1SD210F2
Data Sheet
1SD210F2-FZ500R65KE3
Single-Channel SCALE Plug-and-Play IGBT
Driver
Ultra compact, high-performance driver for 2-level, 3-level and
multilevel converters
Abstract
The SCALE plug-and-play driver 1SD210F2-FZ500R65KE3 is a compact
single-channel intelligent gate driver designed for Infineon’s high-voltage
IGBTs of types FZ500R65KE3(T) and FD500R65KE3T-K. The driver features a
fiber-optic interface and a selectable operation mode via a jumper.
For drivers adapted to other types of high-power and high-voltage IGBT modules, refer
to
www.IGBT-Driver.com/go/plug-and-play
Product Highlights
Applications
Plug-and-play solution
Protects the IGBT from short-circuit failure
Active clamping of V
ce
at turn-off
Extremely reliable; long service life
No electrolytic capacitors
Gate current up to –6A/+10A
Fiber-optic links
Monitoring of supply voltage and fiber optics
Switching frequency DC to max. 2.3kHz
Duty cycle 0... 100%
Suitable DC/DC power supply as separate unit
Shortens application development time
IGBT-Driver.com
Three/multi-level converters
Two-level converters
Medium-voltage converters
High-voltage applications
Industrial drives
Traction
Railroad power supplies
Wind-power converters
Radiology and laser technology
Research
Almost all other conceivable
applications
Page 1
1SD210F2
Data Sheet 1SD210F2-FZ500R65KE3
Important Notes
This data sheet contains only product-specific data. For a detailed description, must-
read application notes and common data that apply to the whole series, please refer to
the “Description and Application Manual for 1SD210F2 SCALE High-Voltage IGBT
Drivers”.
When applying SCALE plug-and-play drivers, please note that these drivers are
specifically adapted to a particular type of IGBT module. Therefore, the type
designation of SCALE plug-and-play drivers also includes the type designation of the
corresponding IGBT module.
These drivers are not valid for IGBT modules other
than those specified. Incorrect use may result in failure.
Mechanical and Electrical Interfaces
Dimensions: 156 x 79.5 mm.
Mounting Principle: Direct screw mount on IGBT.
Interface
Drive signal input (Standard)
Drive signal input (Opt. 01)
Drive signal input (Opt. 02)
Status output (Standard)
Status output (Opt. 01)
Status output (Opt. 02)
Power supply connector
Power supply connector
Ground
Supply voltage
Remarks
Fiber-optic receiver
(Notes 14,16)
Fiber-optic receiver
(Notes 14,16)
Fiber-optic receiver
(Notes 14,20)
Fiber-optic transmitter
(Notes 14,17)
Fiber-optic transmitter
(Notes 14,17)
Fiber-optic transmitter
(Notes 14,21)
On-board connector
(Note 15)
Designator
GND
(Note 19)
Part type #
HFBR-2522Z
HFBR-2522Z
HFBR-2412Z
HFBR-1522Z
HFBR-1522Z
HFBR-1412Z
77315-101-05
Pin numbers
1, 2, 4, 5
3
V
DC
Page 2
INTELLIGENT POWER ELECTRONICS
1SD210F2
Data Sheet 1SD210F2-FZ500R65KE3
Absolute Maximum Ratings
Parameter
Supply voltage
V
DC
Gate peak current
I
out
Average supply current
I
DC
Output power gate driver
Switching frequency
DC-link voltage
Operating temperature
Storage temperature
Remarks
VDC to GND
(Note 1)
Note 8
Min Max
0 17.3
-6 +10
190
225
2
2.3
4400
-40 +85
-40 +90
Units
V
A
mA
mA
W
kHz
V
°C
°C
Standard and Opt. 1
(Note 3)
Opt. 2
(Note 3)
Notes 3,11
Note 11
Note 5
Note 11
Electrical Characteristics
All data refer to +25°C and
V
DC
= 16.4V unless otherwise specified
Power supply
Nominal supply voltage
V
DC
Supply current
I
DC
Turn-on threshold
V
th
Hysteresis on/off
Short-circuit protection
V
ce
-monitoring threshold
Response time
Response time
Blocking time
Timing characteristics
Turn-on delay
t
pd(on)
Turn-off delay
t
pd(off)
Output rise time
t
r(out)
Output fall time
t
f(out)
Acknowledge delay time
Acknowledge pulse width
Remarks
VDC to GND
(Note 1)
Without load
(Note 2)
Standard and Opt. 1
Opt. 2
Note 4
Note 4
Min Typ. Max
15.5 16.4 16.8
80
115
14
1.0
Min Typ. Max
1200
10.1 10.8
10.9 11.7
1
Min Typ. Max
430
520
100
100
450
Units
V
mA
mA
V
V
Units
V
μs
μs
s
Units
ns
ns
ns
ns
ns
μs
Remarks
Between aux. terminals
3-level mode
(Notes 10,18)
2-level mode
(Notes 6,18)
2-level mode
(Note 7)
Remarks
Note
Note
Note
Note
12
12
9
9
At status output
(Note 13)
At status output
0.7
1.8
IGBT-Driver.com
Page 3
1SD210F2
Data Sheet 1SD210F2-FZ500R65KE3
Gate output
Turn-on gate resistor
R
g(on)
Turn-off gate resistor
R
g(off)
Footnotes to the key data
1)
Supply voltages higher than those specified can lead to the destruction of the driver and protection
circuits on the output side. The gate-emitter voltage tracks the supply voltage. (Not regulated by
the gate drive unit.) The recommended DC/DC power supply ISO3116I with high-voltage insulation
capability is a suitable separate unit.
Static power consumption of the gate driver.
If the specified power consumption of the gate driver is exceeded on 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 this limit,
the power modules are switched off.
This limit is due to active clamping. Refer to the “Description and Application Manual for 1SD210F2
SCALE High-Voltage IGBT Drivers”.
Pulse width of the direct output of the gate drive unit. (Excluding the delay of the gate resistors.)
Duration of blocking the command input (keeping the gate driver and the IGBT in the off-state)
after fault detection, i.e. power supply under-voltage lock out, or – only in 2-level mode – short-
circuit detection. (For three/multilevel mode, turn-off under the short-circuit condition is managed
by the host controller.)
The gate current is limited by on-board gate resistors.
Refers to the direct output of the gate drive unit. (Excluding the delay of the gate resistors.)
Including the delay of external fiber-optic links. Measured from the turn-on transition at direct
output of the gate drive unit (excluding the delay of the gate resistors) to the transition of the
status signal at the optical receiver on the host controller side.
Application-specific self-heating of gate drivers and IGBT modules, especially at high switching
frequency, must be taken into account. The switching frequency is usually limited due to the
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 given. It is therefore recommended to check the gate
driver’s ambient temperature within the system.
Including the delay of external fiber-optic links. Measured from the transition of the turn-on or
turn-off command at the optical transmitter on the host controller side to the direct output of the
gate drive unit. (Excluding the delay of the gate resistors.)
Including the delay of external fiber-optic links. Measured from the transition of the turn-on or
turn-off command at the optical transmitter on the host controller side to the transition of the
acknowledge signal at the optical receiver on the host controller side.
The transceivers required at the host controller side are not supplied with the gate driver. It is
recommended to use the same types as used in the gate driver. For product information refer to
www.IGBT-Driver.com/go/fiberoptics
The connector and cable to the DC/DC power supply are not supplied 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.IGBT-Driver.com/go/fci
The recommended transmitter current at the host controller is 30-35mA, suitable for plastic optic
fibers with a length of less than 2.5 meters. A higher current may increase jitter or delay at turn-
off.
Remarks
Min Typ. Max
1.5
10
Units
Ω
Ω
2)
3)
4)
5)
6)
7)
8)
9)
10)
11)
12)
13)
14)
15)
16)
Page 4
INTELLIGENT POWER ELECTRONICS
1SD210F2
Data Sheet 1SD210F2-FZ500R65KE3
17)
18)
19)
20)
21)
22)
The transmitter current at the gate driver is 30-35mA.
The delay from the turn-on transition at direct output of the gate drive unit to the turn-on of the
IGBT amounts to about 1.2μs (due to gate resistors). But turn-off at short circuit takes place
without delay; so the real short-circuit time is 1.2μs shorter than the response time.
GND of the power supply is not at the same electrical potential as the auxiliary emitter terminal of
the IGBT. They should never be connected together.
The recommended transmitter current at the host controller is 60mA.
The transmitter current at the gate driver is about 65mA.
In order not to violate the short-circuit SOA of the IGBT module the supply voltage should not
exceed 16.5V.
Important Notice
The data contained in this product data sheet is intended exclusively for technically
trained staff. Handling all high-voltage equipment involves risk to life. Strict compliance
with the respective safety regulations is mandatory!
Any handling of electronic devices is subject to the general specifications for protecting
electrostatic-sensitive devices according to international standard IEC 747-1, Chapter IX
or European standard EN 100015 (i.e. the workplace, tools, etc. must comply with
these standards). Otherwise, this product may be damaged.
Legal Disclaimer
This data sheet specifies devices but cannot promise to deliver any specific
characteristics. No warranty or guarantee is given – either expressly or implicitly –
regarding delivery, performance or suitability.
CT-Concept Technologie AG reserves the right to make modifications to its technical
data and product specifications at any time without prior notice. The general terms and
conditions of delivery of CT-Concept Technologie AG apply.
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