IGBT based voltage source converter
Abstract: matrix converter bidirectional switches IGBT inverters circuit diagram igbt diode matrix diagram "bidirectional switches" IGBT SiC IPM inverter circuit using IGBT module diode gen 52 Mitsubishi SiC IPM module
Text: source inverters, and AC switches. A prototype module configured for the matrix converter application , : Reverse Conducting type IGBT MConverter: Matrix Converter HEV Inverter: Inverter systems for hybrid , APPLICATIONS AC Source Figure 3: Matrix Converter Topology Figure 4: IGBT based AC switching , requirement places further limits on the power density that can be achieved. The matrix converter topology , conventional IGBT is to be used in the matrix converter topology it is necessary to use a series connected

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2003  TA8106F
Abstract: No abstract text available
Text: frequency are applied to the terminal of L / R. These are transformed by the matrix converter into the , ) Matrix converter The matrix ratio is determined by the amplifier A1, A2, as shown in Fig.4. Each of the output currents, which have a ratio (1 : ), is formed by A1, A2. The outputs of matrix converter , which , (c) V(b) are fed into the matrix converter . Thus the DC offset voltages are reduced. This system is , . High power output capability according to adopting the matrix drive method. Po (1) = 14mW / ch (typ

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TA8106F
TA8106F

TT 32N 600
Abstract: matrix converter KIA6206F RL32g
Text: are applied to the terminal of L/R. These are transformed by the matrix converter into the outputs, as , . (2) Matrix Converter The matrix ratio is determined by the amplifier Al, A2 as shown in Fig.4. Each , DC terminal voltage in each. 11 = K (VÂ®  VÂ®) 12 = K (VÂ©  VÂ®) are fed into the matrix converter , capability according to adopting the matrix drive method. PouTd)=14mW/ch(Typ.) at Vin(r)=Vin(l) Mode PouT(2 , KIA6206F SUMMARY OF MATRIX DRIVE METHOD Though the BTL is usually used to obtain enough power at low

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KIA6206F
KIA6206F
14mW/ch
10dBV
TT 32N 600
matrix converter
RL32g

KIA6206F
Abstract: No abstract text available
Text: transformed by the matrix converter into the outputs, as following : VÂ® = L ffR VÂ® =  a (L+R) VÂ© = RaL , output is connected to the next stage through the emitter follower. (2) Matrix Converter The matrix , a ratio (1 a), is formed by Al, A2. The outputs of matrix converter , which are previously mentioned , in each. 11 = K (V(D  VÂ®) 12 = K (VÂ©  VÂ®) are fed into the matrix converter . Thus the DC , ¢ High power output capability according to adopting the matrix drive method, PouT(D=14mW/ch(Typ.) at

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KIA6206F
KIA6206F
14mW/ch

8202 rq block diagram
Abstract: 8202 rq 8202 rq circuit diagram li3033 TA8106F
Text: audio frequency are applied to the terminal of L /R. These are transformed by the matrix converter into , ) Matrix converter The matrix ratio is determined by the amplifier A<, A2, as shown in Fig.4. Each of the output currents, which have a ratio (1 : a), is formed by A, A2. The outputs of matrix converter , which , ©VÂ©) are fed into the matrix converter . Thus the DC offset voltages are reduced. This system is , ¢ High power output capability according to adopting the Matrix Drive Method. â po(1) = 14mW/ch (Typ

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TA8106F
TA8106F
14mW/ch
8202 rq block diagram
8202 rq
8202 rq circuit diagram
li3033

8202 rq block diagram
Abstract: 8202 rq TA8106F
Text: the terminal of L /R. These are transformed by the matrix converter into the outputs, as following , subject to change without notice. 19970707 2/8 TOSHIBA TA8106F (2) Matrix converter The matrix , ratio (1 : a), is formed by A, A2. The outputs of matrix converter , which are previously mentioned , matrix converter . Thus the DC offset voltages are reduced. This system is effective more than about 1.2V , ¢ High power output capability according to adopting the Matrix Drive Method. "P0(1) = 14mW/ch (Typ.) at

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TA8106F
TA8106F
14mW/ch
SSOP16P2251
8202 rq block diagram
8202 rq

8106F
Abstract: 8106
Text: are transformed by the matrix converter into the outputs, as following ; / V@ = L  aR L, R input ,  2/8 TOSHIBA TA8106F (2) Matrix converter The matrix ratio is determined by the , by A], A 2 The outputs of matrix converter , which are previously mentioned, are I V@ = L  aR V(g) = , DC terminal voltages in each h = K (v @ v ® ) l2 = K (V©  V@) are fed into the matrix converter , output capability according to adopting the Matrix Drive Method. P0 (i) = 14mW/ch (Typ.) at Vjn (r) = Vjn

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TA8106F
TA8106F
14mW/ch
SSOP16P2251
8106F
8106

Not Available
Abstract: No abstract text available
Text: content. When the filter is producing decimated luminance it acÂ cepts data from the matrix converter , filter is applied to the matrix converter without further rounding. The response given by the filter is , chrominance proÂ duced by the matrix converter , the inputs are represents by either 8 or 9 signed integer , interpolated data to the matrix converter , the least significant 10 integer bits are selected out of the 15 , 255 for each component. If the coefficients in the matrix converter are defined for a restricted

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VP510
VP2611
VP2615
VP520S
VP510CG
VP510
QG2753D

Not Available
Abstract: No abstract text available
Text: decimated luminance it acÂ cepts data from the matrix converter with 9 signed integer bits plus 3 , the matrix converter without further rounding. The response given by the filter is shown in Figure 3 , filters are used to decimate chrominance proÂ duced by the matrix converter , the inputs are represents , . When the filter is used to supply interpolated data to the matrix converter , the least significant 10 , matrix converter are defined for a restricted input range then this m ust be guaranteed by the user

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VP510
VP510
37bfl522

F54 ONS
Abstract: No abstract text available
Text: luminance it acÂ cepts data from the matrix converter with 9 signed integer bits plus 3 fractional bits , duced by the matrix converter , the inputs are represents by either 8 or 9 signed integer bits plus 3 , to the matrix converter , the least significant 10 integer bits are selected out of the 15 outputs , coefficients in the matrix converter are defined for a restricted input range then this must be guaranteed by , subtracted from the Cr and Cb channels before they are applied to the matrix converter . Note that if the

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DS35071
VP510
VP2611
VP2615
VP520S
VP510CG
VP510
F54 ONS

1996  CCIR601
Abstract: No abstract text available
Text: . The 13 bit output from the filter is applied to the matrix converter without further rounding. The , INTEGER BITS 10.3 To Matrix Converter in Interpolate Mode ROUND 10.0 50 0.1 60 0.05 , the calculation. When the filters are used to decimate chrominance produced by the matrix converter , plus 3 fractional bits. When the filter is used to supply interpolated data to the matrix converter , . If the coefficients in the matrix converter are defined for a restricted input range then this must

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VP510
DS3507
VP510
CCIR601

1996  Not Available
Abstract: No abstract text available
Text: is producing decimated luminance it accepts data from the matrix converter with 9 signed integer bits , the 9.3 format used previously. The 13 bit output from the filter is applied to the matrix converter , Specification Quantized Coefficients, FP Data ROUND 15.3 SELECT 10 INTEGER BITS 10.3 To Matrix Converter in , to decimate chrominance produced by the matrix converter , the inputs are represents by either 8 or 9 , interpolated data to the matrix converter , the least significant 10 integer bits are selected out of the 15

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VP510
DS3507
VP510

1995  Not Available
Abstract: No abstract text available
Text: matrix converter with 9 signed integer bits plus 3 fractional bits ( 9.3 ). Since luminance is always , . The 13 bit output from the filter is applied to the matrix converter without further rounding. The , INTEGER BITS 10.3 To Matrix Converter in Interpolate Mode 50 0.1 60 0.05 70 0.0 , the calculation. When the filters are used to decimate chrominance produced by the matrix converter , plus 3 fractional bits. When the filter is used to supply interpolated data to the matrix converter

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DS3507
VP510
VP510

1996  CCIR601
Abstract: VP2611 VP2615 VP510 VP520S
Text: . The 13 bit output from the filter is applied to the matrix converter without further rounding. The , INTEGER BITS 10.3 To Matrix Converter in Interpolate Mode ROUND 10.0 50 0.1 60 0.05 , the calculation. When the filters are used to decimate chrominance produced by the matrix converter , plus 3 fractional bits. When the filter is used to supply interpolated data to the matrix converter , . If the coefficients in the matrix converter are defined for a restricted input range then this must

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VP510
DS3507
VP510
CCIR601
VP2611
VP2615
VP520S


1996  CCIR601
Abstract: VP2611 VP2615 VP510 VP520S
Text: accepts data from the matrix converter with 9 signed integer bits plus 3 fractional bits ( 9.3 ). Since , previously. The 13 bit output from the filter is applied to the matrix converter without further rounding , and Data 40 SELECT 10 INTEGER BITS 10.3 To Matrix Converter in Interpolate Mode ROUND , by the matrix converter , the inputs are represents by either 8 or 9 signed integer bits plus 3 , to the matrix converter , the least significant 10 integer bits are selected out of the 15 outputs

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VP510
DS3507
VP510
CCIR601
VP2611
VP2615
VP520S

1996  oen 46 05 2ce
Abstract: F54 ONS uv diode B4 CCIR601 VP2611 VP2615 VP510 VP520S
Text: . The 13 bit output from the filter is applied to the matrix converter without further rounding. The , INTEGER BITS 10.3 To Matrix Converter in Interpolate Mode ROUND 10.0 50 0.1 60 0.05 , the calculation. When the filters are used to decimate chrominance produced by the matrix converter , plus 3 fractional bits. When the filter is used to supply interpolated data to the matrix converter , . If the coefficients in the matrix converter are defined for a restricted input range then this must

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VP510
DS3507
VP510
oen 46 05 2ce
F54 ONS
uv diode B4
CCIR601
VP2611
VP2615
VP520S

2008  Not Available
Abstract: No abstract text available
Text: file no. E63532 Typical Applications â¢ Matrix Converter â¢ Resonant Inverter â¢ Current , 150Â°C Rth(jc)D â¢ Matrix Converter â¢ Resonant Inverter â¢ Current Source Inverter 1.6

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SEMiX402GAL066HDs

2008  semikron ms 8/4
Abstract: No abstract text available
Text: Applications · Matrix Converter · Resonant Inverter · Current Source Inverter IFRM IFRM = 2xIFnom , Temperature sensor R100 · Matrix Converter · Resonant Inverter · Current Source Inverter Tc

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SEMiX302GB066HDs
E63532
semikron ms 8/4

2008  SEMIX101GD066
Abstract: cal 3200 SEMIX101GD066HD c151a SEMIX101GD066HDS
Text: Applications · Matrix Converter · Resonant Inverter · Current Source Inverter IFRM IFRM = 2xIFnom , w · Matrix Converter · Resonant Inverter · Current Source Inverter Remarks · Case temperature

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SEMiX101GD066HDs
E63532
SEMIX101GD066
cal 3200
SEMIX101GD066HD
c151a
SEMIX101GD066HDS

2008  Not Available
Abstract: No abstract text available
Text: Characteristics â¢ Matrix Converter â¢ Resonant Inverter â¢ Current Source Inverter Symbol It(RMS , Tc=100Â°C (R25=5 kâ¦) 0,493 Â±5% kâ¦ â¢ Matrix Converter â¢ Resonant Inverter â

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SEMiX402GB066HDs

2009  Not Available
Abstract: No abstract text available
Text: Module Typical Applications* Visol â¢ Matrix Converter â¢ Resonant Inverter â¢ Current , Typical Applications* â¢ Matrix Converter â¢ Resonant Inverter â¢ Current Source Inverter V 1

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SEMiX603GB066HDs

Positive Temperature Coefficient
Abstract: No abstract text available
Text: Applications · Matrix Converter · Resonant Inverter · Current Source Inverter IFRM IFRM = 2xIFnom , Matrix Converter · Resonant Inverter · Current Source Inverter Remarks · Case temperature limited

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SEMiX202GB066HDs
E63532
B100/125
R100exp
B100/125
1/T1/T100)
Positive Temperature Coefficient

SEMIX302GB066HDS
Abstract: No abstract text available
Text: Applications · Matrix Converter · Resonant Inverter · Current Source Inverter IFRM IFRM = 2xIFnom , R100 · Matrix Converter · Resonant Inverter · Current Source Inverter Tc=100°C (R25=5 k) 0

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SEMiX302GB066HDs
E63532
B100/125
R100exp
B100/125
1/T1/T100)
SEMIX302GB066HDS

2009  Not Available
Abstract: No abstract text available
Text: Applications* IFnom Tj IF Tj = 175 Â°C IFRM â¢ Matrix Converter â¢ Resonant Inverter â , coefficient â¢ UL recognised file no. E63532 Typical Applications* â¢ Matrix Converter â¢ Resonant

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SEMiX603GAR066HDs

2008  SEMiX402GAL066HDs
Abstract: cal 3200 C397
Text: Typical Applications · Matrix Converter · Resonant Inverter · Current Source Inverter Remarks · , Typical Applications · Matrix Converter · Resonant Inverter · Current Source Inverter ns 125

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SEMiX402GAL066HDs
E63532
SEMiX402GAL066HDs
cal 3200
C397
