SKHI 61 (R) ... Absolute Maximum Ratings Symbol Conditions Values Units 9 * 1 3< * 3 8 8 '/7 : ;/( 5 5; ; @;; 3 3 $9A ' $%C 5;; ';; - # ! * ! # ! $ #! &- = 6) 82 > ! ? &+ 4 @.) # ! *+,- & '5;; *+,-) B " # ! & " ") * # ! &5 2 3) * # ! ' 5 &5 2 3) ! B+ ! B+ 82 ! ! - = 6 ! - 6 ! '; '; ;/F ' G; 222 : = D D C C 6 -! ! G; 222 : = 6 "#%" SEMIDRIVERTM Sixpack IGBT and MOSFET Driver ! " # $ % ! "# ! &'() % Typical Applications # *+,- " . - " "! / # "#/ 01 / 2 1) 3 - 4 56 '/7 " 2 8 ! * '5 B+ B+ E % SKHI 61 (R) Features Characteristics Symbol Conditions * ') -: B +& ) +& ) B+ 3* "& )* "& )* "&) BBB - $ -,. > 98,8- - - 56/ > " min. # ! 'G/G " '7; " 2 * " # ! &9!) G/; * " # ! &HI) * - ! # ! - ! # ! * ! 3* > ! ? * ! ;/( * ! ;/( ! '/' F * $ "" "K B # ! ! ,$! ! " - ,> . - G;6 >! typ. max. Units '/; '/7 5;; G; 3 3 $D $D 9A J J J C C C . ';7 ! '/ 7; 'G/@ 7/ 5; = ;/G ;/G '/( ' $ /= (/ G; ' @ ;/7 ;/7 '/ 5F G/' 5;8F8''G This technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee expressed or implied is made regarding delivery, performance or suitability. 1 25-05-2007 MHW http://store.iiic.cc/ (c) by SEMIKRON SKHI 71 (R) ... Absolute Maximum Ratings Symbol Conditions Values Units 9 * 1 3< * 3 8 8 '/7 : ;/( 5 5; ; @;; 3 3 $9A ' $%C 5;; ';; SKHI 71 (R) B+ B+ E % Preliminary Data - # ! * ! # ! $ #! &- = 6) 82 > ! ? &+ 4 @.) # ! *+,- & '5;; *+,-) B " # ! & " ") * # ! &5 2 3) * # ! ' 5 &5 2 3) ! B+ ! B+ 82 ! ! - = 6 ! - 6 ! -! ! "#%" SEMIDRIVERTM Sevenpack IGBT and MOSFET Driver Features ! " # $ % ! "# ! &'() % Typical Applications # *+,- " . - " "! / # "#/ 01 / 2 1) 3 - 4 56 '/7 " 2 8 ! * '5 Characteristics Symbol Conditions * ') -: B +& ) +& ) B+ 3* "& )* "& )* "&) BBB - $ -,. > 98,8- - D D C C 6 G; 222 : = 6 - 56/ > " min. # ! 'G/G " 5(; " 2 * " # ! &9!) G/; * " # ! &HI) * - ! # ! - ! # ! * ! 3* > ! ? * ! ;/( * ! ;/( ! '/' F * $ "" B # ! ! ,$! ! " - ,> . - G;6 >! '; '; ;/F ' G; 222 : = typ. max. Units '/; '/7 5@; ; 3 3 $D $D 9A J J J C C C . ';7 ! /; '/ 7; 'G/@ 7/ 5; = ;/G ;/G '/( ' $ /= (/ G; ' @@ ;/7 ;/7 '/ 5F G/' 5;8F8''G This technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee expressed or implied is made regarding delivery, performance or suitability. 1 25-05-2007 MHW http://store.iiic.cc/ (c) by SEMIKRON PIN array Primary side PIN array Pin Symbol Function Pin Symbol Function 01 BS Auxiliary earth connection 11 +15V Supply voltage 02 BOT3 Driver signal BOT HB3 12 +15V Supply voltage 03 TOP3 Driver signal TOP HB3 13 TDT1 Deadtime bit #1 04 BOT2 Driver signal BOT HB2 14 TDT2 Deadtime bit #2 05 TOP2 Driver signal TOP HB2 15 SEL Deadtime on/off 06 BOT1 Driver signal BOT HB1 16 BSTD Aux. earth for deadtime adjustment 07 TOP1 Driver signal TOP HB1 17 _ERRIN _External error signal input 08 _ERR _Error output Sixpack-driver 18 NC reserved 09 BSS System earth connection 19 BRK Driver signal additional switch 10 BSS System earth connection 20 _BERR _Error output additional switch connection primary side connection secondary side Fig. 1 Bottom view of the SKHI 61 / SKHI 71 Secondary side PIN array Pin Symbol Function Pin Symbol Function 01 RGate Gate resistor input 04 VCET 2 VCE-threshold #2 02 VCET 1 VCE-threshold #1 03 E Emitter input 09 VCE Collector input 2 Driver Electronic - PCB Drivers 25-05-2007 http://store.iiic.cc/ (c) by SEMIKRON SEMIDRIVERTM Error output signals SKHI 61 and SKHI 71 i) 6pack - driver General properties and functions The error signal of the 6-PACK driver is equipped with an active push-pull output buffer which switches towards zero Volt in case of an error and actively towards + 5 V under operating conditions. The error memory may only be reset, if no error is pending and all cycle signal inputs are set to LOW for t > 9 s at the same time. If any other external signals are intended to be connected to the error signal _ERR, the _ERR-signal must be uncoupled (see Figure 2) . The SKHI 61 and SKHI 71 are 6- and 7-channel drivers for IGBT- and MOSFET-modules and can be soldered directly onto the PCB. The drivers are physically separated. Since all subassemblies necessary for operation have been integrated, there is no need for external components except for the gate resistors and the VCE-circuitry. VCE-thresholds and the blanking time are adjustable by integrating additional resistors and capacitors according to the customer's specifications. Interlocking time can be adjusted by simple bridging of connector pins. The driver is equipped with a separate error input for immediate turn-off when receiving error signals from external components (e.g. over-temperature). The independent seventh driver channel of the SKHI 71 guarantees for simple realisation of brake chopper, boost converter or PFC-circuit applications. By bridging of connector pins the driver error signal is transmitted directly to the SIXPACK-driver for turn-off. Technical information Fig. 2 _ERR-Signal in an open-collector"-circuit I. Primary side The driver input signals may be transmitted directly to the driver inputs by the controller. The input signal circuit was designed to accept a wide voltage range (see table 1). The typical voltage level is at HCMOS level of VDD=5V (0V=Off, +5V=On). State Level / V _ERROR Error However, also 15V-signals may be applied with the same turn-on/turn-off thresholds without additional requirements. In this case the input resistance will be different (see table 1). No error Status Level / V min typ I / mA Typical error memory set back time max max 6-PACK seventh driver 0 0.8 5 16s 7s 4 5 5 min Table 2: Error output signal ratings Input Impedance max Ch. 1-6 Ch7 ON 5V 4,0 5,0 5,5 60 k 2,4 k ON 15V 4,0 15,0 15,6 7 k 1,6 k OFF 0V -0,7 0 1,5 60 k 2,4k Table 1: Input voltage level and input impedances Error input signal The error input signal can gather error signals of other hardware components, such as temperature sensors, in a "wired-or"-connection for direct turn-off of the driver. In this case an external pull-up resistor must not be connected. Note: It is not possible to connect the error output of the SKHI 61/71 to an error input of the SKHI 61/71. But the error output of the chopper driver (SKHI 71) can be connected directly to the error input. ii) chopper driver (only SKHI 71) The error output signal of the additional driver has been designed as an open collector output. A pull-up resistor against the controller's +VCC has to be connected to the controller input for error indication. In case of error, the signal is turned towards earth (zero Volt/ active LOW), otherwise the output will be highly resistive. The error signal of the additional switch will only be active as long as the input signal is on High-level. It is not logically connected to the other six input signals. The error signal of the additional switch may also be directly connected to the error input of the SIXPACK-driver, without requiring an external pull-up resistor. This may be advantageous, if the SIXPACK-driver has to be turned off in case of e.g. a brake chopper error or if only one error signal is evaluated by the controller. (c) by SEMIKRON 25-05-2007 Driver Electronic - PCB Drivers http://store.iiic.cc/ 3 Configuration pins The configuration pins serve to adjust the TOP/BOTTOM interlocking time of all halfbridges. Due to the special pin design the interlocking time can be adjusted by a simple connection to the BSTD terminal (BSS potential) on the PCB without requiring external components. 2 s 1 s no inter-loc k )+ open GND GND X GND open GND X open open open GND Pin 4s 3 s (factory set) TDT1 open TDT2 open SEL open t blank [ s ] ( 72,75 + R VCE [ k ] ) - 0,1 C VCE [ nF ] = --------------------------------------------------------------------------------( R V CE [ k ] + 4,75 ) 36,08 Equation 2 The VCE-threshold cannot be increased, so that the preset value of 5,8 V is the maximum value. VCE-monitoring can also be suppressed by connecting the collector pin VCE of one driver to the belonging emitter pin E and not to the collector of the power semiconductor. 5V Table 3: Values for interlocking time adjustment X" = no effect )+ TOP and BOTcan be switched simultaneously! Equation 1 11, 86 R VCE [ k ] = ------------------------------------- - 4,75 5, 4 - 0,93 V CE TOP 0V 5V t pERRESET BOT 0V 5V Error t dERR t dIO 0V 14,9V II. Secondary side We have provided for five terminals per input. Two of them are required for driving the IGBT, one is for short-circuit protection. The remaining two have been designed for optional adjustment of the VCE-threshold. 0V Vce- ERROR with Soft Turn Off t TD TOP -6,5V Gate- Emitter 14,9V tblank+0,3us t soft turn off BOT 0V t>t Gate- Emitter IGBT-driver signals TD -6,5V We have provided for one gate- and one emitter input pin per power switch, i.e. there is one gate resistor for turn-on and turn-off each. The earth connection of the driver is directly connected to the IGBT's emitter via the emitter input, whereas a resistor of at least 10 has to be connected to the gate circuit. This resistance is the minimum limit value controlled by the driver output buffer in order to limit the pulse currents to their peak value. Fig. 3 Course diagram: TOP and BOT-inputs and signal Error compared to TOP and BOT-Gate-Emitter-signal (valid for all halfbridges). A 20 k-resistor has been interconnected between gate and emitter (for the case that the supply voltage breaks down). Gate-Emitter-voltage min Typ max Unit OFF (neg.) -10 -6.5 -5 V ON 14,4 14,9 15,4 V Temperature drift 12 14 16 mV/K Table 4: Gate-emitter-voltage at TA = 25 C Fig. 4 Connection principle of a power switch with a specifically adjusted V CE-threshold VCE -threshold and VCE -monitoring VCE-monitoring is done by connection of the driver collector pin to the collector of the power semiconductor. This can be done by attaching a capacitor (value to be calculated by equation 2) between VCE-threshold (pin 2) and earth (pin 3). The VCE-threshold may be adjusted to a minimum value of about 3 V (RVCE = 0 ). 50 kHz switching frequency If the turn-off threshold for short-circuit protection is to be reduced (standard 5,8 V), a resistor has to be connected between the VCET1-threshold#1 pin 2 and VCET2threshold#2 pin 4 (see fig. 4; Value to be calculated by equation 1). Please do not forget to adapt the blanking time1 accordingly. 60 kHz 40 kHz 30 kHz Ta = 85C 20 kHz Ta = 55C 10 kHz 0 kHz 0,0 C 0,1 C 0,2 C 0,3 C 0,4 C 0,5 C 0,6 C 0,7 C 0,8 C 0,9 C 1,0 C 1,1 C 1,2 C gate charge 1. Blanking time: time between turn-on semiconductor and V CE-registration 4 of the power Fig. 5 Maximum rating for output gate charge per pulse Driver Electronic - PCB Drivers 25-05-2007 http://store.iiic.cc/ (c) by SEMIKRON * VCE-threshold : 4,8 V * Interlocking time : 2 s * Error blanking time for VCE-threshold : 4 s 15 Application Hints To adjust different VCE thresholds there is needed an additional resistor RVCE and a capacitor C VCE for each switch. Fig. 6 Maximum cycling frequency at QGE = 1000 nC vs temperature The application range can be calculated by the average output current of 20 mA and the repetetive acceptable peak current of 2 A. It has to be considered that the curves are valid for Qgmax = 1 C only. The maximum switching frequency fmax may be calculated with the following formula, the maximum value however being 50 kHz due to switching reasons: Gate resistor : RG = 33 VCE-threshold resistor: intended UVCE = 4,8 V Applying equation 1 RVCE will result in 11,86 - - 4,75[k ] = 7,9k R VCE [ k ] = ---------------------------------5,4 - 0,93 4,8 fmax (kHz) = 2*104 / QGE (nC) Next value taken from the E24-range: 8,25 k. The threshold voltage is recalculated with 8,25 k. operating the SKHI 61: besides the operating voltage only the six driver signals TOP1...BOT3 and the driver error output signal are connected to the controller on the primary side. The secondary side is working with the preset VCE-threshold of 5,8 V. VCE-threshold at 4,82 V. Fig. 7 and 8 show examples for connection of a SKHI 71 for the application with MiniSKiiP (SKiiP 32 NAB 12) and the following adjustments: * Temperature monitoring of the power semiconductor For the capacitor the blanking time may be calculated as: tblanking = 4 s 4 ( 72,75 + 8,25 ) C V CE [ nF ] = -------------------------------------------------- - 0,1 = 590pF ( 8,25 + 4,75 ) 36,08 Thus there can be chosen a capacitor of 680 pF. Fig. 7 SKHI 61 block diagram (c) by SEMIKRON 25-05-2007 Driver Electronic - PCB Drivers http://store.iiic.cc/ 5 Fig. 8 Examply circuit for a SKHI 71 connected to the primary side NOTE: If the _ErrorOut-signal of the additional switch (here brake chopper) is also needed for other evaluations, a Schottky diode has to be connected as shown in the figure above to uncouple the signal. Furthermore there has to be connected a pull-up resistor to the additional error output. It is useful to use a capacitor (typ. 100 pF, absolute maximum 2,2 nF) at the _ErrorIn to avoid undesired couplings. Fig. 9 Dimensional drawing, layout View: tooling side (top view, driver put on top of the PCB) Measurements taken in [mm] Grid of connector pins; gaps between pins: RM2,54 Pin dimensions : 0,64 mm x 0,64 mm ; length 3,2 mm 6 Driver Electronic - PCB Drivers 25-05-2007 http://store.iiic.cc/ (c) by SEMIKRON Fig. 10 Measurements in [mm] for solder pads (as a proposal for the design) and solder pad gaps (partial drawing) Mounting Hints The temperature of the solder must not exceed 265C, and solder time must not exceed 4 seconds. The ambient temperature must not exceed the specified maximum storage temperature of the driver. The driver is not suited for hot air reflow or infrared reflow soldering processes. The driver hast two drill holes (inner diameter: 1,8mm) for fixing the driver on PCB with self tapping screws 30x8 (e.g. EJOT PT). The maximum immersion depth of the screws may not exceed 9 mm. The details of screw head design can be chosen by the user. All electrical and mechanical parameters should be validated by users technical experts for each application. This technical information specifies devices but promises no characteristics. No warranty or guarantee expressed or implied is made regarding delivery, performance or suitability. (c) by SEMIKRON 25-05-2007 Driver Electronic - PCB Drivers http://store.iiic.cc/ 7