GS3031 [GENNUM]
Consumer Circuit;型号: | GS3031 |
厂家: | GENNUM CORPORATION |
描述: | Consumer Circuit 商用集成电路 |
文件: | 总8页 (文件大小:163K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
®
D y n a m E Q II
W DRC Sys tem
GS3 0 3 1 / GS3 0 3 2 DATA SHEET
FEATURES
DEVICE DESCRIPTION
• dual channel signal processing
The DynamEQ® II hybrid family is a second generation Wide
Dynamic Range Compression (WDRC) system.
• 2nd (4th) order state variable filter
• adjustable crossover frequency
GS3031 (GS3032) hybrid incorporates 12 dB/oct (24 dB/oct)
filtering. All capacitors necessary for operation are included
on the hybrid.
• adjustable compression ratio from 1:1 to 4:1
• independent compression ratio adjustment for
low and high frequency band
The gain and frequency response is dependant on the user’s
environment.
• adjustable AGC threshold levels
• unique twin average detectors
• handles high input levels
Twin Averaging Detector circuits are optimized for sound
quality during normal listening without sacrificing comfort
during sudden loud inputs.
All input signals to DynamEQ® II, are processed by 2:1
compression before subsequent band splitting.
• low THD and IMD distortion
• drives Class D Integrated Receivers
• MPO range externally adjustable
The 12 dB/oct (24 dB/oct) band split filter ahead of the
e xp a nd e r/c omp re s s or c irc uits a llows for ind e p e nd e nt
compression ratio adjustment (1:1 to 4:1) in high and low
frequency channels.
STANDARD PACKAGING
Hybrid Typical Dimensions
0.250 in x 0.115 in x 0.080 in)
(6.35 mm x 2.91 mm x 2.03 mm)
The gain setting stage is followed by a class D Integrated
Receiver preamplifier stage. Symmetrical peak clipping is
used to achieve MPO adjustment.
R
V
B
R
LO
13
1:1
14
2:1
10
4:1
11
HI
12
16
C6
C5
10n
1M
0µ22
1M
SLOW
AVERAGE
DETECTOR
FAST
AVERAGE
DETECTOR
V
REGULATOR
9
REG
C1
0µ1
1
CONTROL
RECTIFIER
R
15
TH
X
Vb
50k
R
AGC_IN
48k
R
H
High Frequency
Expander / Compressor
C4
12 dB / Oct
(24 dB / Oct)
BAND SPLIT
FILTER
C2
0µ2
10k
OUT
MPO
- B
17
- C
- A
IN
8
6
0µ1
48k
R
8k4
L
Low Frequency
Expander / Compressor
12k
GND
14k
5
C3
GS3031
C7
0µ22
0µ1
(GS3032)
2
1
3
7
4
F
R
BC
B
OUT
B
OUT
ƒc
IN
IN
All resistors in ohms, all capacitors
in microfarads, unless otherwise stated
Patent Pending
FUNCTIONAL BLOCK DIAGRAM
Revision Date: J uly 1 9 9 8
Document No. 5 2 1 - 5 2 - 0 2
GENNUM CORPORATION P.O. Box 4 8 9 , Stn. A, Burlington, Ontario, Canada L7 R 3 Y3 tel. +1 (9 0 5 ) 6 3 2 -2 9 9 6
W eb Site: www.gennum.com E-mail: hipinfo@gennum.com
PAD CONNECTION
ABSOLUTE MAXIMUM RATINGS
V
V
R
2:.1
10
4:.1
11
RHI
12
1.1
14
RLO
13
REG
B
PARAMETER
VALUE / UNITS
3 VDC
TH
15
Supply Voltage
16
17
1
9
8
Power Dissipation
25 mW
Operating Temperature Range
Storage Temperature Range
-10° C to 40° C
-20° C to 70° C
OUT
IN
7
2
3
6
4
5
CAUTION
CLASS 1 ESD SENSITIVITY
B
B
BC
F
OUT
RFC
MPO
GND
OUT
IN
IN
ELECTRICAL CHARACTERISTICS
Conditions: Supply Voltage VB = 1.3 V, Frequency = 1 kHz, Temperature = 25°C
PARAMETER
SYMBOL
IAMP
CONDITIONS
MIN
TYP
370
-
MAX
UNITS
µA
Hybrid Current
-
1.1
-
530
-
Minimum Voltage
Vb
V
Total Harmonic Distortion
THD with Maximum Allowable Input
Input Referred Noise
Total System Gain
THD
THDM
IRN
V
IN = -40dBV at 1kHz
IN = -23dBV, Rvc = 47kΩ
Aweight
IN = -90dBV
ILOAD = 30µA
0.2
2
1.0
10
%
V
-
%
-
3.0
49
-
µVRMS
dB
AV
V
46
890
52
Regulator Voltage
VREG
930
1000
mV
AGC
Lower Threshold
THLO
THHI
∆A
-91
-36
37.5
26
-87
-32
40.5
29
-83
-28
43.5
32
dBV
dBV
dB
Upper Threshold
Compression Gain Range
System Gain in Compression
Min. Compression Ratio
Gain(-90dBV ) -Gain(-30dBV )
IN IN
A60
VIN =-60dBV
dB
CMP1 :1
V =3kHz, -60dBV to -40dBV,
IN
Rhp=1:1 Rlp=1:1
0.9
1.0
1.1
Ratio
Max. Comp. Ratio
CMP4 :1
VIN =3kHz, -60dBV to -40dBV,
Rhp=4:1, Rlp=4:1
3.6
4.0
10
4.3
Ratio
ms
Fast Detector Time Constant
Slow Detector Time Constant
FILTER
τFAST
-
-
-
-
τSLOW
220
ms
Maximum Cross-over Frequency
Nominal Cross-over Frequency
Minimum Cross-over Frequency
ƒc_0
ƒc_22
ƒc_220
Rƒc=0Ω
3.0
1.5
-
3.9
1.9
0.9
-
kHz
kHz
kHz
Rƒc=22kΩ
Rƒc=220kΩ
2.3
1.4
Filter Rolloff Rate (GS3027)
(GS3028)
-
-
12
24
-
-
dB/oct
dB/oct
STAGE A and B
Open Loop Gain (B)
Input Impedance (A)
OUTPUT STAGE
Stage Gain
AOL_B
RIN
-
52
11
-
dB
9
13
kΩ
AC
V =-30dBV
7
-14.5
13
9
-12.5
15
11
-10.5
17
dB
dBV
dB
IN
Max Output Level
MPO Range
MPO
∆MPO
ROUT
RVC=220kΩ,V =-25dBV
IN
RMPO=0Ω to 50kΩ
Output Resistance
-
24
-
kΩ
All conditions and parameters remain as shown in Test Circuit unless otherwise stated in "Conditions" column.
521 - 52 - 02
2
V
B
14
10
11
16
13
12
C6
C5
0µ22
10n
1M
1M
SLOW
FAST
REGULATOR
AVERAGE
DETECTOR
AVERAGE
DETECTOR
9
C1
2µ2
0µ1
1
CONTROL
RECTIFIER
15
X
Vb
50k
R
= ∞
TH
R
AGC_IN
48k
R
H
High Frequency
Expander / Compressor
C4
12 dB / Oct
(24 dB / Oct)
BAND SPLIT
FILTER
C2
0µ2
10k
3.9k
- B
17
- C
- A
8
6
0µ1
V
IN
48k
50k
R
L
8k4
Low Frequency
Expander / Compressor
12k
14k
5
C3
GS3031
C7
0µ22
0µ1
R
=0
(GS3032)
MPO
1
3
7
2
4
All resistors in ohms, all capacitors
in microfarads, unless otherwise stated
R
= 22k
R
= 100k
ƒc
VC
Fig. 1 Production Test Circuit
R
HI
200k Linear
V
B
R
LO
200k Linear
14
10
11
16
13
12
C5
10n
1M
C6
0µ22
1M
SLOW
FAST
REGULATOR
AVERAGE
DETECTOR
AVERAGE
DETECTOR
9
C1
0µ1
1
CONTROL
R
100k
Log
RECTIFIER
15
TH
X
V
B
Vb
50k
R
AGC_IN
48k
R
H
High Frequency
Expander / Compressor
C4
12 dB / Oct
(24 dB / Oct)
BAND SPLIT
FILTER
C2
0µ2
10k
- B
- C
17
- A
8
6
0µ1
Any
48k
8k4
Any Knowles
or
Microtronic
microphone
2µ2
Knowles
Class D
receiver
R
L
Low Frequency
Expander / Compressor
12k
14k
5
R
MPO
50k
Log
C3
GS3031
C7
0µ22
0µ1
(GS3032)
1
3
7
2
4
All resistors in ohms, all capacitors
R
in microfarads, unless otherwise stated
ƒc
R
VC
100k Log
100k Log
Fig. 2 Maximum Flexibility Hearing Instrument Application
3
521 - 52 - 02
V
B
14
10
11
16
13
12
C6
C5
10n
1M
0µ22
1M
SLOW
FAST
REGULATOR
AVERAGE
DETECTOR
AVERAGE
DETECTOR
9
C1
0µ1
1
CONTROL
RECTIFIER
15
V
X
B
Vb
50k
R
AGC_IN
48k
R
H
High Frequency
Expander / Compressor
C4
12 dB / Oct
(24 dB / Oct)
BAND SPLIT
FILTER
C2
0µ2
10k
- B
17
- C
- A
8
6
0µ1
Any
Any Knowles
or
48k
Knowles
Class D
receiver
R
8k4
L
Microtronic
microphone
Low Frequency
Expander / Compressor
12k
14k
5
C3
GS3031
C7
0µ22
0µ1
(GS3032)
2
1
3
7
4
All resistors in ohms, all capacitors
in microfarads, unless otherwise stated
R
VC
100k Log
Fig. 3 Minimum Component Hearing Instrument Application
R
= 0
= 0
R
= 200k
HI2
HI1
V
=1.3V
B
R
LO2
R
= 200k
LO1
14
10
11
16
13
12
C5
10n
1M
C6
0µ22
1M
SLOW
FAST
REGULATOR
AVERAGE
DETECTOR
AVERAGE
DETECTOR
9
C1
2µ2
0µ1
1
CONTROL
RECTIFIER
15
X
Vb
50k
R
= ∞
TH
R
AGC_IN
48k
R
H
High Frequency
Expander / Compressor
C4
12 dB / Oct
(24 dB / Oct)
BAND SPLIT
FILTER
C2
0µ2
10k
3.9k
- B
17
- C
- A
8
0µ1
Pink Noise
Generator
or
48k
R
8k4
L
50k
Low Frequency
Expander / Compressor
1kHz for I/O
12k
6
14k
5
C3
GS3031
C7
0µ22
0µ1
(GS3032)
R
=0
2
1
3
7
MPO
4
All resistors in ohms, all capacitors
in microfarads, unless otherwise stated
R
=100k
ƒc
R
=100k
VC
Fig. 4 Characterization Circuit (Used to generate typical curves)
521 - 52 - 02
4
TYPICAL PERFORMANCE CURVES
-10
50
40
30
20
10
0
VIN = -96dBV
VIN = -80dBV
-20
2:1
3:1
-30
4:1
VIN = -60dBV
-40
-50
1.5:1
VIN = -40dBV
1.2:1
1:1
-60
-70
VIN = -20dBV
-80
-90
-10
-100
-90
- 80
-70
-60
-50
-40
-30
-20
20
100
1k
10k
20k
INPUT LEVEL (dBV)
FREQUENCY (Hz)
Fig. 5 I/O Transfer function for Different Compression Ratios
Fig. 6 Frequency Response for Different Input Levels
50
40
30
20
10
0
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
VIN = -60dBV
RVC = 220kΩ
RVC = 100kΩ
RVC = 47kΩ
RVC = 22kΩ
RVC = 10kΩ
0.0
-10
1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4.0
20
100
1k
10k
20k
COMPRESSION RATIO (RATIO)
FREQUENCY (Hz)
Fig. 7 Compression Settings Resistor Ratio for High Pass
Fig. 8 Frequency Response for Different RVC Values
Channel (RHI1 & RHI2) and Low Pass Channel (RLO1 & RLO2
)
-10
-20
-30
-40
-50
-60
-70
-10
COMPRESSION 1:1
RM PO = 0Ω
-20
-30
-40
-50
RM PO = 10kΩ
RM PO = 22kΩ
RM PO = 50kΩ
RTH = ∞
RTH = 0Ω
RTH = 10kΩ
RTH = 22kΩ
RTH = 47kΩ
RTH = 100kΩ
-100
-90
-80
-70
-60
-50
-40
30
-20
-50
-40
-30
-20
INPUT LEVEL (dBV)
INPUT LEVEL (dBV)
Fig. 10 I/O Transfer Function for
Different RTH Resistors
Fig. 9 I/O Transfer Function for
Different RMPO Resistors
5
521 - 52 - 02
1000
100
10
1000
100
10
198kΩ
1.6MΩ
1:1
9kΩ
72kΩ
2:1
4:1
15kΩ
1
1
-100
-90
-80
-70
-60
-50
-40
30
-20
-100
-90
-80
-70
-60
-50
-40
30
-20
INPUT LEVEL (dBV)
INPUT LEVEL (dBV)
Fig. 12 Expander / Compressor Resistors Values
Fig. 11 Stage A Compressor Feedback Resistor Value
50
40
30
20
10
0
50
40
30
20
10
0
Crossover
Frequency
Crossover
Frequency
R
ƒc
= ∞
R
ƒc
= ∞
4:1 in Low Frequency
1:1 in High Frequency
4:1 in Low Frequency
1:1 in High Frequency
1:1 in Low Frequency
4:1 in High Frequency
1:1 in Low Frequency
4:1 in High Frequency
V
IN = -80dBV
VIN = -80dBV
-10
-10
20
100
1k
10k 20k
20
100
1k
10k 20k
FREQUENCY (Hz)
FREQUENCY (Hz)
Fig. 13 Crossover Frequency Representation
for GS3031 Processor
Fig. 14 Crossover Frequency Representation
for GS3032 Processor
50
40
30
20
10
0
50
1:1 in Low Frequency Gain
4:1 in High Frequency
1:1 in Low Frequency Gain
4:1 in High Frequency
R
=∞
ƒc
40
30
20
10
0
R
=∞
ƒc
100kΩ
100kΩ
47kΩ
47kΩ
22kΩ
10kΩ
0Ω
22kΩ
10kΩ
0Ω
VIN = -80dBV
VIN = -80dBV
-10
-10
20
20
100
1k
10k 20k
100
1k
10k 20k
FREQUENCY (Hz)
FREQUENCY (Hz)
Fig. 16 GS3032 Frequency Response
for Different R Resistor Values
Fig. 15 GS3031 Frequency Response
for Different R Resistor Values
ƒc
ƒc
521 - 52 - 02
6
10
10
ƒ= 1 kHz
VIN = -40dBV
GS3032
1
1
GS3032
GS3031
1K
GS3031
-50
0.1
0.1
-80
100
10K
-70
-60
-40
-30
-20
FREQUENCY (Hz)
INPUT LEVEL (dBV)
Fig. 17 THD and Noise vs Frequency
Fig. 18 THD and Noise vs Input Level
10
10
VIN = -40dBV
ƒ = 4kHz
∆ƒ = 200Hz
∆ƒ = 200Hz
1
1
GS3031
GS3031
0.1
0.01
GS3032
GS3032
0. 1
3K
10K
100K
-80
-70
-60
-50
-40
-30
-20
FREQUENCY (Hz)
INPUT LEVEL (dBV)
Fig. 19 Intermodulation Distortion (CCIF) vs Frequency
Fig. 20 Intermodulation Distortion
(CCIF) vs Input Level
7
521 - 52 - 02
0.250
(6.35)
X X X X X X
G S 3 0 3 2
0.090 MAX
(2.28)
15
11
10
13
14
12
16
17
9
0.115
(2.92)
8
7
0.015
(0.38)
1
2
3
6
4
5
0.0165
(0.42)
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.
Dimension ±0.003 (±0.08) unless otherwise stated.
XXXXXX - work order number.
Component name - either GS3031 or GS3032
This hybrid is designed for point to point soldering.
Contact Gennum Representative for pad layout in electronic format.
Fig. 21 Hybrid Layout & Dimensions
GENNUM CORPORATION
MAILING ADDRESS:
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.
P.O. Box 489, Stn. A, Burlington, Ontario, Canada L7R 3Y3
Tel. +1 (905) 632-2996 Fax +1 (905) 632-2814
SHIPPING ADDRESS:
970 Fraser Drive, Burlington, Ontario, Canada L7L 5P5
REVISION NOTES:
Updated to Data sheet
GENNUM JAPAN CORPORATION
C-101, Miyamae Village, 2-10-42 Miyamae, Suginami-ku, Tokyo 168-0081,
Japan
Tel. +81 (3) 3334-7700 Fax: +81 (3) 3247-8839
Gennum Corporation assumes no responsibility for the use of any circuits described herein and makes no representations that they are free from patent infringement.
© Copyright September 1995 Gennum Corporation.
All rights reserved.
Printed in Canada.
521 - 52 - 02
8
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