ALSTOM PIB102A控制卡件
DCF 600裝置范圍旨在用于提供電機磁場,并基于硬件和DCS 600裝置的系統配置。該軟件與DCS 600軟件相同。類似于DCF500個單元需要DCF 505/506過壓保護單元。相同的修改適用于引腳1x/引腳2x板,與DCF 500相比。
DCS 400簡介
DCS 400是同類中最小的驅動器。緊湊的設計部分通過完全集成的
基于IGBT技術的勵磁機。調試向導-可在控制面板和PC上使用工具-使驅動器的啟動變得容易。此外,DCS 400包含應用宏。監控DCS 500功率段a。尺寸為C1和C2的功率段為:由電氣隔離PTC熱敏電阻檢測器監控,該檢測器安裝在晶閘管附近的電隔離散熱器。電阻變化與在中獲取和評估溫度該單元的軟件。如果溫度高于單位編碼預定義的特定值則首先將輸出警報,如果溫度繼續上升,則錯誤消息。這意味著額定冷卻條件,如冷卻空氣體積和溫度、風扇本身、過載由于過高的負載電流等檢測。b、 同樣,對尺寸為C3的功率段進行監控通過安裝在非隔離熱上的電隔離PTC熱敏電阻檢測器通過適配器板和隔離盤。
評價電阻和保護效果對應于上文
(a.)點所述的電阻和保護效應。c、 尺寸為C4的電源部分不直接由電隔離PTC熱敏電阻監控探測器對于這種尺寸,使用與上述(a.)和(b.)相同的熱敏電阻檢測器,但不是安裝在散熱器上,而是安裝在裝置外殼位于上部進氣區。這個因此,探測器測量功率部分的輻射熱和冷卻空氣中的任何變化溫度和體積。由于冷卻空氣
只能間接檢測容積,另外安裝了壓差開關在單位的住房。
電阻變化與在中獲取和評估溫度該單元的軟件。如果溫度高于參數化值,則首先報警輸出,如果溫度持續上升-錯誤消息。要設置的值該參數不得高于允許環境溫度10度以上。
壓差開關比較裝置內的壓力為正常大氣壓。如果風扇已打開機組門關閉(無機組外殼)已拆下),壓力開關將信號“冷卻條件正常”,表示驅動器可能已啟用。沒有必要設置任何特定壓差(建議:中心設置)。
Brief description of DCF 600
The DCF 600 unit range is intended to be used for supplying motor fields and is based on the hardware and
system configuration of the DCS 600 unit. The software is identical to the DCS 600 software. Similar to DCF
500 units the DCF 505/506 overvoltage protection unit is required. The same modification is applied to the
PIN-1x/PIN-2x boards, compared to DCF 500.
Brief description of DCS 400
The DCS 400 is the smallest drive in its class. The compact design has been partly achieved by a fully integrated
field exciter based on IGBT technology. A commissioning wizard - available on the control panel and the PC
tool - makes start-up of the drive easy. In addition, the DCS 400 contains application macros.Monitoring the DCS 500 power section a.The power sections of sizes C1 and C2 are
monitored by an electrically isolated PTC thermistor detector, which is installed on the likewise
electrically isolated heat sink near the thyristors.
The resistance change proportional to the
temperature is acquired and evaluated in the
unit’s software. If the temperature rises above a
certain value predefined by the unit coding
involved, then first an alarm will be outputted,
and - if the temperature continues to rise - an
error message. This means that changes in the
rated cooling conditions, such as cooling air
volume and temperature, the fan itself, overload
due to an excessively high load current, etc. are
detected.
b.The size-C3 power section is likewise monitored
by an electrically isolated PTC thermistor detector, which is installed on the non-isolated heat
sink in an isolated configuration by means of an
adaptor plate and an isolating disk. Evaluation of
the resistance and the protection effect correspond to those mentioned for point (a.) above.
c. The size-C4 power section is not directly monitored by an electrically isolated PTC thermistor
detector. For this size, the same thermistor detector is used as for (a.) and (b.) above, but it
is here not mounted on a heat sink but at the
unit’s housing in the upper intake air zone. The
detector thus measures the power section’s
radiated heat and any changes in the cooling air
temperature and volume. Since the cooling air
volume can only be detected indirectly, a differential-pressure switch has been additionally fitted
at the unit’s housing.
The resistance change proportional to the
temperature is acquired and evaluated in the
unit’s software. If the temperature rises above the
parameterized value, then first an alarm will be
outputted, and - if the temperature continues to
rise - an error message. The value to be set for
this parameter must not be more than 10 degrees above the permissible ambient temperature.
The differential-pressure switch compares the
pressure inside the unit with the normal atmospheric pressure. If the fan has been switched on
and the unit door closed (and no unit casings
have been removed), the pressure switch will
signal “Cooling conditions ok”, which means the
drive may be enabled. There is no need to set
any specific differential pressure (recommendation: centre setting).
