校驗(yàn)流程說明書翻譯-中英對照
警告
教養(yǎng)速度開關(guān)
在接通開關(guān)A時(shí)立即進(jìn)行
在調(diào)整設(shè)定值uo比例輸出前進(jìn)行
如果您對量程范圍的頻率內(nèi)作了變動(dòng)； 您必須對SST-2000A /H進(jìn)行(校驗(yàn)DIP開關(guān)A)。
1.拆開連接終端7和終端8的任何儀表。 標(biāo)出線路以方便日后接線。
2. 通過終端7(-)和8(+)將數(shù)字化的電壓表連接起來。
3. 連結(jié)頻率發(fā)電機(jī)(如F-16) 在終端5(HI)和6(COM))。 使用頻率發(fā)電機(jī)輸入新的量程頻率。
4. 在電壓表上，將FREQ電位計(jì)調(diào)整為10.00 Vdc。(參閱圖 4-9.)
5. 再次連接儀表的常用終端7(-)&8(+)。 觀察極性。
圖 4-9 開關(guān)（A）接觸安排的量程頻率范圍參見頂部銘牌
表格 4-1
量程頻率以及相應(yīng)的開關(guān)“A”的設(shè)定表格
頻率范圍（赫茲） 開關(guān)位置 頻率范圍（赫茲）
校驗(yàn)4-20 mA比例輸出
您必須對速度開關(guān)進(jìn)行校驗(yàn)；如果20 mA的標(biāo)準(zhǔn)比例輸出4轉(zhuǎn)換為：
* 0-5 Vdc使用開關(guān)Cl，或者
* 0-10 Vdc使用開關(guān)C2
校驗(yàn)新的比例輸出
1. 給終端接入數(shù)字電壓表9(-)和10(+)。
2. 采用10%的量程頻率輸出到終端5 (+)，6 (-)。
3. 調(diào)整電位計(jì)的PROP OUT ZEAR ( 參閱下圖4-10)使電壓計(jì)的滿量程輸出為10%。
圖4-10  PROP OUT ZEAR和 PROP OUT SPAN調(diào)整位于右上角在SST-2000A-/H的頂部銘牌下；
4. 5 終端(+)和6(-)使用100% 量程頻率。
5. 旋轉(zhuǎn)PROP OUT SPAN調(diào)整電位計(jì)(見下面示例)；使電壓計(jì)的滿量程輸出為100%。。
6. 重復(fù)第2，3，4，5步驟，3 或者4 次以及保證準(zhǔn)確性。
例子： 為0-500赫茲輸入裝置的校驗(yàn)進(jìn)行0-10 Vdc比例輸出再校驗(yàn)(4-20 mAdc 比例輸出)。
*在(+)一6 5 終端(-)使用10%的量程(50赫茲)。
*調(diào)整電位計(jì)的PROP OUT ZEAR；使電壓計(jì)的滿量程輸出為10000 Vdc。
*在終端5 (+)使用(500赫茲)的量程頻率；
*旋轉(zhuǎn)PROP OUT SPAN調(diào)整電位計(jì)；使電壓計(jì)的滿量程輸出為10.00 Vdc。
*重復(fù)3或者4次確保準(zhǔn)確性；
程控設(shè)定點(diǎn)和交接
移除SST2000A-/H頂部的銘牌露出DIP開關(guān)B 和C。
使用DIP確定接通開關(guān)B和C到程控繼電器的設(shè)定點(diǎn)：
* 在報(bào)警裝置上對(OFF)提供能量/斷開(on)
* 在報(bào)警裝置上斷開(OFF)/接通(on)
* 在報(bào)警裝置上驅(qū)使SPST(OFF)/ DPDT(on)跳閘
* 改變比例電壓輸出
圖4-11 DIP開關(guān)的設(shè)定取決于您購買的速度開關(guān)的型號：
* SST-2400A-/H 系列開關(guān)有4 個(gè)給定值接替調(diào)整(DIP開關(guān)B 和C)。
* SST-2200A-/H 系列開關(guān)有1 和2繼電器 (使用DIP開關(guān)C)。
*SST-2000A-/H 開關(guān)沒有設(shè)定點(diǎn) 
頂部的銘牌下面為每個(gè)DIP開關(guān)設(shè)定標(biāo)簽。
調(diào)節(jié)鎖定的繼電器
調(diào)節(jié)鎖定的繼電器，跨接線終端32和7；
設(shè)定點(diǎn)3 和4 以及選擇DPDT跳閘
當(dāng)所有的開關(guān)B都處于關(guān)閉狀態(tài)
* 繼電器3和4處于通電狀態(tài)；速度不足
* 處于非關(guān)閉狀態(tài)
* 所有繼電器處于SPST狀態(tài)  旋轉(zhuǎn)開關(guān)B將導(dǎo)致
  打開B至..
  B1  在警報(bào)狀態(tài)鎖定設(shè)定點(diǎn)3
  B2  鎖定繼電4同鎖定繼電器2；
在設(shè)定點(diǎn)2建立兩個(gè)觸點(diǎn)C (DPDT繼電器)。
  B3  在警報(bào)狀態(tài)鎖定設(shè)定點(diǎn)4
示例：將繼電器3和4設(shè)定為過速的啟動(dòng)，停止和鎖定狀態(tài)；打開B1，B2，B5,B6，B7,和B8。  B4  鎖定繼電3同鎖定繼電器1；
在設(shè)定點(diǎn)1建立兩個(gè)觸點(diǎn)C (DPDT繼電器)。
  B5  在警報(bào)狀態(tài)切斷繼電器3
  B6  在警報(bào)狀態(tài)切斷繼電器4
  B7  在過速啟動(dòng)設(shè)定點(diǎn)4。
  B8  在過速啟動(dòng)設(shè)定點(diǎn)3。
設(shè)定點(diǎn)1，2： 0-5和0-10 Vdc 比例輸出
當(dāng)所有的開關(guān)C都處于關(guān)閉狀態(tài)
* 繼電器3和4處于通電狀態(tài)；速度不足
* 處于非關(guān)閉狀態(tài)  旋轉(zhuǎn)開關(guān)C將導(dǎo)致
  打開C至..
  C1 調(diào)整比例輸出至0-5Vdc*； 確認(rèn)C2處于關(guān)閉狀態(tài)；
  C2 調(diào)整比例輸出至0-10Vdc*； 確認(rèn)C1處于關(guān)閉狀態(tài)；
  C3 在報(bào)警狀態(tài)斷開繼電器2；
示例：調(diào)整比例輸出至0-10Vdc；將繼電器2設(shè)定為過速的啟動(dòng)，停止和鎖定狀態(tài)；打開C2，C6，C7。  C4 在過速狀態(tài)和鎖定狀態(tài)啟動(dòng)繼電器1；
  C5 在報(bào)警狀態(tài)鎖定繼電器1；
  C6 在報(bào)警狀態(tài)鎖定繼電器2；
  C7 在過速狀態(tài)和鎖定狀態(tài)啟動(dòng)繼電器2；
  C8 在報(bào)警狀態(tài)斷開繼電器1；
 *要求進(jìn)行再校驗(yàn)
調(diào)整信號敏感度
降低標(biāo)準(zhǔn)輸入的敏感度
信號敏感度是有廠家設(shè)定為25 mVrms (大約35 mV 峰值或者70 mV峰間值)并且滿足大多數(shù)應(yīng)用。
圖4-12
信號靈敏度控制在DIP開關(guān)下面 Frequency range switch
頻率波段轉(zhuǎn)換開關(guān)
After setting range switch "a", trim for 10.0v at open terminals 8 5 7 at full scale frequency.
在設(shè)定范圍為"A"之后，在量程頻率開放終端857微調(diào)至10.0 v。
SIGNAL SENSITIVITY
信號敏感度 
高靈敏性可能更易受噪音損壞。
提高敏感度：順時(shí)針轉(zhuǎn)動(dòng)信號電位計(jì)的敏感性 ( 圖4-12)。在順時(shí)針方向旋轉(zhuǎn)充分后，敏感度是大約為5 mVrms。
降低敏感度：逆時(shí)針轉(zhuǎn)動(dòng)信號電位計(jì)的敏感性 ( 圖4-12)。在逆時(shí)針方向旋轉(zhuǎn)充分后，敏感度是大約為100 mVrms。
降低閉合觸點(diǎn)敏感度
跨接線終端30 和11能降低裝置的敏感度到大約1 Vrms。信號敏感度旋鈕不影響程序操作；
圖4-13 跨接線終端30 和11能降低SST-2000A-/H的敏感度；
Changing the full-scale input frequency range
You can set the standard full-scale frequency range from as low as 0-80 Hz to as high as 0-20 kHz.
1 Remove the top plate from the SST-2000A/H to reveal the "A" DIP
switches.
2 Use Table 4-1, page 23, or the underside of the top plate (bottom of
Fig. 4-9, page 22) to determine the correct DIP switch settings.
3 Calibrate the SST-2000A/H using the procedure on page 22.
Input frequency range less than 80 Hz full-scale
The full-scale frequency input range is usually set up at the factory when an SST-2000A/H is ordered.
The SST-2000A/H can easily be field-modified for any standard full scale input frequency range from 0-80 Hz to 0-20,000 Hz using the procedure Recalibration

of Full-Scale Input Frequency Range.
Field-changing the SST-2000A/H to accept input frequencies less than 0-80 Hz full-scale is not recommended. Damage might result that could void the product

warranty.
Please contact the Dynalco Customer Service Department at (954) 739-4300 for guidance in arranging for a low input frequency range.
Input frequency range greater than 20,000 Hz full-scale
The full-scale frequency input range is usually set up at the factory when an SST-2000A/H is ordered.
The SST-2000A/H can easily be field-modified for any standard full scale input frequency range from 0-80 Hz to 0-20,000 Hz using the procedure Recalibration

of Full-Scale Input Frequency Range.
Field-changing the SST-2000A/H to accept input frequencies greater than 0-20,000 Hz full-scale is not recommended. Damage might result that could void the

product warranty.
Please contact the Dynalco Customer Service Department at (954) 739-4300 for guidance in arranging for a high input frequency range.
Chapter 4 
Calibrating the SST-2000A/H
Calibrate the speed switch:
• immediately after any contact change in Switch A
• before adjusting set points or proportional output
You must calibrate the SST-2000A/H if you have made a change in the full-scale frequency range (changed contacts to DIP switch A).
1 Disconnect any meter connected to terminals 7 & 8. Mark or
position the wires so they can be correctly reattached later.
2 Connect a digital voltmeter across terminals 7(-) & 8 (+).
3 Connect a frequency generator (e.g. F-16) at terminals 5 (HI) & 6
(COM). Use the frequency generator to input the new full-scale
frequency.
4 Adjust the FREQ RANGE TRIM potentiometer for 10.00 Vdc on
the voltmeter. (See Fig. 4-9.)
5 Reattach the meter that is normally connected to terminals 7(-) &
8 (+). Observe polarity.
Fig. 4-9   The contact arrangements for the full-scale frequency range switch (A) are on underside of the top plate.
S.P. 2  S.P.  o   1  o
 F METER CAL  FREQ. iANGETRIM  0 O  mill!
FREQUENCY    iSi RANGE SWITCH If ||
AFTER SETTING RANGE Swrl'CH "A", TRIM FOR 10.0V AT OPEN TERMINALS 8 & 7 AT FULL SCALE FREQUENCY.
SIGNAL    0 SENSITIVITY  UATV
SWITCH "A' ON POSITION VS FREQUENCY RANGE IN KILOHERTZ:
4,8: .17 - .22 ; 5,8: .22 - .3 ; 6,8: .3 - .38 7,8: .38 - .5   ; 7,2,8: .48 - .63 1,4,7,8: .63 -.83
1,2. 3. 5. 6, 8: .83-1.09 1:.86-1.12:2:1.1 -1.4    ;3:1.4-1.9 4:1.9-2.5   ; 5:2.5-3.2    ; 6:3.2-4.2 7: 4.2 - 5.5   ; 7,2: 5.3 - 6.9 :1, 4, 7: 6.9 - 9.1
1,2,3,5.6:9.1 -12 2,3,4,6,7:12-15.5 1.2,3,4,5,6,7:15.1 -20
Calibrating the Speed Switch
Table 4-1    Table of full-scale frequency and the corresponding switch "A" ON settings.
Freq. Range (in kHz)  Switch AON Positions  Freq. Range (in Hz)
0.08  -0.10  1,8  80- 100
0.10  -0.13  2,8  100- 130
0.13  -0.17  3,8  130- 170
0.17  -0.22  4,8  170 - 220
0.22  -0.30  5,8  220 - 300
0.30  -0.38  6,8  300 - 380
0.38  -0.50  7,8  380 - 500
0.48  -0.63  7, 2, 8  480 - 630
0.63  -0.83  1,4,7,8  630 - 830
0.83  - 1.09  1,2,3,5,6,8  830- 1,090
0.86  -1.12  1  860- 1,120
1.10  - 1.40  2  1,100- 1,400
1.40  -1.90  3  1,400- 1,900
1.90  -2.50  4  1,900-2,500
2.50  -3.20  5  2,500 - 3,200
3.20  -4.20  6  3,200 - 4,200
4.20  -5.50  7  4,200 - 5,500
5.30  -6.90  7,2  5,300 - 6,900
6.90  -9.10  1,4,7  6,900-9,100
9.10  -12.0  1,2,3,5,6  9,100- 12,000
12.0  - 15.5  2, 3, 4, 6, 7  12,000- 15,500
15.1  -20.0  1,2,3,4,5,6,7  15,100-20,000
Chapter 4 
Calibrating the 4-20 mA Proportional Output
You must calibrate the speed switch if the standard proportional output of 4 to 20 mA is changed to :
* 0-5 Vdc using switch Cl, or
* 0-10 Vdc using switch C2
To calibrate the new proportional output
1 Attach a digital voltmeter to terminals 9 (-) & 10 (+).
2 Apply 10% of the full-scale frequency to input terminals 5 (+), 6 (-).
3 Adjust the PROP OUT ZERO adjust potentiometer (See Fig. 4-10,
below) to yield 10% of full-scale proportional output on the
voltmeter.
Fig. 4-10   The PROP OUT ZERO and PROP OUT SPAN adjustments are located in the upper right corner under the top plate of the SST-2000A/H.
PROP
PROP OUT SPAN
A     Apply 100% of full-scale frequency to terminals 5 (+) & 6 (-).
5 Turn PROP OUT SPAN adjust potentiometer (See example below)
to yield 100% of full-scale proportional output on the voltmeter .
6 Repeat steps 2, 3, 4, and 5 three or four times to assure accuracy.
EXAMPLE: A unit calibrated for 0-500 Hz input is being recalibrated to 0-10 Vdc proportional output (from 4-20 mAdc proportional output).
•
* Apply 10% of full-scale (50 Hz) to terminals 5 (+) a 6 (-).
» Adjust PROP OUT SPAN adjust potentiometer to yield 1 .000 Vdc on the voltmeter.
* Apply full-scale frequency (500 Hz) to terminals 5 (+) &
* Turn PROP OUT ZERO adjust potentiometer to yield 10.00
Vdc.
* Repeat 3 or 4 times for accuracy.
Calibrating the Speed Switch
Programming Set Points and Relays
Remove the top plate from the SST-2000A/H to reveal DIP switches B and C.
Use DIP switches B and C to program relay set points to:
* energize (OFF) / de-energize (ON) on alarm
* non-latch (OFF) / latch (ON) on alarm
+ actuate SPST (OFF) / DPDT (ON) trip on alarm
* change proportional voltage output
 
Fig. 4-11    The DIP switch settings available to you depend on the model of speed switch you purchased:
4 SST-2400A/H series switches have four set point relay adjustments (DIP switches B and C).
* SST-2200A/H series switches only
have relays 1 and 2 (adjustable
using DIP switch C).
* SST-2000A/H switches have no set
point relays.
S.P. 3 O/S
S.P. 4 O/S
S.P. 4 DE
S.P. 3 DE
S.P. 1 DPDT
S.P. 4 LATCH
S.P. 2 DPDT
S.P. 3 LATCH
8    8  
7    7  
6    6  
5  B   5  C
4    4  
3  o   3  o
2  F   2  F
1  F   1  F
S.P. 1 DE S.P. 2 O/S S.P. 2 LATCH S.P. 1 LATCH S.P. 1 O/S S.P. 2 DE 10V PROP. OUT 5V PROP. OUT
The underside of the top plate contains labels for each DIP switch setting.
Resetting a latched relay
To momentarily reset a latched relay, jumper terminals 32 and 7.
Chapter 4
Set points 3 a 4 and selecting DPDT trip
WHEN ALL B SWITCHES ARE OFF
* relays 3 and 4 are
energized,
underspeed
* non-latching
4 all relays are SPST
EXAMPLE: To set relays 3 and 4 to actuate, de-energize, and latch on overspeed, turn on B1, B3, B5, B6, B7, and B8.
THE EFFECT OF TURNING B SWITCHES ON
Turn on B to...
B1  LATCH set point 3 on alarm
B2  ACTUATE relay 4 simultaneously with relay 2, C contacts for set point 2 (DPDT relay).  creating two Form
B3  LATCH set point 4 on alarm
B4  ACTUATE relay 3 simultaneously with relay 1 , C contacts for set point 1 (DPDT relay).  creating two Form
B5  DE-ENERGIZE relay 3 on alarm
B6  DE-ENERGIZE relay 4 on alarm
B7  ACTUATE set point 4 on overspeed.
B8  ACTUATE set point 3 on overspeed.
Set points 1 a 2: 0-5 a 0-10 Vdc proportional output
WHEN ALL C SWITCHES ARE OFF
THE EFFECT OF TURNING C SWITCHES ON
the proportional output is 4-20 mA
relays 1 and 2 are
energized,
underspeed
non-latched
Turn on C to...
Change proportional output to 0-5 Vdc*. Confirm C2 is OFF.
Changes proportional output to 0-10 Vdc*. Confirm C1 is OFF.
DE-ENERGIZE relay 2 on alarm.
ACTUATE relay 1 on overspeed, non-latch.
EXAMPLE: To change the proportional output to 0-10 Vdc, and set relay 2 to actuate, energize, and latch on overspeed, turn on C2, C6, and C7.
LATCH relay 1 on alarm.
LATCH relay 2 on alarm.
ACTUATE relay 2 on overspeed, non-latch.
C8    DE-ENERGIZE relay 1 on alarm.
Requires recalibration.
Calibrating the Speed Switch
Adjusting Signal Sensitivity
Desensitizing Standard Inputs
Signal sensitivity is factory set to 25 mVrms (about 35 mV peak or 70 mV peak-to-peak) and satisfies most applications.
Fig. 4-12    The
signal sensitivity control is located under the A DIP switch.
FREQUENCY RANGE SWITCH
AFTER SETTING RANGE SWITCH "A", TRIM FOR 10.0V AT OPEN TERMINALS 8 5 7 AT FULL SCALE FREQUENCY.
5    A
4
3        C 2         I
1 f
SIGNAL
SENSITIVITY
Higher sensitivities can be more vulnerable to noise.
To raise sensitivity Turn the SIGNAL SENSITIVITY potentiometer (Fig. 4-12) clockwise. At full clockwise rotation, sensitivity is approximately 5 mVrms.
To lower sensitivity Turn the SIGNAL SENSITIVITY potentiometer counterclockwise. At full counterclockwise rotation, the sensitivity is approximately 100

mVrms.
Desensitizing Contact Closure
Jumper terminals 30 and 11 to desensitize the unit to about 1 Vrms. Signal Sensitivity pot setting does not affect this procedure.
Fig. 4-13    Jumper terminals 11 to 30 to desensitize the SST-2000A/H for contact closure input.
-™[_^  4   20  NC
SIGNAL [~     **  5   21  C
INPUT    |    6  METER CALIBRATE  22  NO
0-1 MA                    I      "*  7  ©  23  NC
METER OUTPUT I      +  8   24  C
PROPORTIONAL I      ^  9  o         o  25  NO
MAIN OUTPUT      |      +  10  ^                   v^y
1                                          2  26  NC
+14 VDC OUTPUT              +     
 11*   Zf  
SETPOINTI.^  12  ©  28  NO
SETPOINT2   4   
:       :  13   29  
:        :                         SETPOINT3  A A   *^n  JUMP
:   ADJUSTMENTS   FORC
:        :        •                SETPOINT4     JUMP
:       :       :       :  15   31  TODI
 JUMP
VERIFY SETPOINTS  16   32  RESE
 
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2013.3.6