Product Specification S8740220 Si Push Pull, 40 – 870MHz, 21.5dB min. Gain @ 870MHz, 235mA max. @ 24VDC FEATURES • • • • • • Excellent linearity Superior return loss performance Extremely low distortion Optimal reliability Low noise Unconditionally stable under all terminations S8740220 APPLICATION • 40 to 870 MHz CATV amplifier systems DESCRIPTION • Hybrid Push Pull amplifier module employing silicon dice Si Push Pull Hybrid 40 – 870MHz 21.5dB min. Gain @ 870MHz 235mA max. @ 24VDC LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 60134) SYMBOL PARAMETER Vi Vov Tstg Tmb RF input voltage (single tone) DC supply over-voltage (5 minutes) storage temperature operating mounting base temperature MIN. MAX. UNIT - 40 - 20 70 30 + 100 + 100 dBmV V °C °C CHARACTERISTICS Table 1: S-Parameter, Noise Figure, DC Current; VB = 24V; Tmb = 30°C; ZS = ZL = 75 Ω SYMBOL PARAMETER Gp power gain SL FL S11 S22 slope 1) flatness of frequency response 2) input return loss output return loss S21 F phase response noise figure Itot total current consumption (DC) Page 1 of 4 CONDITIONS MIN. TYP. MAX. UNIT f = 50 MHz f = 870 MHz f = 40 to 870 MHz f = 40 to 870 MHz 21.0 21.5 0.2 - 21.5 22.5 1.0 22.0 2.0 ± 0.3 dB dB dB dB f = 40 to 870 MHz f = 40 to 80 MHz f = 80 to 160 MHz f = 160 to 870 MHz f = 50 MHz f = 50 MHz f = 600 MHz f = 750 MHz f = 870 MHz 20.0 20.0 18.5 18.0 -45 - +45 4.5 5.0 5.5 6.5 235.0 dB dB dB dB Deg dB dB dB dB mA 2004 Jun 01 3.5 4.8 220.0 Document Revision Level C Product Specification S8740220 Si Push Pull, 40 – 870MHz, 21.5dB min. Gain @ 870MHz, 235mA max. @ 24VDC Notes: 1) 2) The slope is defined as the difference between the ´ideal gain´ at the start frequency and the ´ideal gain´ at the stop frequency. The gain flatness is the deviation of any amplitude value from the ideal gain curve calculated by the following mathematical model: Gain = G + C*SQRT(fx/f1). G = constant gain (frequency independent); C = cable constant; fx = desired frequency; f1 = start frequency. The cable constant C must be optimized during the flatness determination so that the curve best fits the measured gain figures. The start value for C is calculated using the formula Cstart = (Gn–G1)/(SQRT(fn/f1)-1), where Gn = the measured gain at the stop frequency, G1 = the measured gain at the start frequency and fn = stop frequency. The value of G is chosen so that the max. positive deviation of the measured gain from the ´ideal gain´ curve is the same as the max. negative deviation. The value of C is adapted by ± 0.001 until the ´ideal gain´ curve best fits the measured curve. The flatness of the module gain is the maximum deviation in measured gain from the optimized gain formula. CHARACTERISTICS Table 2: Distortion data; VB = 24V; Tmb = 30°C; ZS = ZL = 75 Ω SYMBOL PARAMETER CONDITION MIN. TYP. MAX. UNIT 1) CTB composite triple beat 79 ch. flat; Vo = 44 dBmV 112 ch. flat; Vo = 44 dBmV 2) 132 ch. flat; Vo = 42 dBmV 3) - - 65.0 - 56.0 - 56.0 - 61 0 - 54.0 - 53.0 dBc XMOD cross modulation 79 ch. flat; Vo = 44 dBmV 1) 112 ch. flat; Vo = 44 dBmV 2) 132 ch. flat; Vo = 42 dBmV 3) - - 58.0 - 57.0 - 58,0 - 57.0 - 54.0 - 57.0 dBc CSO composite second order distortion 79 ch. flat; Vo = 44 dBmV 1) 112 ch. flat; Vo = 44 dBmV 2) 132 ch. flat; Vo = 42 dBmV 3) - - 65 0 - 65.0 - 62.0 - 62.0 - 59.0 - 58.0 dBc d2 second order distortion 4) - - 72.0 - 70.0 - 70.0 dBc 62.0 60.0 59.0 - dBmV 5) 6) V0 output voltage Notes: 1) 2) 3) 4) 5) 6) 7) 8) 9) dim = -60 dB 7) dim = -60 dB 8) dim = -60 dB 9) 79 channels, NTSC frequency raster: 55.25 MHz to 547.25 MHz, +44 dBmV flat output level. 112 channels, NTSC frequency raster: 55.25 MHz to 745.25 MHz, +44 dBmV flat output level. 132 channels, NTSC frequency raster: 55.25 MHz to 865.25 MHz, +42 dBmV flat output level. f1 = 55.25 MHz; V1 = 44 dBmV; f2 = 493.25 MHz; V2 = 44 dBmV; fTEST = f1 + f2 = 548.5 MHz. f1 = 55.25 MHz; V1 = 44 dBmV; f2 = 691.25 MHz; V2 = 44 dBmV; fTEST = f1 + f2 = 746.5 MHz. f1 = 55.25 MHz; V1 = 44 dBmV; f2 = 805.25 MHz; V2 = 44 dBmV; fTEST = f1 + f2 = 860.5 MHz. f1 = 540.25 MHz; V1 = Vo; f2 = 547.25 MHz; V2 = Vo – 6 dB; f3 = 549.25 MHz; V3 = Vo – 6 dB; fTEST = f1 + f2 - f3 = 538.25 MHz, according to DIN45004B. f1 = 740.25 MHz; V1 = Vo; f2 = 747.25 MHz; V2 = Vo – 6 dB; f3 = 749.25 MHz; V3 = Vo – 6 dB; fTEST = f1 + f2 - f3 = 738.25 MHz, according to DIN45004B. f1 = 851.25 MHz; V1 = Vo; f2 = 858.25 MHz; V2 = Vo – 6 dB; f3 = 860.25 MHz; V3 = Vo – 6 dB; fTEST = f1 + f2 - f3 = 849.25 MHz, according to DIN45004B. Composite Second Order (CSO) The CSO parameter (both sum and difference products) is defined by the NCTA. Composite Triple Beat (CTB) The CTB parameter is defined by the NCTA. Cross Modulation (XMOD) Cross modulation (XMOD) is measured at baseband (selective voltmeter method), referenced to 100% modulation of the carrier being tested. Page 2 of 4 2004 Jun 01 Document Revision Level C Product Specification S8740220 Si Push Pull, 40 – 870MHz, 21.5dB min. Gain @ 870MHz, 235mA max. @ 24VDC I U 123 5 7 89 C E J S P R M K O T Q øG N D B H L nominal min A 44,6 ± 0,2 44,4 44,8 B 13,6 ± 0,2 13,4 13,8 C 20,4 ± 0,5 19,9 20,9 D 8 ± 0,15 7,85 8,15 E 12,6 ± 0,15 12,45 12,75 F 38,1 ± 0,2 37,9 38,3 G 4 +0,2 / -0,05 3,95 4,2 9 H 4 ± 0,2 3,8 4,2 I 25,4 ± 0,2 25,2 25,6 OUTPUT All Dimensions in mm: J UNC 6-32 - - K 4,2 ± 0,2 4,0 4,4 F A Pinning: 0 5 10mm 1 2 3 4 5 6 7 8 Notes: Page 3 of 4 GND GND +VB GND GND INPUT scale European Projection 2004 Jun 01 max L 27,2 ± 0,2 27,0 27,4 M 11,6 ± 0,5 11,1 12,1 N 5,8 ± 0,4 5,4 6,2 O 0,25 ± 0,02 0,23 0,27 0,48 P 0,45 ± 0,03 0,42 Q 2,54 ± 0,3 2,24 2,84 R 2,54 ± 0,5 2,04 3,04 S 2,54 ± 0,25 2,29 2,79 T 5,08 ± 0,25 4,83 5,33 U 5,08 ± 0,25 4,83 5,33 Document Revision Level C Product Specification S8740220 Si Push Pull, 40 – 870MHz, 21.5dB min. Gain @ 870MHz, 235mA max. @ 24VDC DEFINITIONS Data Sheet Status Objective Product Specification Preliminary Product Specification Product Specification This data sheet contains target or goal specifications for product development. This data sheet contains preliminary data; supplementary data may be published later. This data sheet contains final product specifications. Limiting values Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 60134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application information Where application information is given, it is advisory and does not form part of the specification. Premier Devices reserves the right to make changes without further notice to any products herein. Premier Devices makes no warranty representation or guarantee regarding the suitability of its products for any particular purpose, nor does Premier Devices assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters which may be provided in Premier Devices datasheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer´s technical experts. Premier Devices does not convey any license under its patent rights nor the rights of others. Premier Devices products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Premier Devices product could create a situation where personal injury or death may occur. Should Buyer purchase or use Premier Devices products for any such unintended or unauthorized application, Buyer shall indemnify and hold Premier Devices and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, and claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Premier Devices was negligent regarding the design or manufacture of the part. © Premier Devices Germany GmbH 2004 How to contact us: Premier Devices Germany GmbH Loeffelholzstrasse 20, D-90441 Nuernberg, Germany Phone: +49 (0) 911 9411 233, FAX: +49 (0) 911 9411 198, Email: [email protected], Internet: http://www.premierdevices.de/ Page 4 of 4 2004 Jun 01 Document Revision Level C