Download: DISCRETE SEMICONDUCTORS DATA SHEET BGY115A; BGY115B; BGY115C/P; BGY115D UHF amplifier modules Product specification 1996 May 13 Supersedes data of May 1994

DISCRETE SEMICONDUCTORS DATA SHEET BGY115A; BGY115B; BGY115C/P; BGY115D UHF amplifier modules Product specification 1996 May 13 Supersedes data of May 1994 File under Discrete Semiconductors, SC09 FEATURES PINNING - SOT321A • 6 V nominal supply voltage1996 May 13 PIN DESCRIPTION • 1.2 W output power (BGY115A, BGY115B and 1 RF input BGY115D) 2 VC • 1.4 W output power (BGY115C/P) 3 VS • Easy control of output power by DC voltage 4 RF output • SMD outline. Flange ground APPLICATIONS • Hand-held transmitting equipment operating in the 824 to 849 MHz, 872 to 905 MHz, 890 to 915 MHz and 902 to 928 M...
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DISCRETE SEMICONDUCTORS

DATA SHEET BGY115A; BGY115B; BGY115C/P; BGY115D UHF amplifier modules

Product specification 1996 May 13 Supersedes data of May 1994 File under Discrete Semiconductors, SC09, FEATURES PINNING - SOT321A • 6 V nominal supply voltage1996 May 13 PIN DESCRIPTION • 1.2 W output power (BGY115A, BGY115B and 1 RF input BGY115D) 2 VC • 1.4 W output power (BGY115C/P) 3 VS • Easy control of output power by DC voltage 4 RF output • SMD outline. Flange ground

APPLICATIONS

• Hand-held transmitting equipment operating in the 824 to 849 MHz, 872 to 905 MHz, 890 to 915 MHz and 902 to 928 MHz frequency ranges.

DESCRIPTION

The BGY115A, BGY115B, BGY115C/P and BGY115D are1234three-stage UHF amplifier modules. Each module consists Top view MSA487 of three NPN silicon planar transistor chips mounted together with matching and bias circuit components on a metallized ceramic substrate. Fig.1 Simplified outline. QUICK REFERENCE DATA RF performance at Tmb = 25 °C. MODE OF f VS PL Gp η ZS; ZTYPE NUMBER L OPERATION (MHz) (V) (W) (dB) (%) (Ω) BGY115A CW 824 to 849 6 1.2 ≥27.8 typ. 50 50 BGY115B CW 872 to 905 6 1.2 ≥27.8 typ. 50 50 BGY115C/P CW 890 to 915 6 1.4 ≥28.5 typ. 50 50 BGY115D CW 902 to 928 6 1.2 ≥27.8 typ. 50 50 LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 134). SYMBOL PARAMETER MIN. MAX. UNIT VS DC supply voltage BGY115A, BGY115B, BGY115D − 8.5 V BGY115C/P − 9 V VC DC control voltage − 4 V PD input drive power − 5 mW PL load power BGY115A, BGY115B, BGY115D − 1.6 W BGY115C/P − 1.8 W Tstg storage temperature −40 +100 °C Tmb operating mounting base temperature −30 +100 °C 1996 May 13 2,

CHARACTERISTICS

ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; VC ≤ 3.5 V; Tmb = 25 °C; unless otherwise specified. SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT f frequency BGY115A 824 − 849 MHz BGY115B 872 − 905 MHz BGY115C/P 890 − 915 MHz BGY115D 902 − 928 MHz IQ leakage current VC = 0; PD < −60 dBm − − 100 µA IC control current note 1 − − 500 µA PL load power BGY115A, BGY115B, BGY115D 1.2 − − W BGY115C/P 1.4 − − W Gp power gain note 1 BGY115A, BGY115B, BGY115D 27.8 − − dB BGY115C/P 28.5 − − dB η efficiency note 1 45 50 − % H2 second harmonic note 1 − − −40 dBc H3 third harmonic note 1 − − −40 dBc VSWRin input VSWR note 1 − − 3 : 1 stability PD = 0 to 6 dBm; − − −60 dBc VS = 4.8 to 8.5 V; VC = 0 to 3.5 V; VSWR ≤ 6 : 1 through all phases; note 2 isolation VC = 0 − − −40 dBm Pn noise power bandwidth = 30 kHz; − − −90 dBm 45 MHz above f0; note 1 ruggedness note 3 no degradation Notes 1. Adjust VC for PL = 1.2 W (BGY115A, BGY115B and BGY115D); PL = 1.4 W (BGY115C/P). 2. Adjust VC for PL ≤ 1.2 W (BGY115A, BGY115B and BGY115D); PL ≤ 1.4 W, VS = 4.8 to8V(BGY115C/P). 3. Adjust VC for PL = 1.6 W; VS = 8.5 V; VSWR ≤ 10 : 1; (BGY115A, BGY115B and BGY115D). Adjust VC for PL = 1.6 W; VS = 9 V, VSWR ≤ 6 : 1 (BGY115C/P). 1996 May 13 3, MSA908 MSA899 2.0 80 handbook, halfpage handbook, halfpagePLη(W) (%) 1.6 824 MHz 1.2 824 MHz 849 MHz 849 MHz 0.8 0.40001234500.4 0.8 1.2 1.6VC(V) P L (W) ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. Fig.2 Load power as a function of control voltage; Fig.3 Efficiency as a function of load power; BGY115A, typical values. BGY115A, typical values. MSA903 MSA906 2.0 2.0 handbook, halfpage handbook, halfpagePLPL(W) (W) V = 6 V 1.6 S 1.6VS= 5.2 V1.2 1.2 0.8 0.8 0.4 0.400800 820 840 860 40 0 40 80 120 f (MHz) T ( omb C) ZS = ZL = 50 Ω; PD = 2 mW; VC = 3.5 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; VC = 3.5 V; Tmb = 25 °C. Fig.4 Load power as a function of frequency; Fig.5 Load power as a function of mounting base BGY115A, typical values. temperature; BGY115A, typical values. 1996 May 13 4, MSA912 MSA910 4 3.0 2.0 handbook, halfpage handbook, halfpageP V LC VSWR (V) in (W) 1.6 3 2.5 824 MHz

VC

849 MHz 1.2 2 2.0 VSWR in 0.8 1 1.5 0.4 0 1.0 0 800 820 840 860 20 10 0 10f (MHz) P D (dBm) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.2 W; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; VS = 6 V; VC = 3.5 V; Tmb = 25 °C. Fig.6 Control voltage and VSWR input as functions Fig.7 Load power as a function of drive power; of frequency; BGY115A, typical values. BGY115A, typical values. MSA901 handbook, halfpageH2, H3 (dBc) H2 H3 800 820 840 860 f (MHz) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.2 W; VS = 6 V; Tmb = 25 °C. Fig.8 Harmonics as functions of frequency; BGY115A, typical values. 1996 May 13 5, MSA909 MSA900 2.0 80 handbook, halfpage handbook, halfpagePLη(W) (%) 1.6 872 MHz 872 MHz 905 MHz 1.2 905 MHz 0.8 0.40001234500.4 0.8 1.2 1.6VC(V) P L (W) ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. Fig.9 Load power as a function of control voltage; Fig.10 Efficiency as a function of load power; BGY115B, typical values. BGY115B, typical values. MSA904 MSA907 2.0 2.0 handbook, halfpage handbook, halfpage PLPL(W) (W) 1.6VS= 6 V 1.6VS= 5.2 V1.2 1.2 0.8 0.8 0.4 0.400850 870 890 910 40 0 40 80 120 f (MHz) T mb ( o C) ZS = ZL = 50 Ω; PD = 2 mW; VC = 3.5 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; VC = 3.5 V; f = 890 MHz. Fig.11 Load power as a function of frequency; Fig.12 Load power as a function of mounting base BGY115B, typical values. temperature; BGY115B, typical values. 1996 May 13 6, MSA913 MSA911 4 3.0 2.0 handbook, halfpage handbook, halfpageP V LC VSWR in (W) (V) 1.6 3 2.5 872 MHz

VC

905 MHz 1.2 2 2.0 VSWR in 0.8 1 1.5 0.4 0 1.0 0 850 870 890 910 20 10 0 10f (MHz) P D (dBm) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.2 W; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; VS = 6 V; VC = 3.5 V; Tmb = 25 °C. Fig.13 Control voltage and VSWR input as functions Fig.14 Load power as a function of drive power; of frequency; BGY115B, typical values. BGY115B, typical values. MSA902 handbook, halfpageH2, H3 (dBc) H3 H2 850 870 890 810 f (MHz) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.2 W; VS = 6 V; Tmb = 25 °C. Fig.15 Harmonics as functions of frequency; BGY115B, typical values. 1996 May 13 7, MBD604 MBD605 2 60 η 915 MHz P (%)L (W) 890 MHz 915 MHz 890 MHz0001234500.4 0.8 1.2 1.6 2 VC (V) PL (W) ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. Fig.16 Load power as a function of control voltage; Fig.17 Efficiency as a function of load power; BGY115C/P, typical values. BGY115C/P, typical values. MBD606 MBD60722handbook, halfpage PL V = 6 V 915 MHzS (W) PL (W) 890 MHz 5.2V1100860 880 900 920 940 −40 0 40 80 120 f (MHz) T omb ( C) ZS = ZL = 50 Ω; PD = 2 mW; VC = 3.5 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; VC = 3.5 V. Fig.18 Load power as a function of frequency; Fig.19 Load power as a function of mounting base BGY115C/P, typical values. temperature; BGY115C/P, typical values. 1996 May 13 8, MBD615 MBD616 4 3.0 60 handbook, halfpage handbook, halfpage VC VSWR η in (V) (%)VC 3 2.5 2 2.0 VSWRin 20 1 1.5 0 1.0 0 860 880 900 920 940 860 880 900 920 940 f (MHz) f (MHz) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.4 W; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.4 W; VS = 6 V; Tmb = 25 °C. Fig.20 Control voltage and VSWR input as functions Fig.21 Efficiency as a function of frequency; of frequency; BGY115C/P, typical values. BGY115C/P, typical values. MBD617 −20 handbook, halfpage H2, H3 (dBc) −30 −40 H3 −50 H2 −60 −70 860 880 900 920 940 f (MHz) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.4 W; VS = 6 V; Tmb = 25 °C. Fig.22 Harmonics as functions of frequency; BGY115C/P, typical values. 1996 May 13 9, MBD611 MBD612 2 80 η (%) PL 902 MHz 60 (W) 902 MHz 928 MHz 1 40 928 MHz0001234500.4 0.8 1.2 1.62VC(V) P L (W) ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; Tmb = 25 °C. Fig.23 Load power as a function of control voltage; Fig.24 Efficiency as a function of load power; BGY115D, typical values. BGY115D, typical values. MBD613 MBD61422handbook, halfpage V = 6 V 902 MHzPSPL L (W) (W) 928 MHz VS = 5.2V1100870 890 910 930 950 40 0 40 80 120 f (MHz) Tm b ( o C) ZS = ZL = 50 Ω; PD = 2 mW; VC = 3.5 V; Tmb = 25 °C. ZS = ZL = 50 Ω; PD = 2 mW; VS = 6 V; VC = 3.5 V. Fig.25 Load power as a function of frequency; Fig.26 Load power as a function of mounting base BGY115D, typical values. temperature; BGY115D, typical values. 1996 May 13 10, MBD610 MBD609 4 3.0 2.0 handbook, halfpagePVLC VSWR in (W)(V) 1.6 902 MHz 3 2.5

VC

928 MHz 1.2 2 2.0 VSWR in 0.8 1 1.5 0.4 0 1.0 0 870 890 910 930 950 f (MHz) 20 10 0 10P D (dBm) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.2 W; VS = 6 V; Tmb = 25 °C. ZS = ZL = 50 Ω; VS = 6 V; VC = 3.5 V; Tmb = 25 °C. Fig.27 Control voltage and VSWR input as functions Fig.28 Load power as a function of drive power; of frequency; BGY115D, typical values. BGY115D, typical values. MBD608H2, H3 (dBc) H3 H2 870 890 910 930 950 f (MHz) ZS = ZL = 50 Ω; PD = 2 mW; PL = 1.2 W; VS = 6 V; Tmb = 25 °C. Fig.29 Harmonics as functions of frequency; BGY115D, typical values. 1996 May 13 11, handbook, full pagewidth pin numbers1234L1 L2 Z1 C1 C4 Z2 C2 C6 C3 C5 RF input VC MSA914 VS RF output Fig.30 Test circuit. handbook, full pagewidth123450 Ω 50 Ω input outputVVMSA915C S Dimensions in mm. Fig.31 Printed-circuit board layout. 1996 May 13 12, List of components (see Fig.30) COMPONENT DESCRIPTION VALUE CATALOGUE NO. C1, C4 multilayer ceramic chip capacitor 100 nF 2222 852 47104 C2, C5 35 V tantalum capacitor 2.2 µF − C3, C6 multilayer ceramic chip capacitor 33 pF 2222 851 13339 L1, L2 Ferroxcube coil 5 µH 3122 108 20153 Z1, Z2 stripline; note 1 50 Ω − Note 1. The striplines are on a double copper-clad printed-circuit board with PTFE fibre-glass dielectric (εr = 2.2); thickness 1⁄32 inch. 1996 May 13 13, PACKAGE OUTLINE handbook, full pagewidth 25.0 24.6 1.65 22.1 1.25 21.7 4.0 3.6 4.3 3.9 3.1 (4×) 2.9 5.1 13.4 4.9 13.0 2.4 1.2 MSA3522.21234min 0.55 (4×) 0.45 0.25 0.30 M 0.1 3.7 0.20 3.3 5.08 7.62 5.08 (4×) Dimensions in mm. Fig.32 SOT321A. 1996 May 13 14,

DEFINITIONS

Data Sheet Status Objective specification This data sheet contains target or goal specifications for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specifications. Limiting values Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). 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. LIFE SUPPORT APPLICATIONS These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale. 1996 May 13 15]
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