TUA 6039 / TUA 6037 family Infineon Technologies, TUA 6039 / TUA 6037 family Datasheet

no-image

TUA 6039 / TUA 6037 family

Manufacturer Part Number
TUA 6039 / TUA 6037 family
Description
Manufacturer
Infineon Technologies

Specifications of TUA 6039 / TUA 6037 family

Packages
PG-VQFN-48
Vs (min)
3.0 V
Vs (max)
5.5 V
Icc (max)
100.0 mA
Esd Protection (max)
2.0 kV
Mounting
-
Da ta Sh ee t , R ev is io n 2 . 6, A ug us t 20 0 7
TUA 6039-2, T UA 6039,
TUA 6037
3 B and D i gita l / H yb r id T u ner I C wit h
inte gr at ed IF A G C amp lifier
O mni T un e™ T U A 6 03 9- 2,
O mni T un e™ T U A 6 03 9,
O mni T un e™ T U A 6 03 7
Co mmu nicat i on So lutio ns

Related parts for TUA 6039 / TUA 6037 family

TUA 6039 / TUA 6037 family Summary of contents

Page 1

TUA 6039- 6039, TUA 6037 3 B and D i gita ...

Page 2

... Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies failure of such components can reasonably be expected to cause the failure of that life-support device or system affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body support and/or maintain and sustain and/or protect human life ...

Page 3

TUA 6039- 6039, TUA 6037 3 B and D i gita ...

Page 4

TUA 6039-2, TUA 6039, TUA 6037 Revision History: Previous Version: Page Subjects (major changes since last revision) all Branding name changed to OmniTune TM OmniTune Formatting of document cross-references updated. 9 TUA 6039 Ordering Code corrected. New Ordering Code for ...

Page 5

Table of Contents List of Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 6

Electrical Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 7

List of Tables Table 1 ATSC tuners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 8

List of Figures Figure 1 Pin Configuration of TUA 6039 ...

Page 9

Product Info General Description The TUA 6039-2, TUA 6039, TUA 6037 device combines a mixer-oscillator function and an IF AGC amplifier with a digitally programmable phase locked loop (PLL) for use in analog and digital terrestrial applications. Features General ...

Page 10

Product Description The TUA 6039-2, OmniTune™ TUA 6039, OmniTune™ TUA 6037’ device combines a mixer-oscillator block with a digitally programmable phase locked loop (PLL) and a variable gain IF AGC amplifier for use in TV and VCR tuners, set-top-box ...

Page 11

SAW Filter Driver • pins to connect a 2 pole bandpass • Symmetrical IF preamplifier with low output impedance able to drive a compensated SAW filter (500 //40 pF) 2.1.4 IF AGC Amplifier • Symmetrical variable gain ...

Page 12

Table 2 DVB-T and analog tuners Band min LOW 48.25 MID 161.25 HIGH 447.25 Table 3 ISDB-T tuners Band min LOW 93 MID 173 HIGH 473 Note: Tuning margin of 3 MHz not included. Data Sheet TUA 6039-2, TUA 6039, ...

Page 13

Functional Description 3.1 Pin Configuration n.c. 1 P4/ADC 2 OSCHIGHIN 3 OSCHIGHOUT 4 OSCHIGHOUT 5 6 OSCHIGHIN 7 GNDA n. SAWOUT 10 SAWOUT Figure 1 Pin Configuration of TUA 6039-2 Data Sheet TUA ...

Page 14

P4 2 OSCHIGHIN 3 OSCHIGHOUT 4 OSCHIGHOUT 5 6 OSCHIGHIN 7 GNDA n. SAWOUT 10 SAWOUT ...

Page 15

GNDRF 2 MIXOUT 3 SAWIN 4 SAWIN 5 MIXOUT 6 VCC 7 RFAGC X_TAL_IN 13 14 Figure 3 Pin Configuration of TUA 6037 Data Sheet TUA 6039-2, TUA ...

Page 16

Pin Definition and Functions Table 4 Pin Definition and Functions Pin Symbol 1) No. 1 (36) n. P4/ADC input 2 (35 (34) OSCHIGHIN 4 (33) OSCHIGHOUT 5 (32) OSCHIGHOUT 6 (31) OSCHIGHIN 7 (30) ...

Page 17

Pin Symbol 1) No. 11 (26 (25 (24) IFAMPIN 14 (23) IFAMPIN 15 (22) IFAMPAGC 16 (21) IFAMPOUT 17 (20) IFAMPOUT Data Sheet TUA 6039-2, TUA 6039, TUA 6037 Equivalent I/O Schematic ...

Page 18

Pin Symbol 1) No. 18 (19) X_TAL_BUF 19 (18 (17) SCL Data Sheet TUA 6039-2, TUA 6039, TUA 6037 Equivalent I/O Schematic DC bias 18 XTAL Functional Description Average DC voltage 3.3V ...

Page 19

Pin Symbol 1) No. 21 (16) SDA 22 (15) GNDACK Acknowledge ground 23 (14) GNDD Digital ground 24 (13) X_TAL_CAP 25 (12) X_TAL_IN 26 (11 (10 ( (8) P0 Data Sheet TUA 6039-2, TUA ...

Page 20

Pin Symbol 1) No. 30 (7) RFAGC 31 (6) VCC supply voltage 33 (4) SAWIN 34 (3) SAWIN 32 (5) MIXOUT 35 (2) MIXOUT 36 (1) GNDRF RF ground Data Sheet TUA 6039-2, TUA 6039, TUA 6037 Equivalent I/O Schematic ...

Page 21

Pin Symbol 1) No. 37 (48) LOWIN 38 (47) MIDIN 39 (46) MIDIN 40 (45) HIGHIN 41 (44) HIGHIN 42 (43) RFAGC_BUF Data Sheet TUA 6039-2, TUA 6039, TUA 6037 Equivalent I/O Schematic Functional Description ...

Page 22

Pin Symbol 1) No. 43 (42) OSCLOWOUT 44 (41) OSCLOWIN 45 (40) GNDOSC Oscillator ground 46 (39) OSCMIDIN 47 (38) OSCMIDOUT 48 (37) n.c. 49 (49) GND package Exposed pad ground 1) Pin numbering for TUA 6039-2 and TUA 6039 ...

Page 23

Functional Block Diagram P4/ADC 2 ADC Prog. Divider Divider 9 Charge Pump Figure 4 Functional Block Diagram of TUA 6039-2 ...

Page 24

Oscillator Oscillator 3 4 Oscillator Prog. Divider Divider 9 Charge Pump 10 11 Amplifier Figure 5 Functional Block Diagram of TUA ...

Page 25

GNDRF AGC PORTS Crystal P3 Oscillator 11 X_TAL_IN Figure 6 Functional Block Diagram of TUA 6037 ...

Page 26

Circuit Description 3.4.1 Mixer-Oscillator block with SAW filter driver The mixer-oscillator block includes three balanced mixers (one mixer with an unbalanced high-impedance input and two mixers with a balanced low-impedance input), two 2-pin asymmetrical oscillators for the LOW and ...

Page 27

PLL in the locked-in state. In this way different VCO gains can be compensated, for example. Furthermore, in order to obtain best results for phase noise, reference frequency rejection and PLL stability especially in a wideband system like ...

Page 28

I C-Bus Interface Data is exchanged between the processor and the PLL via the I generated by the processor (input SCL). Pin SDA functions as an input or output depending on the direction of the data (open collector, ...

Page 29

MIXER input Figure 7 Functional Block Diagram of Loop thru This results in a flat frequency response from the mixer input to the IF amplifier output and allows tuner alignment without the need of an external resistor. 1) 3.4.7 ADC ...

Page 30

Application 4.1 Tuner application block diagram Figure 8 Tuner application block diagram Data Sheet TUA 6039-2, TUA 6039, TUA 6037 30 Revision 2.6, 2007-08-20 Application ...

Page 31

Application circuit for Figure 9 Circuit diagram for hybrid application (DVB-T / PAL) Note: TUA 6039 and TUA 6037 have no ADC function. TUA 6037 has different pinning. Data Sheet TUA 6039-2, TUA 6039, TUA 6037 hybrid application /ADC ...

Page 32

Application circuit for ATSC Figure 10 Circuit diagram for ATSC Note: TUA 6039 and TUA 6037 have no ADC function. TUA 6037 has different pinning. Data Sheet TUA 6039-2, TUA 6039, TUA 6037 /ADC -2 32 Application Revision 2.6, ...

Page 33

Application circuit for DVB-T Figure 11 Circuit diagram for DVB-T Note: TUA 6039 and TUA 6037 have no ADC function. TUA 6037 has different pinning. Data Sheet TUA 6039-2, TUA 6039, TUA 6037 /ADC -2 DVB-T 33 Application Revision ...

Page 34

Application circuit for ISDB-T Figure 12 Circuit diagram for ISDB-T Note: TUA 6039 and TUA 6037 have no ADC function. TUA 6037 has different pinning. Data Sheet TUA 6039-2, TUA 6039, TUA 6037 /ADC -2 34 Application Revision 2.6, ...

Page 35

Reference 5.1 Electrical Data 5.1.1 Absolute Maximum Ratings Attention: The maximum ratings may not be exceeded under any circumstances, not even momentarily and individually, as permanent damage to the IC will result. Table 5 Absolute Maximum Ratings 1) # ...

Page 36

Parameter 16. NPN port output current of P4 Mixer-Oscillator 17. Mix inputs LOW band 18. Mix inputs MID/HIGH band 19. 20. VCO base voltage 21. VCO collector voltage 22. RF AGC output 23. 24. 25. Voltage on all ...

Page 37

Operating Range Table 6 Operating Range # Parameter 1. Supply voltage 2. Ambient temperature 3. Programmable divider factor 4. LOW mixer input frequency range 5. MID and HIGH band mixer input frequency range 6. LOW oscillator frequency range 7. ...

Page 38

Parameter 5. Current consumption in power down mode Digital Part PLL Crystal oscillator connections XTAL 6. Crystal frequency 7. Crystal resistance R 8. Crystal oscillator startup capability 9. XTAL Buffer output frequency 10. XTAL Buffer Signal voltage Charge ...

Page 39

Parameter 19. High-level input voltage 20. Low-level input voltage 21. High-level input current 22. 23. Low-level input current 24. Bus output SDA (open collector) 25. Leakage current 26. Low-level output voltage Edge speed SCL,SDA 27. Rise time 28. ...

Page 40

Parameter 36. Set-up time 37. Hold time 38. Input hysteresis SCL, SDA 39. Pulse width of spikes which are suppressed 40. Capacitive load for each bus line Ports 41. PNP Output saturation voltage 42. NPN Output saturation voltage ...

Page 41

Parameter 50. SAWOUT output voltage causing 0.8% of crossmodulation in channel 51. Input IP3 52. 53. Local oscillator FM 2 caused communication 54. (N+ MHz pulling 55. Input impedance ...

Page 42

Parameter 61. Input IP3 62. 63. Local oscillator FM 2 caused communication 64. (N+ MHz pulling 65. Input impedance 66 HIGH band mixer ...

Page 43

Parameter 73. Local oscillator FM 2 caused communication 74. (N+ MHz pulling 75. Input impedance 76 LOW band oscillator 77. Oscillator frequency 78. ...

Page 44

Parameter 83. Phase noise, carrier to noise sideband 84. 85. 86. Ripple susceptibility HIGH band oscillator 87. Oscillator frequency 88. Phase noise, carrier to noise sideband 89. 90. 91. Ripple susceptibility SAW ...

Page 45

Parameter 93. Output voltage causing 1 dB compression 94. Input impedance 1 95 96. Output impedance 97 Rejection at ...

Page 46

Parameter 109. RF AGC leakage current 110. RF AGC output voltage RF AGC buffer 111. RF AGC buffer output current 112. RF AGC buffer output saturation voltage low 113. RF AGC buffer output saturation voltage high IFAGC amplifier ...

Page 47

Parameter 122. Intermodulation 123. Third order output intercept point 124. Signal to noise ratio SNR 125. Noise figure 126. Output impedance 127. o IF/IF IF/IF 1) Values are referred to the ...

Page 48

The supply ripple susceptibility is a sideband measurement using a spectrum analyzer connected to the IF output. An unmodulated RF signal with a level of 80 dBµV is applied to the test board RF input. A sinewave signal with ...

Page 49

Table 9 Description of Symbols Symbol Description A Acknowledge MA0, MA1 Address selection bits, see N14 to N0 programmable divider bits N14 + 2 CP charge pump current bit: bit = 0: charge pump current ...

Page 50

Table 10 Address selection Voltage 0. open circuit or (0 (0 Table 11 Test modes Mode Normal mode ...

Page 51

Table 12 Reference divider ratios Reference divider ratio 80 128 With a 4 MHz quartz. Table 13 RF AGC take-over point SAW driver output Remark level, symmetrical mode 115 dBµV 115 dBµV 112 dBµV default ...

Page 52

Table converter levels 1) Voltage at ADC (0 to 0.15 (0. (0.3 to 0.45 (0. ...

Page 53

Table 17 Defaults at power-on reset Name Byte Write Data Address Byte ADB Divider byte 1 DB1 Divider byte 2 DB2 Control byte CB Bandswitch byte BB Auxiliary byte don‘t care. Table 18 Description of modes ...

Page 54

I C Bus Timing Diagram 2 Figure Bus Timing Diagram Data Sheet TUA 6039-2, TUA 6039, TUA 6037 54 Revision 2.6, 2007-08-20 Reference ...

Page 55

Electrical Diagrams 5.4.1 Input admittance (S11) of the LOW band mixer (30 to 200 MHz mA/V 0 5.4.2 Input impedance (S11) of the MID band mixer (130 to 500 MHz Data ...

Page 56

Input impedance (S11) of the HIGH band mixer (400 to 1000 MHz 5.4.4 Output admittance (S22) of the of the mixers ( MHz mA/V 0 Data Sheet TUA 6039-2, ...

Page 57

Input admittance (S11) of the SAW filter driver ( MHz mA/V 0 5.4.6 Output impedance (S22) of the SAW filter driver ( MHz Data Sheet TUA 6039-2, ...

Page 58

Input admittance (S11) of the IF AGC amplifier ( MHz mA/V 0 5.4.8 Output impedance (S22) of the IF AGC amplifier ( MHz Data Sheet TUA 6039-2, ...

Page 59

Measurement Circuits 5.5.1 Gain (G ) measurement in LOW band meas 50 V RMS Voltmeter Figure 14 Gain (G ) measurement in LOW band V • Z >> 50 => ...

Page 60

Matching circuit for optimum noise figure in LOW band 22p In 22p For MHz RF loss = 0 dB image suppression = 16 dB Figure 16 Matching circuit for optimum noise figure in LOW band 5.5.4 ...

Page 61

Noise figure (NF) measurement in MID and HIGH bands Noise Source Balun loss of balun = NFmeas - loss of balun (dB) Figure 18 Noise figure (NF) measurement in MID and HIGH bands 5.5.6 Cross ...

Page 62

Cross modulation measurement in MID and HIGH bands unwanted signal source AM = 80%, 1 kHz Hybrid wanted signal 50 source Figure 20 Cross modulation measurement in MID and HIGH bands • V’ ...

Page 63

Package VQFN-48 Figure 22 PG-VQFN-48 Vignette Figure 23 PG-VQFN-48 Outline Drawing You can find all of our packages, sorts of packing and others in our Infineon Internet Page “Products”: http://www.infineon.com/products. SMD = Surface Mounted Device Data Sheet TUA 6039-2, ...

Page 64

... Published by Infineon Technologies AG ...

Related keywords