KOREAN   |   ENGLISH 

  Market & Policy  |   Project & Contract  |   Technology & Product  |   Corporate News  |   Product News  |
  Cell & Module  |   Production & Inspection  |   Component & Power  |   Solar Material  |
  Worldwide  |   Europe  |   North America  |   APAC  |   Others  |
  Cell & Module  |   Production & Inspection  |   Component & Power  |   Solar Material  |
  Cell & Module  |   Production & Inspection  |   Component & Power  |   Solar Material  |   Agent & Dealer  |
  Free Event Listing
  2012 JUN Issue   |   What is Digital Magazine?  |  How to use  |  Archives  |  Subscription  |  iPad / Mobile  
 
  Tigo Energy

20% More Energy

Cell & Module

Production & Inspection

Component & Power

Solar Material


<JUN, Issue, 2012>
Cover Story :
DEGER equips two solar parks in Bosnia-H...
Table of
  Contents
Component & Power

Design Concept for a Transformerless Solar Inverter

This article provides some application support information for a transformerless single phase solar inverter based on the Vincotech power module: FZ06BIA045FH-P897E. The module is able to carry an output power of 6 kW but for efficiency optimization a nominal power of 3 kW is recommended.

By Michael Frisch, Temesi ErnO

 

 

Topology & Function

 

The topology is supporting the following required functions:

-Adjustment of the Maximum Power Point (MPP) of the solar string

-Inverting to sinusoidal output current and voltage

 

Booster

 

The booster is active when the solar voltage is below the peak of the power grid voltage.

In this case, the booster (T5, D8,9) sets the MPP for the Photovoltaic (PV) solar cell. When the PV MPP voltage reaches the peak of the line, the bypass diode (D7) cuts boost stage losses. The adjustment of the MPP has to be controlled by the output H-bridge inverter. The output of the booster is the DC link voltage, filtered by a capacitor (C4). This capacitor should be a parallel composition of a high tangent delta film capacitor and an electrolytic capacitor. The high frequency capacitor has to be placed close to the module pins to limit overvoltage shoots at turnoff of the MOS-FET (T2 and T4), while the electrolytic capacitor should be sized for the 100 Hz power fluctuation of the 50 Hz mains.

 

H-Bridge Inverter

 

The H-bridge works by asymmetric unipolar modulation. The high side of the asymmetric H-bridge should be driven by 50 Hz half-wave dependent on the polarity of the mains while the opposite low side is PWM modulated to form the mains sinusoidal shape.

The 10nF ceramic capacitor (C5) should be placed close to the gate-emitter pins of the high side transistors to eliminate cross through conduction due to fast switching of the low side transistors. A negative gate turn off voltage on the high side gate may also improve switching performance. The low side gate drive resistor should be selected to adjust the speed of MOSFET switching.

 

 

Output Filter and Current Sense

 

The inductors L1 and L2 are for the Differential Mode (DM) and Common Mode (CM) voltage filter. Both have a double winding, one of each in both phase connection (Figure 2).

However, one of the inductors is connected with opposite winding direction in one phase connection. In this manner the utilization of the inductor becomes more effective (Figure 3) than with single winding (Figure 4) inductors and delta capacitors, while still keeping the common mode voltage noise between line and DC link to an even lower level (Vcmd).

If the output current sense is put before the inductor (L1), the test current will be the sum of output current to grid and CM current to C1 and C2. So two current senses have to be used and put on the output line before L1. The output current to grid is determined by the sum of the two currents.

 

 

Power Module

 

For a conclusive module design, the following issues are a must:

-Low induction in the DC-link: To achieve this target, the internal inductivity caused by wire bonding, layout and module pinning has to be minimized. This means the DC+ and DC- pins in the boost circuit as well as in the output inverter have to be placed as close to each other as the standards allow.

-Sense contacts for the fast-switching power transistors: The parasitic inductance of the wire bond at switch on/off of the IGBTs or MOSFETs will reduce the gate signal. This might cause oscillations in the transistor or at least increased switching losses. The currentless sense wire, bonded directly on the source or emitter pad of the transistor chip, will eliminate the problem. This is only possible with module technology.

Figure 6 shows the Vincotech standard module flowSOL0-BI (P896-E01) which incorporates the advantages listed previously:

Technical data:

-Boost circuit with MOSFET (600V/ 45m) + SiC rectifier

-Bypass diode for maximum power (when exceeding nominal power)

-H-bridge with 50A/600V IGBTs + SiC Rectifier in the high side and MOSFET (600V/45m) in the low side

-Temperature Sensor

 

 

Efficiency

 

A simulation based on measured values of this circuit shows the following results (here are only the semiconductor losses considered):

Conditions:

-PIN = 2 kW

-fPWM = 16 kHz

-VPV-nominal = 300 V

-VDC = 400 V

The total EE for the module (booster + inverter) is 98.8%. This shows that a total efficiency, including the passive components, of 98% is reachable. Figure 8 also shows that the efficiency of the alternative full IGBT solution drops significantly at partial load.

 

Michael Frisch is Product Marketing Manager of Vincotech GmbH (www.vincotech.com).

Temesi Erno is Technical Marketing Manager of Vincotech Kft.

 

 

For more information, please send your e-mails to pved@infothe.com.

2011 www.interpv.net All rights reserved.

 
 

     Selecting Capacitors for the Energy Buffer in Solar Inverters

     Maximizing the Power of Renewables



Large manufact...
PV on grid inve...
50KW off grid i...
Home l New Product Showcase l Gold Suppliers l Trade Shows l email Newsletter l About InterPV l Help l Site Map l Partnerships l Privacy Policy
Publisher: Choi Jung-sik | Edited by: Lee Sang-yul | Youth Protection Officer: Lee Sang-yul
Copyright Notice 2004-2007 www.interpv.net Corporation and its licensors. All rights reserved.