2 { ⇔ 0 n 1 1 h ( e ( ( ( s e g e u 0 { i r o l h R R C T
5 } . 5 ← 4 { 2 2
←
e c n e s b a
e r o m r o e c i w T
n e e r o p m O r o
⇔ s e
m d i e t s e e r o h l C T
) 1 2 2 ~ 0 (
) 0 7 1 — — ~ 0 (
n e i n e w i o t g t g – – h i i n h n l e a W r a B W r –
s e m i t f o r e b m u n d n a n i m
n i m / L
— w o l e B
} m m g N k {
r o
e c n e s e r P
5 3 { 3 . 4 3 t a s s e l r o } 0 . 3 { 4 9 2 . 0
— — — — — — — — —
e c n e s b a r o
— — — — — — — — c e
n e s e r P
–
– n i m / L
– – – – – } 2 a m m P / c p r M g k {
r g 1 g S f b 2 C T P C Q L Q 2 L m i 1 P m i L 1 s S – – s P T m M P Q Q ∆ M P P P ∆ E P P P ∆ y E E ∆ ∆ P P S s s s d n t t e r s d i t d i t n d n f e n d r e r r i r i m r i e n r i r d n m d o n n t t r a u u u m a i e a s o a o a o i i a o a d s s a s t m s s e l l n r r r h s i I d r t r n a s e d t s r r d d s r r e e e e a s o e r e r e e e t f e e e n v e e n v n v n n v r r t r r u u a n o u r o w p w p a n p r n n e p e a a l R a p ) F u r p p t t t o o g g c s r r o u o u t o a t o l d u t t e n n e a i V S C f s S u o e S C S S C S C p i c L L i n g b r r t h e L i a e d c h n t s u d n f n r r P s m c m u d i h i r t a d o u i r w i o e n s S s s h g e p - s e e a d e n s n n r e s w r a t c i r i s s f C n l r d i u g d f e s e y e t t u d y y r a L e s p t e e v i h n a 1 l d t t r a r e n r s n p f i r e c n a c e d o e a S P a P t e a ) r s t e e v n t o o s a p n w i r r p ) p r e h p S m l e f i e n d l h i s v p v r e L S C e S = f s i c i l n C n c g c g e m e e l n l d l i w i L e n d f a s i a a s o e e f P v i i i r ) i n e s g n i e a ) t y t n n l s n t n d r e P e p d n d r e e e d n r e a g a d n ∆ i o u o o t f u n i e c m g r c c c r i p r h e f ( e h o v o o t p i n e n e n n n n i s i t t p p i i i p e u t e t e e t c c f v e r r e i m c k s f a s f f d n i t t r p m n e r p a i a e c C d t i l e f m i i m r m t e f e e e r e d e o n o f o r f u e C u u f e e e i r u o i r P R w R w t p S f i f a h S S o R R ( e P p P F p C R o D P L C L R D ( L E ( s ( s S O P d D r
Category
Test Conditions
Standard Value
k c e h c n o i t a r e n e g t a e h d n a , e s i o n l a m r o n b a , e g a k a e l l i O
)
(
n o i t a n i m r e t e D
Measurement Value 21
SEBH801100 22/26
Table 7: Performance Standard Value Table (PC200/210-7 [7/8]) ]
7 ← ← ← ← ←
←
8 } . 0 ← 9 { 0 1
6 ← ← ← ← ←
←
8 } . 9 ← 8 0 {
←
←
←
← ← ← ←
←
8 } . 8 ← 7 0 {
←
←
← ← ← ←
←
9 } . 7 ← 6 0 {
←
←
← ← ← ←
←
9 } . 6 ← 5 0 {
←
←
←
←
e 5 ← d o m 4 ← l o r t n 3 ← o c e 2 ← n i F 0 : 1 5
9 } . 4 ← 3 0 { } 4 } 4 0 0 . 0 . 0 1 0 0 9 0 0 9 3 0 3 2 { 3 1 2 {
← ← ← ← d n a h t h g i R
←
←
←
←
← ←
—
— —
—
8 ← ← 2 ~ 0
— — — — — [ ]
—
— —
—
— — — — — — [ ]
←
← ←
←
—
— —
—
— — — — — — [ ]
←
← ←
←
—
— —
—
— — — — — — [ ]
—
— —
—
— — — — — — [ ]
—
— —
—
— — — — — — [ ] ] ]
—
— —
—
— — — — [ [ [
1 ← ← 4 2 2 2 ~ n 1 e ← p ← 4 2 2 O 6 ~ d 1 e 2 s ← l 8 2 o 7 ~ C
←
←
m r o e c i w T
5 } . 4 ← 3 { 2 2
e d 6 } o 7 . 3 ← ← ← ← ← ← ← 2 { m 2 2 l a 6 } 1 6 ← ← ← ← ← ← . 2 m ← { r 2 2 o 6 } N 5 : . 1 ← ← ← ← ← ← ← 0 { 2 2 ) 4 / 6 } 3 . 9 ( 4 ← ← ← ← ← ← ← 8 { 1 1 s c i 7 } t 3 ← ← ← ← ← ← . 6 ← 5 s { 1 1 i r e } t 2 c 2 ← ← ← ← ← ← ← 7 . 3 { 1 1 a r } 4 } a 0 4 0 . 0 . 0 h 5 1 1 0 0 9 0 0 9 — 9 c 1 3 3 2 3 2 { { S n e d L i - l 5 } b n d n a h t h g i R
s m e i t I t n t s U e T l s o
0 1 – ±
0 1 ±
m – A p m r
5 . } 0 5 { ± ±
e c n e s e r P
) 1 2 2 ~ 0 (
—
— —
—
— — — — — — — — ]
←
e c n e s b a r o e c n e s e r P e c n e s b a
—
— —
—
— — — — — [ ]
r o
e c n e s e r P
←
←
←
8 ← ← 2 ~ 0
—
— —
—
— — — — — — [ ]
←
←
←
← ←
—
— —
—
— — — — — — [ ]
←
←
—
— —
—
— — — — — — [ ]
←
←
—
— —
—
— — — — — — [ ]
←
←
—
— —
—
— — — — — — [ ]
←
←
—
— —
—
— — — — — — [ ]
←
←
—
— —
—
— — — — — — [ ] ] ]
—
— —
—
— — — — [ [ [
←
←
1 . } 0 1 { ± ±
} 2 a m c P / M g k {
←
1 2 ← ← 2 ~ 0 1 ← ← ← 4 2 2 2 ~ 1 ← ← ← 4 2 2 6 ~ 1 ← ← ← 5 2 2 7 ~ n e ← p ← ← O d 1 e 2 s ← l 4 2 o C 8 ~
←
a ) ) g 0 t } 4 } 4 . 5 2 4 } 4 } 4 0 . 0 2 n 5 a 5 . i s h 0 2 1 . 0 0 9 0 9 0 . 3 3 . 3 e t 1 n 9 ⇔ 3 3 3 3 { 2 2 0 { h { { ⇔ n 1 t ( ( g u t o i { 0 0 R N R
e l e b g a n w o l a r A
r o
e r o
← ← 9 — 1 e n r n l e d e o i n } p m - b 7 ) ) ) O r a g 0 t } 4 } 4 o . 5 } ) 0 4 4 } 4 } n 5 a 5 . 0 . 0 1 1 4 0 ⇔ s 0 9 2 s h 0 i 3 1 . 9 e 1 0 0 9 . . . t e 0 3 3 n 9 3 m ⇔ 3 { 0 { 2 { d i 3 1 2 3 t { 2 3 { ⇔ 0 n 1 t ( e ( ( t h ( s e g e u o i 0 { r o l h R N R C T 5 } 9 ← ← ← ← ← ← . 5 ← ← 4 ← ← ← ← { 2 2 8 ← ← ← ← ←
←
e c n e s b a
e r o m r o e c i w T
n e e r o p m O r o
⇔ s e
m d i e t s e e r o h l C T
) 1 2 2 ~ 0 (
—
— —
n e i n e w i o t g t g – – h i i n h n l e a W r a B W r –
s e m i t f o r e b m u n d n a n i m
n i m / L
— w o l e B
} m m g N k {
e c n e s b a r o
— — — — — — — — c e
n e s e r P
–
– n i m / L
– – – – – } 2 a m m P / c p r M g k {
r g 1 g S f b 2 C T P C Q L Q 2 L m i 1 P m i L 1 s S – – s P T m M P Q Q ∆ M P P P ∆ E P P P ∆ y E E ∆ ∆ P P S s d n s d s t t e r t d s t n d n f e n e n i n i d r e r r i r i m r i r i r d o n n t t o d r a u u u m a i m e a s o a o a o i m i a d s s a t s s e l l a s i n r r r h s I d r t r n a e t s d s r r d d s r r e e e e r a s o e e r e f e e t e e e n v e e n v n v n n v r r t r r u ) e e o p p a n u a n o u r p r n n p a a l R a p w w F u r p p r s r t t t t o o o g g c d a t o l u t o o u u t e n n e s S u a i V S C f S C S S C S C p o e c L b L r r n i e g L t h i s i e a d c h m n r P s m u s u t d n f n r c d i h i r t u a d o s S s i r w i p - e o e n s h g e e n a d e n s n r e s w r r a s s C t c i i l f n r d i u g d f e s e y d e t p L t 1 u y y r a e e e s t a P r ) r v i h n d t t n r a r e n r i s p f e c n a c e d o e t P l a S a e s t e e v n t o o s a p n w i a ) p e p r r r e h p S m n l e f i e d l h i e s v p v r L S C = S n e f s i c i l n C e e l n i c g c g v i e l d l w i L n m d f a s i a a s o e r e f P i i n ) g l i t n e s e a ) t y n e i n e P i s n t n d r e p d n r e d r e e e d n ∆ i f g a d n o u o o t u n i e c m g r c c c f p ( h r h a v i o r n e o o t p i i e n e n n n n i s t t p p i e i e p t u c c t t e e f v e r f r e f i m d c k s t t a s f n p a i p m n e r C a r i i e c i d t i l r e f m m e m t e e f e r e d e o o n o f e r f u P C u t u f e e e S r u o i r S f i w R w f a h S o p i R R R ( e L E ( s ( s S O P d P p P F p C R o D P L C L R D ( D r
Category
Test Conditions
Standard Value
k c e h c n o i t a r e n e g t a e h d n a , e s i o n l a m r o n b a , e g a k a e l l i O
)
(
n o i t a n i m r e t e D
Measurement Value 22
SEBH801100 23/26
Table 8: Performance Standard Value Table (PC200/210-7 [8/8]) ]
7 ← ← ← ← ←
←
8 } . 0 ← 9 { 0 1
6 ← ← ← ← ←
←
8 } . 9 ← 8 0 {
←
←
←
← ← ← ←
←
8 } . 8 ← 7 0 {
←
←
←
← ← ← ←
←
9 } . 7 ← 6 0 {
←
←
← ← ← ←
←
9 } . 6 ← 5 0 {
←
←
←
←
e 5 ← d o m 4 ← l o r t n 3 ← o c e 2 ← n i F 0 : 1 5
9 } . 4 ← 3 0 { } 3 } 3 0 0 . 0 . 0 1 0 5 4 5 0 4 3 0 3 3 { 3 1 3 {
← ← ← ← d n a h t h g i R
←
←
←
←
← ←
—
— —
—
8 ← ← 2 ~ 0
— — — — — [ ]
—
— —
—
— — — — — — [ ]
← ←
—
— —
—
— — — — — — [ ]
—
— —
—
— — — — — — [ ]
—
— —
—
— — — — — — [ ]
—
— —
—
— — — — — — [ ] ] ]
—
— —
—
— — — — [ [ [
←
1 2 ← ← 2 ~ 0 1 2 ← ← ← 2 ~ 7 n 1 e ← p ← 7 2 2 O 4 ~ d 1 e 2 s ← l 0 2 o 6 ~ C m r o e c i w T
5 } . 4 ← 3 { 2 2
d n a h t h g i R
s m e i t I t n t s U e T l s o
0 1 ±
m – A p m r
5 . } 0 5 { ± ±
e c n e s e r P
) 1 2 2 ~ 0 (
—
— —
—
e c n e s b a r o e c n e s e r P
— — — — — — — — ]
←
e c n e s b a
—
— —
—
— — — — — [ ]
r o
e c n e s e r P
←
←
←
8 ← ← 2 ~ 0
—
— —
—
— — — — — — [ ] }
←
←
←
← ←
—
— —
—
— — [ ]
←
←
—
— —
—
— — [ ]
←
←
—
— —
—
— — [ ]
←
←
—
— —
—
— — — — — — [ ]
←
←
—
— —
—
— — — — — — [ ]
←
←
—
— —
—
— — — — — — [ ] ]
—
— —
—
— — — — — [ [
←
←
1 . } 0 1 { ± ±
} 2 a m c P / M g k {
←
1 2 ← ← 2 ~ 0 1 2 ← ← ← 2 ~ 7 1 ← ← ← 7 2 2 4 ~ 1 ← ← ← 7 2 2 5 ~ n e ← p ← ← O d 1 e 2 s ← l 7 2 o C 6 ~
←
a ) ) g 0 t } 3 } 4 . 5 2 4 } 4 } 3 0 . 0 2 n 5 a 5 . i s h 0 2 1 . 0 0 4 5 4 5 . 3 3 . 3 e t 1 n 9 ⇔ 3 3 3 3 { 3 3 0 { h { { ⇔ n 1 t ( ( g u t o i { 0 0 R N R 0 1 – ±
r o
e r o
e d 6 } o 7 . 3 ← ← ← ← ← ← ← 2 { m 2 2 l a 6 } 1 6 ← ← ← ← ← ← . 2 m ← { r 2 2 o 6 } N 5 : . 1 ← ← ← ← ← ← ← 0 { 2 2 ) 4 / 6 } 4 . 9 ( 4 ← ← ← ← ← ← ← 8 { 1 1 s c i 7 } t 3 ← ← ← ← ← ← . 6 ← 5 s { 1 1 i r e } t 2 c 2 ← ← ← ← ← ← ← 7 . 3 { 1 1 a r } 3 } a 0 3 0 . 0 . 0 h 5 1 1 0 5 4 5 0 4 — 9 c 1 3 3 3 3 3 { { S n e d L i - l 5 } b n
e l e b g a n w o l a r A
←
←
← ← 9 — 1 e n r n l e d e o i n } p m - b 7 ) ) ) O r a g 0 t } 3 } 4 o . 5 } ) 0 3 4 } 4 } n 5 a 5 . 0 . 0 1 1 4 0 ⇔ s 0 4 2 s h 0 i 3 1 . 9 e 1 5 5 4 . . . t e 0 3 3 n 9 3 m ⇔ 3 { 0 { 2 { d i 3 1 3 3 t { 3 3 { ⇔ 0 n 1 t ( e ( ( t h ( s e g e u o i 0 { r o l h R N R C T 5 } 9 ← ← ← ← ← ← . 5 ← ← 4 ← ← ← ← { 2 2 8 ← ← ← ← ←
←
e c n e s b a
e r o m r o e c i w T
n e e r o p m O r o
⇔ s e
m d i e t s e e r o h l C T
) 1 2 2 ~ 0 (
—
— —
n e i n e w i o t g t g – – h i i n h n l e a W r a B W r –
s e m i t f o r e b m u n d n a n i m
n i m / L
— w o l e B
} m m g N k {
0 0 1 { 8 . 9 t a s s e l r o } 0 . 3 { 4 9 2 . 0
— — — — — — — — —
e c n e s b a r o
— — — — — — — — c e
n e s e r P
–
– n i m / L
– – – – – } 2 a m m P / c p r M g k {
r g 1 g S f b 2 C T P C Q L Q 2 L m i 1 P m i L 1 s S – – s P T m M P Q Q ∆ M P P P ∆ E P P P ∆ y E E ∆ ∆ P P S s d n s d s t t e r t d s t n d n f e n e n i n i d r e r r i r i m r i r i r d o n n t t o d r a u u u m a i m e a s o a o a o i m i a d s s a t s s e l l a s n i r r r h s I d r t r n a e t s d r r s d d s r r e e e e r a o s e e r e f e e t e e e n v e e v n v r n v n n r t r r u ) e e o u a n o u r p p a n p p n n r a a l R a p w w F u r p p t o s r r t t t o o g g c d a t o l u t o o u u p a i S t e n n e e s u V S C f S C S S C S C o c L b L r e r n i L t h i i e a g d c h s u m r P s n t f n r d n s m u c i d h i e t r u a d o s s i r w i p o n s h g e e e n a s d e n n r e s w S r r a s s C t c i i l f n r d i g u d f e s e y d e t p L t u 1 y y a r e e s e t p i h a t P r ) r v n t n r a r e d d i n r s p f e c n a o e c t P l a S s a a e e t s e v n o o e e n w t a ) p e p r r r h p S m n l e f i e d l h i s i e v r p v L S C = S n e s i f c i l n C L e e l n i c g c g v i e l d l w i n m a d f s i a a s o e r f e P i i n ) g l i t n e e a ) s t y n e i n e P i s n t n d r e p d n r e e e e d r d n ∆ i f g a d n o u o o t u n i e c m g r c c c f p ( h r h a v i o r n e o o t p i i e n e n n n n s i t p t i p e i p e t c c u t t e e f v e r r f e f m i d k s c t t a s f p n a i r p n e m r C a i i e d t i c i l r e f m m e m t e e f e r e d e o o n o f r e u f P C u f e e u r u o i e S r f i S w R w t p f a h S o R i R R ( e L E ( s ( s S O P d P p P F p C R o D P L C L D ( R D r
Category
Test Conditions
Standard Value
k c e h c n o i t a r e n e g t a e h d n a , e s i o n l a m r o n b a , e g a k a e l l i O
)
(
n o i t a n i m r e t e D
Measurement Value 23
SEBH801100 24/26
4. Names of Components and Related Dimensions Appendix Table 1 Names of Sample Components and Port Size 1. Names of Components and Port Size Symbol representing port or adjust-
Presence or Name of port and adjustment sections
ment section
absence of Port size
Remarks
connection
M1
Installed position of pump
Connected
—
See dimensional drawing
M2
Spline section of input shaft
Connected
—
See spline specifications
P1f
Piston pump discharge port (front)
Connected
—
See dimensional drawing
P1r
Piston pump discharge port (rear)
Connected
—
See dimensional drawing
PP1
Pump pressure input port
Connected 14 × 1.5
EPC original pressure input port
Connected 14 × 1.5
Pump suction port
Connected
PEPC PS
—
See dimensional drawing
PLSf
Load pressure input port (front LS pressure) Connected 14 × 1.5
PLSr
Load pressure input port (rear LS pressure) Connected 14 × 1.5
PDa
Air bleeder (used for bleeding air in the pump case)Closed
PD1f
Pump case drain port (front)
Closed
24 × 1.5 Installation of pressure gauge
PD2f
Pump case drain port (front)
Closed
24 × 1.5 With plug
PD2r
Pump case drain port (rear)
Connected 24 × 1.5 With plug (for bleeding air)
Plug (used for forced-feed lubrication)
Connected 24 × 1.5 With plug
CP1f
Front pump discharge pressure sensing port
Connected 10 × 1.25 Installation of pressure gauge (with plug)
CP1r
Rear pump discharge pressure sensing port Connected 10 × 1.25 Installation of pressure gauge (with plug)
Cenf
Control pressure sensing port (front)
Connected 10 × 1.25 Installation of pressure gauge (with plug)
Cenr
Control pressure sensing port (rear)
Connected 10 × 1.25 Installation of pressure gauge (with plug)
CLSf
Load pressure sensing port (front)
Connected 10 × 1.25 Installation of pressure gauge (with plug)
Clsr
Load pressure sensing port (rear)
Connected 10 × 1.25 Installation of pressure gauge (with plug)
CPm
PC mode switching pressure sensing port Connected 10 × 1.25 Installation of pressure gauge (with plug)
Csig
LS set switching pressure sensing port
Connected 10 × 1.25 Installation of pressure gauge (with plug)
Maf
Maximum flow adjusting section (front)
Non-connected
—
Mar
Maximum flow adjusting section (rear)
Non-connected
—
Mbf
Minimum flow adjusting section (front)
Non-connected
—
Mbr
Minimum flow adjusting section (rear)
Non-connected
—
MPCf
PC valve adjusting section (front)
Non-connected
—
MPCr
PC valve adjusting section (rear)
Non-connected
—
MLSf
LS valve adjusting section (front)
Non-connected
—
MLSr
LS valve adjusting section (rear)
Non-connected
—
EPC
PC mode switching current connector (2 poles) Connected
—
ELS
LS set switching current connector (2 poles)
Connected
—
SOL.A
PC mode switching valve solenoid
Non-connected
—
SOL.B
LS set switching valve solenoid
Non-connected
—
PT
—
For bleeding air (with plug)
24
SEBH801100 25/26
Appendix Figure 1 Dimensions of Sample Sections Applicable Models: PC200/210-7 1. Installed positions of pump and ports Locations of PT ports
Details of Discharge Port (P 1f and P 1r)
prior to change are shown.
(See Fig. BOZ11615.)
Details of Installed Position (M1)
Details of Suction Port (PS)
25
SEBH801100 26/26
Appendix Figure 2 Dimensions of Sample Sections
2. Splines and Ports Locations
of PT ports prior to change are shown (See Fig.BOZ11617).
Details of spline 45 x 16 x 2.5 involute spline shaft Amountof addendummodification Tooth profile Tool
Module
Tooth bottom 2.5
Pressure angle
20.00°
Number of teeth
16
Reference pitch circle diameter Tooth
+2000
40.000
Over-pin dimension 49.277 -0.179 (4.50) -0.267
thickness Base tangent length (reference) Alignment Mating part number
— Alignment of tooth —
26
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