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| Linear Class H Current Manager Hybrid GS3013 DATA SHEET FEATURES * complete linear system * current mode class H output stage * current drive power amp * low distortion / low noise * low amplifier current 190 A typical STANDARD PACKAGING * Hybrid Typical Dimensions 0.225in x 0.130in x 0.110in (5.72mm x 3.31mm x 2.79mm) DESCRIPTION The GS3013 is a linear hybrid containing three amplifier stages. This product incorporates a current mode class H power amplifier. By adapting the bias of the output stage to the requirements of the signal being processed, significant current savings can be realised compared to traditional class A amplifiers. The adaptive action does not compromise the characteristics of a current drive output stage. In addition to the output stage, two additional stages of preamplification are provided to allow filtering and gain adjustment to be easily accomplished. VB1 5 VB2 6 C4 11 GS3013 C4 22 1 VB 14 GC590 CONTROL VB 24k VREG 9 C1 220n IN 10 C2 82n 8 VREG 12k 9 -A 12k -B + C - + 2 3 5 4 OUT 2 RE 1 RE1 170 7 6 10 12 11 13 4 125 MGND 8 C3 82n 3 GND2 16 15 14 13 12 7 AIN All resistors in ohms, all capacitors in farads unless otherwise stated. AOUT BRIN BIN BOUT GND FUNCTIONAL BLOCK DIAGRAM Revision Date: May 1998 Document No. 520 - 87 - 02 GENNUM CORPORATION P.O. Box 489, Stn. A, Burlington, Ontario, Canada L7R 3Y3 tel. +1 (905) 632-2996 Web Site: www.gennum.com E-mail: hipinfo@gennum.com ABSOLUTE MAXIMUM RATINGS PARAMETER Supply Voltage Power Dissipation Operating Temperature Range Storage Temperature Range VALUE / UNITS 5 VDC 25 mW -10 C to 40 C -20 C to 70 C PAD CONNECTION RE GND2 RE1 AIN AOUT BRIN 1 16 15 7 14 2 3 4 5 6 OUT VB1 VB2 GND ELECTRICAL CHARACTERISTICS Conditions: Frequency = 1 kHz, Temperature 25 C, Voltage Supply = 1.3 VDC PARAMETER OVERALL SYMBOL CONDITIONS Amplifier Current Minimum Operating Voltage Overall Gain Distortion Input Referred Noise VOLTAGE REGULATOR Regulator Voltage Output Noise STAGE A AND STAGE B Input Bias Current DC Voltage Gain Current Source Capabilities Output Voltage Swing - Low STAGE C AND CONTROL CIRCUIT Maximum Current Sinking Output Impedance Minimum Emitter Voltage D E DS NN EG M SI ME OD C EW RE TN OR NO F CAUTION CLASS 1 ESD SENSITIVITY BIN 13 C4 8 MGND VREG BOUT 11 12 10 9 IN MIN TYP MAX UNITS I AMP VB AV 80 - 190 - 300 1.1 57 1 A V 51 - 54 dB THD VIN = -40 dBV 0.2 % IRN RTRIM = RVC = 10 k A Weighted Filter - - 2.5 VRMS V REG I LOAD = 30 A 870 - 920 2.9 970 - mVDC A Weighted VRMS I BIAS -25 - 0 25 - nA Stage A AOL -A AOL -B 52 42 dB dB A Stage B I SOURCE V SINK 15 30 - 260 315 - mV I SINK RE grounded, V P4 = 1.3 V 3 - 6 - mA ROUT 24 5 - k V RE-MIN 2 9 mV Maximum Emitter Voltage Minimum Transducer Current Maximum Transducer Current Maximum/Minimum Transducer Current Ratio Dynamic Headroom Time Constant V RE-MAX I T-MIN I T-MAX I RANGE Headroom TC Note 1 RE, RE1 shorted RE, RE1 shorted 62 26 750 16 14 - 66 71 930 20 17 100 74 126 1100 28 22 - mV A A dB dB mS All parameters and switches remain as shown in the Test Circuit unless otherwise stated in CONDITIONS column. Notes: 1. Headroom = 20 Log (V RE DC / V REACRMS) [V IN = -70 dBV] 520 - 87 - 02 2 1.3V VB2 5 6 C4 11 2.6V GS3013 C4 22 1 VB 14 GC590 CONTROL VB 24k 1k VREG 9 C1 220n 3k9 IN 10 8 VREG D E DS NN EG M SI ME OD C EW RE TN OR NO F -A 12k 12k VI C2 82n 9 -B + - - 2 OUT 4 2 1 C + 3 RE 5 RE1 170 125 7 6 10 12 11 13 4 MGND 8 C3 82n 3 GND2 16 15 14 13 12 7 AIN AOUT CA BRIN BIN BOUT GND 100k RVC 01 100k RTRIM All resistors in ohms, all capacitors in farads unless otherwise stated. Fig. 1 Production Test Circuit 1.3V VB1 VB2 6 C4 11 5 GS3013 C4 22 1 VB 14 GC590 VREG 9 C1 220n 8 VREG CONTROL VB 24k - 12k 10 -A 12k IN C2 82n 9 -B + - 2 OUT 4 C + 3 2 RE 5 170 1 RE1 125 7 6 10 12 11 13 4 C3 82n 8 3 GND2 MGND 16 15 14 13 12 7 AIN AOUT BRIN BIN BOUT GND 100k RVC CA 01 100k RTRIM All resistors in ohms, all capacitors in farads unless otherwise stated. Fig. 2 Typical Hearing Instrument Application 3 520 - 87 - 02 VOLUME CONTROL CA 01 D E DS NN EG M SI ME OD C EW RE TN OR NO F 12 13 14 15 16 1 11 2 10 3 + REC MIC + 9 8 7 6 5 4 All resistors in ohms, all capacitors in farads unless otherwise stated. BATTERY Fig. 3 Typical Assembly Diagram VB=1.3V VB2 6 5 GS3013 1 VB GC590 VREG 9 C1 220n 8 VREG 3k9 IN 12k 10 -A 12k C2 82n 9 -B VI 7 6 10 12 MGND 8 16 15 14 13 AIN AOUT RVC 10k All resistors in ohms, all capacitors in farads unless otherwise stated. CA 01 BRIN BIN RGT 100k Fig. 4 Characterization Circuit 520 - 87 - 02 4 + - C4 11 VL=2xVB=2.6V C4 22 14 RL 1k3 CONTROL VB 24k - + - 2 OUT RE 4 2 1 C + 3 5 RE1 170 125 11 13 4 C3 82n 3 GND2 12 7 BOUT GND 20 RVC=100k 0 RVC=10k 60 VIN=80dBV (PINK NOISE GENERATOR) RVC=100k 50 OUTPUT LEVEL (dBV) 40 -20 GAIN (dB) RVC=10k 30 -40 RVC=1k -60 RVC=100 20 RVC=1k 10 THD (%) D E DS NN EG M SI ME OD C EW RE TN OR NO F -80 0 -120 -100 -80 -60 -40 -20 20 100 1k 10k 20k INPUT LEVEL (dBV) FREQUENCY (Hz) Fig. 5 Input vs Output Transfer Function for the Different Values of the RVC Resistor Fig. 6 Frequency Response for Different RVC Values 1.0 1.0 TRANSDUCER CURRENT (mA) 0.5 0.4 RELATIVE GAIN (dB) 0 0.2 RL=0 VL =VB -0.5 0.1 0.06 -80 -70 -60 -50 -40 -30 -20 -1 1.0 1.2 1.4 1.6 1.8 2.0 VRE LEVEL (dBV) SUPPLY VOLTAGE (V) Fig. 7 Transducer Current Characteristics Fig. 8 System Gain vs Supply 10 = 1kHz 1 0.1 -60 -50 -40 -30 -20 INPUT LEVEL (dBV) Fig. 9 THD & Noise vs Input Level 5 520 - 87 - 02 10 60 PHASE GAIN 180 50 90 1M 1M 10 1.3V THD & NOISE (%) GAIN (dB) VIN=-40dBV 1 40 2.2k 10 0 VOUT PREAMP 30 VAC -90 RELATIVE GAIN (dB) D E DS NN EG M SI ME OD C EW RE TN OR NO F 0.1 100 1k 10k 20 20 100 1k 10k -180 20k FREQUENCY (Hz) FREQUENCY (Hz) Fig. 10 THD & Noise vs Frequency Fig. 11 Stage A Open Loop Gain & Phase vs Frequency 50 180 10 PHASE 40 GAIN (dB) 1M 1M 30 0 10 1.3V 2.2k 10 VOUT 20 PREAMP -90 VAC NOISE (V/Hz) GAIN 90 10 20 100 1k 10k -180 20k 1 20 100 1k 10k 20k FREQUENCY (Hz) FREQUENCY (Hz) Fig. 12 Stage B Open Loop Gain & Phase vs Frequency Fig. 13 Output Noise vs Frequency 3 RGT=10k RGT=10k 2 1 0 -1 -2 -3 -20 -10 0 10 20 30 40 50 TEMPERATURE (C) Fig. 14 Relative Gain vs Temperature 520 - 87 - 02 6 0.225 (5.72) 0.130 (3.31) GS3013 XXXX YYWW XXXXXX D E DS NN EG M SI ME OD C EW RE TN OR NO F 0.120 (3.05) MAX C4 12 13 14 15 16 1 11 2 10 C4 C4 C1 3 9 8 7 6 5 4 Dimension units are in inches. Dimensions in parenthesis are in millimetres converted from inches and include minor rounding errors. 1.0000 inches = 25.400 mm. Smallest pad no.3 0.025 x 0.018 (0.63 x 0.46). Largest pad no.7 0.039 x 0.025 (0.99 x 0.64). Dimension tolerances: 0.005 (+0.13) unless otherwise stated. Pad numbers and capacitor numbers for illustration only. XXXXXX - work order number. This hybrid is designed for point to point manual soldering. Fig. 8 Hybrid Layout & Dimensions DOCUMENT IDENTIFICATION: DATA SHEET The product is in production. Gennum reserves the right to make changes at any time to improve reliability, function or design, in order to provide the best product possible. REVISION NOTES: Updated to Data sheet Gennum Corporation assumes no responsibility for the use of any circuits described herein and makes no representations that they are free from patent infringement. (c) Copyright April 1994 Gennum Corporation. All rights reserved. Printed in Canada. 7 520 - 87 - 02 |
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