Datasheet TDA6107AJF (Philips) - 6
| 制造商 | Philips |
| 描述 | Triple Video Output Amplifier |
| 页数 / 页 | 16 / 6 — Philips Semiconductors. TDA6107AJF. Triple video output amplifier. … |
| 文件格式/大小 | PDF / 97 Kb |
| 文件语言 | 英语 |
Philips Semiconductors. TDA6107AJF. Triple video output amplifier. Characteristics. Table 5:. Symbol. Parameter. Conditions. Min. Typ. Max
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Philips Semiconductors TDA6107AJF Triple video output amplifier 9. Characteristics Table 5: Characteristics
Operating range: Tj = −20 °C to +150 °C; VDD = 180 V to 210 V; test conditions: Tamb = 25 °C; VDD = 200 V; Voc(1) = Voc(2) = Voc(3) = 1⁄2VDD; CL = 10 pF (CL consists of parasitic and cathode capacitance); Rth(h-a) = 18 K/W; measured in test circuit of Figure 9; unless otherwise specified.
Symbol Parameter Conditions Min Typ Max Unit
Iq quiescent supply current 5.6 6 7.6 mA Vref(int) internal reference voltage (input - 2.5 - V stage) Ri input resistance - 2.1 - kΩ G gain of amplifier 73 81 89 ∆G gain difference −4.2 0 +4.2 PSRR power supply rejection ratio f < 50 kHz [1] - 55 - dB αct(DC) DC crosstalk between channels - −50 - dB
Measurement output pin Iom; Voc = Voc(min) to Voc(max)
Iom(offset) offset current of measurement Ioc = 0 µA; −50 - +50 µA output (for three channels) Vom = 1.8 V to 6 V ∆Iom/∆Ioc linearity of current transfer Ioc = −100 µA to +100 µA; −0.9 −1.0 −1.1 (for three channels) Vom = 1.8 V to 6 V Ioc = −100 µA to +10 mA; −0.9 −1.0 −1.1 Vom = 1.8 V to 4 V
Output pins Voc(1), Voc(2), Voc(3)
Voc(DC) DC output voltage Ii = 0 µA 76 87 97 V ∆Voc(DC)(offset) differential DC output offset Ii = 0 µA −5 0 +5 V voltage between two output pins ∆Voc(T) output voltage temperature drift - 10 - mV/K ∆Voc(T)(offset) differential output offset voltage - 0 - mV/K temperature drift between two output pins Ioc(max) maximum peak output current Voc = 50 V to VDD − 50 V - 20 - mA Voc(min) minimum output voltage Vi = 4.5 V; at Ioc = 0 mA [2] - - 10 V Voc(max) maximum output voltage Vi = 0.5 V; at Ioc = 0 mA [2] VDD − 15 - - V BS small signal bandwidth Voc = 60 V (p-p) - 5.5 - MHz BL large signal bandwidth Voc = 100 V (p-p) - 4.5 - MHz t [3] co(p) cathode output propagation time Voc = 100 V (p-p) square - 60 - ns 50 % input to 50 % output wave ∆t [3] co(p) difference in cathode output Voc = 100 V (p-p) square −10 0 +10 ns propagation time 50 % input to wave 50 % output (between two output pins) t [3] oc(r) cathode output rise time Voc = 50 V to 150 V square 67 91 113 ns 10 % output to 90 % output wave t [3] oc(f) cathode output fall time Voc = 150 V to 50 V square 67 91 113 ns 90 % output to 10 % output wave 9397 750 14728 © Koninklijke Philips Electronics N.V. 2005. All rights reserved.
Product data sheet Rev. 02 — 28 April 2005 6 of 16
Document Outline 1. General description 2. Features 3. Ordering information 4. Block diagram 5. Pinning information 5.1 Pinning 5.2 Pin description 6. Internal circuitry 7. Limiting values 8. Thermal characteristics 8.1 Thermal protection 9. Characteristics 10. Application information 10.1 Cathode output 10.2 Flashover protection 10.3 Switch-off behavior 10.4 Bandwidth 10.5 Dissipation 11. Test information 11.1 Quality information 12. Package outline 13. Handling information 14. Soldering 14.1 Introduction to soldering through-hole mount packages 14.2 Soldering by dipping or by solder wave 14.3 Manual soldering 14.4 Package related soldering information 15. Revision history 16. Data sheet status 17. Definitions 18. Disclaimers 19. Contact information 20. Contents
Philips Semiconductors TDA6107AJF Triple video output amplifier 9. Characteristics Table 5: Characteristics
Operating range: Tj = −20 °C to +150 °C; VDD = 180 V to 210 V; test conditions: Tamb = 25 °C; VDD = 200 V; Voc(1) = Voc(2) = Voc(3) = 1⁄2VDD; CL = 10 pF (CL consists of parasitic and cathode capacitance); Rth(h-a) = 18 K/W; measured in test circuit of Figure 9; unless otherwise specified.
Symbol Parameter Conditions Min Typ Max Unit
Iq quiescent supply current 5.6 6 7.6 mA Vref(int) internal reference voltage (input - 2.5 - V stage) Ri input resistance - 2.1 - kΩ G gain of amplifier 73 81 89 ∆G gain difference −4.2 0 +4.2 PSRR power supply rejection ratio f < 50 kHz [1] - 55 - dB αct(DC) DC crosstalk between channels - −50 - dB
Measurement output pin Iom; Voc = Voc(min) to Voc(max)
Iom(offset) offset current of measurement Ioc = 0 µA; −50 - +50 µA output (for three channels) Vom = 1.8 V to 6 V ∆Iom/∆Ioc linearity of current transfer Ioc = −100 µA to +100 µA; −0.9 −1.0 −1.1 (for three channels) Vom = 1.8 V to 6 V Ioc = −100 µA to +10 mA; −0.9 −1.0 −1.1 Vom = 1.8 V to 4 V
Output pins Voc(1), Voc(2), Voc(3)
Voc(DC) DC output voltage Ii = 0 µA 76 87 97 V ∆Voc(DC)(offset) differential DC output offset Ii = 0 µA −5 0 +5 V voltage between two output pins ∆Voc(T) output voltage temperature drift - 10 - mV/K ∆Voc(T)(offset) differential output offset voltage - 0 - mV/K temperature drift between two output pins Ioc(max) maximum peak output current Voc = 50 V to VDD − 50 V - 20 - mA Voc(min) minimum output voltage Vi = 4.5 V; at Ioc = 0 mA [2] - - 10 V Voc(max) maximum output voltage Vi = 0.5 V; at Ioc = 0 mA [2] VDD − 15 - - V BS small signal bandwidth Voc = 60 V (p-p) - 5.5 - MHz BL large signal bandwidth Voc = 100 V (p-p) - 4.5 - MHz t [3] co(p) cathode output propagation time Voc = 100 V (p-p) square - 60 - ns 50 % input to 50 % output wave ∆t [3] co(p) difference in cathode output Voc = 100 V (p-p) square −10 0 +10 ns propagation time 50 % input to wave 50 % output (between two output pins) t [3] oc(r) cathode output rise time Voc = 50 V to 150 V square 67 91 113 ns 10 % output to 90 % output wave t [3] oc(f) cathode output fall time Voc = 150 V to 50 V square 67 91 113 ns 90 % output to 10 % output wave 9397 750 14728 © Koninklijke Philips Electronics N.V. 2005. All rights reserved.
Product data sheet Rev. 02 — 28 April 2005 6 of 16
Document Outline 1. General description 2. Features 3. Ordering information 4. Block diagram 5. Pinning information 5.1 Pinning 5.2 Pin description 6. Internal circuitry 7. Limiting values 8. Thermal characteristics 8.1 Thermal protection 9. Characteristics 10. Application information 10.1 Cathode output 10.2 Flashover protection 10.3 Switch-off behavior 10.4 Bandwidth 10.5 Dissipation 11. Test information 11.1 Quality information 12. Package outline 13. Handling information 14. Soldering 14.1 Introduction to soldering through-hole mount packages 14.2 Soldering by dipping or by solder wave 14.3 Manual soldering 14.4 Package related soldering information 15. Revision history 16. Data sheet status 17. Definitions 18. Disclaimers 19. Contact information 20. Contents