1 SD 210 FI
Data Sheet 1SD210FI-FX200R65KF1
Footnotes to the key data
1)
Supply voltages higher than specified can lead to the destruction of the driver and protection
circuits on the output side. The gate-emitter voltage tracks with the supply voltage. (Not regulated
by the gate drive unit.) The recommended DC/DC power supply ISO3116I with high voltage
isolation capability is a suitable separate unit.
2)
3)
Static power consumption of the gate driver.
If the specified power consumption of the gate driver is exceeded at average, this indicates an
overload of the gate driver and the external DC/DC power supply ISO3116I.
Under-voltage monitoring of supply voltage of the gate driver. For a voltage lower than that limit,
the power modules are switched off.
This limit is due to active clamping. Refer to “Description and Application Manual for 1SD210FI
SCALE High Voltage IGBT Drivers”.
4)
5)
6)
7)
Pulswidth of the direct output of the gate drive unit. (Not covering the delay of the gate resistors.)
Duration of blocking the command input (keeping the gate driver and the IGBT in off-state) after
fault detection, i.e. short circuit detection or power supply undervoltage lock out.
The gate current is limited by on-board gate resistors.
8)
9)
Refers to the direct output of the gate drive unit. (Not covering the delay of the gate resistors.)
10)
11) Application-specific self-heating of gate drivers and IGBT modules, especially at high switching
frequency, must be taken into account. Commonly, the switching frequency is limited due to
switching losses of the IGBT modules. Because CONCEPT cannot predict how the drivers will be
incorporated in the user’s application, no binding recommended value for self-heating and thus for
the maximum useable output power can be made. So, it is recommended to check the gate
driver’s ambient temperature within the system.
12) Including the delay of external fiber optic links. Measured from the transition of turn-on or turn-off
command at the host controller side optical transmitter to direct output of the gate drive unit. (Not
covering the delay of the gate resistors.)
13) Including the delay of external fiber optic links. Measured from the transition of turn-on or turn-off
command at the host controller side optical transmitter to the transition of acknowledge signal at
the host controller side optical receiver.
14) The transceivers required at the host controller side are not delivered with the gate driver. It is
recommended to use the same types as used in the gate driver. For product information refer to
www.semiconductor.agilent.com
15) Connector and cable to the DC/DC power supply are not delivered with the gate driver, but via FCI
inc. Recommended crimp contact housing: order code 65039-032; recommended crimp contacts: 5
pcs, order code 48236-002. Refer to www.fciconnect.com
16) The recommended transmitter current at the host controller is 30-35mA, suitable for plastic optic
fiber with a length of less than 2.5 meters. Higher current may increase jitter or delay at turn-off.
17) The transmitter current at the gate driver is 30-35mA.
18) The delay from turn-on transition at direct output of the gate drive unit to the turn-on of the IGBT
amounts to about 2ms (due to gate resistors). But turn-off at short-circuit happens without delay;
so the real short-circuit time is 2ms less than the response time.
19) GND of power supply is not the same electrical potential as the aux. emitter terminal of the IGBT
and they must never be connected together.
20) Since the IGBT FZ200R65KF1 has other mechanical dimensions, the driver cannot be direct screw
mounted on the module. The driver must be mounted at about electrical emitter potential and
connected via short wires to the aux. terminals of the module.
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