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| KA2507 WIDE BAND ANALOG SWITCH FOR MONITORS WIDE BAND ANALOG SWITCH 24-SDIP-300 The device has internal switches for switching between wideband R/G/B signals and H/V Sync. also, has an internal Sync. Seperator. INTRODUCTION * Video Input Switch for High-End Color Monitor * 5V Power Supply Voltage Operating Condition * WideBand R/G/B Video Switch (~300 MHz) * 0.7Vpp R/G/B Video Input (typ.) * TTL H/V Sync. Input * Schmitt-Trigger Input Design for H/V Sync. * Sync. Separator for SOG (Sync On Green) Input * 24-SDIP-300 Package ORDERING INFORMATION Device KA2507 Package 24-SDIP-300 Operating Temperature -25 C ~ +75 C FEATURES * * * * * * * * Total Current: 27 mA f-3dB Band Width: 300 MHz R/G/B Voltage Gain: -1.0 dB R/G/B Maximum Output Level: 2.4 Vpp Channel Crosstalk 10 MHz: -40 dB Channel Crosstalk 100 MHz: -30 dB Input Crosstalk 10MHz: -40 dB Input Crosstalk 100MHz: -30 dB 1 WIDE BAND ANALOG SWITCH FOR MONITORS KA2507 BLOCK DIAGRAM S1D2507B R1 or Red Switch Ctrl SW1 1 R1 24 SW GND1 2 R2 SW2 23 ROUT G1 3 Green Low Input SW1 Select High Input SW2 Select 22 VCC GND2 4 G1 or SOG Sync Separator 21 GOUT B1 5 G2 20 SOG Blue H1 6 B1 Enable SOG Block 19 CSYNC V1 7 + B2 or 18 DET 2.3V R2 8 H1 H Sync. 17 BOUT or GND3 9 H2 16 HOUT G2 10 V Sync. 15 VOUT GND4 11 V1 or 14 V2 B2 12 V2 13 H2 Figure 1. Block Diagram 2 KA2507 WIDE BAND ANALOG SWITCH FOR MONITORS PIN CONFIGURATIONS Table 1. Pin Configurations Pin No 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Symbol R1 GND1 G1 GND2 B1 H1 V1 R2 GND3 G2 GND4 B2 H2 V2 VOUT HOUT BOUT DET CSYNC SOG GOUT VCC ROUT SW I/O I I I I I I I I I I O O O O I O O I Red 1 Input Ground 1 (Red) Green 1 Input Ground 2 (Green) Blue 1 Input Horizontal Sync. 1 Input Vertical Sync. 1 Input Red 2 Input Ground 3 (Blue) Green 2 Input Ground 4 (HV, SOG, SW) Blue 2 Input Horizontal Sync. 2 Input Vertical Sync. 2 Input Vertical Sync. Output Horizontal Sync. Output Blue Output Horizontal Sync. Detection & SOG Mute Cap Composite Sync. Output SOG Input Green Output Power Supply Red Output Input 1, 2 Select Switch Configurations 3 WIDE BAND ANALOG SWITCH FOR MONITORS KA2507 PIN DESCRIPTION Table 2. Pin Description Pin No 1 3 5 Pin Name R1 G1 B1 7k 1.5k Schematic Description Video Input * max. Level = 2.4 V PP * f-3dB = 300 MH z 50 50 1.5k 8 10 12 R2 G2 B2 PIN 2 GND1 - Red Block Ground 4 GND2 - Green Block Ground 9 GND3 - Blue Block Ground 11 GND4 - HV, SOG, SW Block Ground 6 7 H1 V1 1k PIN 50k Horizontal/Vertical Sync Input * TTL Level 3~5V 0V 13 14 H2 50k V2 4 KA2507 WIDE BAND ANALOG SWITCH FOR MONITORS Table 2. Pin Description (Continued) Pin No Pin Name Schematic Description 0.375k Horizontal/Vertical Sync Output * TTL Level PIN 15 VOUT 50 4.2 V 0V 16 HOUT 17 BOUT 50 50 21 GOUT 30 PIN 0.5k Video Output * Max. Level = 2.4 Vpp 23 ROUT H Sync Detection SOG Mute 18 DET 0.2k PIN 50 20k * CSYNC Mutable Cap Voltage = 2.3 V 5 WIDE BAND ANALOG SWITCH FOR MONITORS KA2507 Table 2. Pin Description (Continued) Pin No Pin Name Schematic Description 0.375k 50 PIN Composite Sync Output Separated from SOG * TTL Level 4.2 V 0V 19 CSYNC Sync on Green Input 100 * Video + Sync = 1 V PP 0.7 V PIN 20 SOG 100 50k 50k 0.3 V 22 VCC - Power Supply Switch Input 50k * TTL Level Input 3~ 5 V 0V 24 SW 1k PIN 50k * Low Input1 Select High Input2 Select 6 KA2507 WIDE BAND ANALOG SWITCH FOR MONITORS ABSOLUTE MAXIMUM RATINGS (Ta = 25 C) (1) Table 3. Absolute Maximum Ratings Value No Item Symbol Min 1 2 3 4 5 Maximum Supply Voltage Operating Temperature (2) Storage Temperature Operating Supply Voltage Maximum Power Dissipation Vccmax Topr Tstg Vccop Pdmax -25 -65 4.5 Typ 5.0 Max 7 75 150 5.5 0.42 V C C V (3) W Unit THERMAL & ESD PARAMETER Table 4. Thermal & ESD Parameter Value No Item Symbol Min 1 Thermal Resistance (Junction-ambient) Junction Temperature Human Body Model (C = 100 p, R = 1.5 k) Machine Model (C = 200 p, R = 0) Charge Device Model ja Typ 83 Max C/W C KV Unit 2 3 Tj HBM 2 300 800 110 - - 4 MM - - V 5 CDM - - V 7 WIDE BAND ANALOG SWITCH FOR MONITORS KA2507 ELECTRICAL CHARACTERISTICS SWITCH CONTROL ELECTRICAL CHARACTERISTICS Ta = 25 C, VCC = 5 V; Unless Otherwise Stated Table 5. Switch Control Electrical Characteristics Parameter Supply Current Maximum Supply Current Switch Low Input Voltage Switch High Input Voltage Switch Low Input Current Switch High Input Current Conditions V24 = 0, 5V V22 = 7V, V24 = 0, 5V V24 = 2V OV V6. 7 = 5V, V13. 14 = 0V V24 = 0V 2V V6. 7 = 5V, V13. 14 = 0V V24 = 0V V24 = 5V Symbol ICC ICCmax VL24 VH24 IL24 IH24 Min 15 30 1.2 -5.0 80 Typ 27 45 1.7 1.5 -1.0 100 Max 35 60 1.8 120 Unit mA mA V V A A RGB VIDEO SWITCH ELECTRICAL CHARACTERISTICS Ta = 25 C, VCC = 5 V; Unless Otherwise Stated Table 6. RGB Video Switch Electrical Characteristics Parameter Input Voltage (RGB Input Pin DC) Output Voltage (RGB Output Pin DC) Voltage Gain Voltage Gain Difference Voltage Gain 100 MHz Voltage Gain Difference 100 MHz f - 3dB Bandwidth input crosstalk 10 MHz Input Crosstalk 100 MHz V24 = 0, 5V V24 = 0, 5V V24 = 0V, V1. 3. 5 = S1(1 MHz) V24 = 5 V, V8. 10. 12 = S1(1 MHz) V24 = 0V, V1. 3. 5 = S1(1 MHz) V24 = 5V, V8. 10. 12 = S1(1 MHz) V24 = 0V, V1. 3. 5 = S2 (100 MHz) V24 = 5V, V8. 10. 12 = S2 (100 MHz) V24 = 0V, V1. 3. 5 = S2 (100 MHz) V24 = 5V, V8. 10. 12 = S2 (100 MHz) V24 = 0V, V1. 3. 5 = S2 V24 = 5V, V8. 10. 12 = S2 V24 = 0V, V8. 10. 12 = S2 (10 MHz) V24 = 5V, V1. 3. 5 = S2 (10 MHz) V24 = 0V, V8. 10. 12 = S2 (100 MHz) V24 = 5V, V1. 3. 5 = S2 (100 MHz) Conditions Symbol Vi Vo Av Av Av' Av' f - 3dB CT1 CT1' Min 3.2 1.4 -1.0 -0.2 -2.0 -0.2 300 Typ 3.5 1.9 -0.5 -1.0 350 -50 -40 Max 3.8 2.4 0.2 0.2 -40 -30 Unit V V dB dB dB dB MHz dB dB 8 KA2507 WIDE BAND ANALOG SWITCH FOR MONITORS Table 6. RGB Video Switch Electrical Characteristics (Continued) Parameter Channel Crosstalk 10 MHz Channel Crosstalk 100 MHz Rise Time Fall Time Conditions V24 = 0V, V3 = S2 (10 MHz) V24 = 5 V, V10 = S2 (10 MHz) V24 = 0V, V3 = S2 (100 MHz) V24 = 5V, V10 = S2 (100 MHz) V24 = 0V, V1. 3. 5 = S3 V24 = 5 V, V8. 10. 12 = S3 V24 = 0V, V1. 3. 5 = S3 V24 = 5V, V8. 10. 12 = S3 Symbol CTC CTC' Tr Tf Min Typ -50 -40 1.0 1.0 Max -40 -30 1.2 1.2 Unit dB dB nS nS HV SYNC SWITCH ELECTRICAL CHARACTERISTICS Ta = 25 C, VCC = 5V; Unless Otherwise Stated Table 7. HV Sync Switch Electrical Characteristics Parameter Low Output Voltage (HV Output Pin DC) High Output Voltage (HV Output Pin DC) Low Input Voltage (HV Input Pin DC) High Input Voltage (HV Input Pin DC) Low Input Current High Input Current Rise Time Fall Time Rise Delay Time Fall Delay Time Conditions V24 = 0V, V6. 7 = 0V V24 = 5 V, V13. 14 = 0V V24 = 0V, V6. 7 = 5V V24 = 5V, V13. 14 = 5V V24 = 0V, V6. 7 = 3V 0V V24 = 5V, V13. 14 = 3V 0V V24 = 0V, V6. 7 = 0V 3V V24 = 5V, V13. 14 = 0V 3V V24 = 0V, V6. 7 = 0V V24 = 5V, V13. 14 = 0V V24 = 0V, V6. 7 = 5V V24 = 5V, V13. 14 = 5V V24 = 0V, V6. 7 = S4 V24 = 5V, V13. 14 = S4 V24 = 0V, V6. 7 = S4 V24 = 5V, V13. 14 = S4 V24 = 0V, V6. 7 = S4 V24 = 5V, V13. 14 = S4 V24 = 0V, V6. 7 = S4 V24 = 5V, V13. 14 = S4 Symbol VL VH ViL ViH IL IH Tr Tf Trd Tfd Min 3.9 1.2 2.2 -5.0 80 Typ 0.1 4.2 1.5 2.5 -1.0 100 20 10 50 30 Max 0.2 1.8 2.8 120 40 20 80 50 Unit V V V V uA uA nS nS nS nS 9 WIDE BAND ANALOG SWITCH FOR MONITORS KA2507 SOG SYNC SEPARATOR ELECTRICAL CHARACTERISTICS Ta = 25 C, VCC = 5 V; Unless Otherwis Stated Table 8. SOG Sync Separator Electrical Characteristics Parameter SOG Low Output Voltage SOG High Output Voltage SOG Rise Time SOG Fall Time SOG Rise Delay Time SOG Fall Delay Time SOG Min Pulse Width 1 (f = 20 kHz, Video Black) SOG Min Pulse Width 2 (f = 200 kHz, Video Black) SOG Min Pulse Width 1' (f = 20 kHz, Video White) SOG Min Pulse Width 2' (f = 200 kHz, Video White) SOG Min Separatable Level 1 (f = 20 kHz, Video Black) SOG Min Separatable Level 2 (f = 200 kHz, Video Black) Conditions V20 = S5 (30 kHz, Pw = 3S) V20 = S5 (30 kHz, Pw = 3S) V20 = S5 (30 kHz, Pw = 3S) V20 = S5 (30 kHz, Pw = 3S) V20 = S5 (30 kHz, Pw = 3S) V20 = S5 (30 kHz, Pw = 3S) V20 = S5 (20 kHz, 150mV, Pw = 2S 0S ) V20 = S5 (200 kHz, 150mV, Pw = 0.2S 0S ) V20 = S6 (20 kHz, Sync = 150mV, Pw = 2S 0S ) V20 = S6 (200 kHz, Sync = 150mV, Pw = 0.2S 0S ) V20 = S5 (20 kHz, Pw = 2S, Sync = 0.3V 0V) V20 = S5 (200 kHz, Pw = 0.2S, Sync = 0.3V 0V) Symbol VL19 VH19 Tr_sog Tf_sog Trd_sog Tfd_sog PWmin 1 Min 3.9 Typ 0.1 4.2 20 10 70 50 0.5 Max 0.2 40 20 100 80 2.5 Unit V V nS nS nS nS uS PWmin 2 - 0.05 0.25 uS PWmin 1' - 0.5 2.5 uS PWmin 2' - 0.05 0.25 uS VSmin 1 - 50 100 mV VSmin 2 - 50 100 mV SOG Min Separatable Level 1' V20 = S6 (f = 20 kHz, Video White) (20 kHz, Pw = 2S, Sync = 0.3V 0V) SOG Min Separatable Level 2' V20 = S6 (f = 200 kHz, Video White) (200 kHz, Pw = 0.2S, Sync = 0.3V 0V) VSmin 1' - 50 100 mV VSmin 2' - 50 100 mV NOTES: 1. Absolute Maximum Rating Indicates limit beyond which damage to the device may occur. 2. Operating Ratings indicate conditions for which the device is functional but do not guarantee specific performance limits. For guaranteed specifications and test conditions, See the Electrical Characteristics. The guaranteed specifications apply only for the test conditions listed. Some performance characteristics may degrade when the device is not operated under the listed test conditions. 3. VCC supply pin22 must be externally wired to gether to prevent internal damage during VCC power on/off cycles. 10 KA2507 WIDE BAND ANALOG SWITCH FOR MONITORS TEST CIRCUIT VCC = 5 V 0.01uF 47uF 0.01uF R1 50 4.7uF 0.01uF 1 2 3 50 4.7uF 0.01uF 24 23 22 21 20 1uF 47uF SW ROUT 0.01uF G1 4 5 GOUT SOG CSYNC B1 50 4.7uF H1 V1 R2 50 4.7uF 0.01uF 6 7 8 9 10 S1D2507B 19 18 17 16 15 14 13 470K 0.01uF 47uF BOUT HOUT VOUT V2 H2 G2 50 4.7uF 0.01uF 11 12 B2 50 4.7uF TEST METHODS S1D2507B01 R/G/B/H/V Output Oscilloscope 50 50 50U TEST POSITION 11 WIDE BAND ANALOG SWITCH FOR MONITORS KA2507 TEST SIGNAL FORMAT Table 9. Test Signal Format SG No. S1 Sine Wave Frequency = 1 MHz Amplitude = 0.7 VPP, Var. Input Signals 0.7 VPP S2 Sine Wave Frequency = Var. Amplitude = 0.7 VPP 0.7 VPP S3 Square Wave Frequency = 200 kHz Amplitude = 0.7 VPP Duty = 50% 0.7 V PP S4 Square Wave Frequency = 200 kHz Low/High Level = 0V/5V Duty = 50% 5V 0V S5 Pulse Frequency = Var. Duty = Var. Vsync = Var. 0.3 VPP S6 Sync on Green Frequency = Var. Duty = Var. Vsync = Var. 25% of Frequecy 1 VPP Duty Frequency Vsync 12 KA2507 WIDE BAND ANALOG SWITCH FOR MONITORS APPLICATION BOARD CIRCUIT VCC=5V + 47uF 0.01uF 10K INPUT1 6 1 11 7 2 12 8 3 13 9 4 14 10 5 15 DSUB1 75 100 6 H1 CSYNC 19 100 33 75 2 GND1 ROUT 23 47uF + 47uF + 1 R1 SW 24 SW 33 75 3 G1 VCC 22 0.01uF + 47uF 4 GND2 GOUT 21 ROUT + 33 47uF + 100 5 B1 SOG 20 SOG GOUT 1uF 63V MP KA2507 S1D2507B 7 V1 DET 18 + 47uF R2 IN 75 9 B2 IN 33 H2 IN 75 V2 IN 11 GND4 V2 14 47uF + 10 G2 VOUT 15 GND3 HOUT 16 33 47uF + 8 R2 BOUT 17 470K CSYNC BOUT HOUT G2 IN VOUT 100 100 33 75 47uF + 12 B2 H2 13 100 100 Figure 2. Application Board Circuit 13 TYPICAL APPLICATION CIRCUIT B1 6 1uF 63V MP + 0.1uF 100uF VCC1 VCC3 GOUT 27 23 SOG + WIDE BAND ANALOG SWITCH FOR MONITORS 14 VCC=5V 75V + 0.01uF 47uF 75K VCC=12V + 100uF 0.1uF 12V ROSD 1 ROSD 0.1uF 75V 1uF 100V KSP42 KSP92 12V B/U + + 0.47uF 50V 2.2K 75K BAV21 28 B/U INPUT1 33 1 R1 2 GOSD 0.1uF + 0.1uF 100uF 3 BOSD 390 ROUT RIN VCC 33 3 G1 + 47uF 4 VI/OSD_SW + 27 0.1uF 12V 75K BAV21 R1 IN SW RCLP 27 33 2 GND1 33 26 ROUT BOSD 23 24 SW GOSD + 75 33 47uF G1 IN B1 IN 75V H1 IN GCLP 100uF 0.1uF 5 RIN 390 GOUT GIN GND + VCC 25 VEE 0.1uF ROUT 33 22 VI/OSD SW 75K + 75 33 47uF 4 GND2 24 33 10uF 5 20 GOUT 0.01uF 21 V1 IN KSP92 1uF 100V + + 0.1uF KSP42 75 CSYNC 7 GND1 390 21 GND3 BIN 22 GND 33 47uF 6 H1 100 CSYNC 19 + 0.47uF 50V 2.2K 100 To Cathode 75V 75K 12V 7 V1 470K GIN BOUT + KA2507 DET 8 10uF 9 + 100uF 0.1uF 10 BIN BLK VOUT 10 G2 33 GND(L) 11 VOUT 15 CLP 18 100 11 GND4 ABL 100 0.1uF 12 B2 13 SCL 100 SCL H2 13 GCT 16 100 + 47uF 12 ABL V2 14 RCT 17 100 CLP 10uF + 18 KA2500 GND BOUT 27 0.1uF R Out G Out B Out S1D2507B S1D2500A INPUT2 470pF 50V MO 8 R2 33 HOUT 9 GND3 33 19 100 HOUT 16 VCC2 BCLP 20 0.1uF BOUT 17 100 R2 IN + 75 33 75K BAV21 G2 IN 47uF 12V KSP92 Figure 3. Typical Application circuit BLK 1uF 100V KSP42 B2 IN + + H2 IN 0.47uF 50V 2.2K + 75 33 47uF V2 IN + 75 33 47uF SDA 100 100 100 14 SDA BCT 15 100 KA2507 |
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