ETC LS509

Class A Amplifier with
3 Gain Blocks & Schottky Diodes
LS509 DATA SHEET
DESCRIPTION
FEATURES
• 140 µA typical current drain
•
The LS509 is a Class A amplifier utilizing Gennum’s proprietary
low voltage JFET technology. It consists of two singleended, low noise inverting gain blocks, a Class A output
stage, an on-chip microphone decoupling resistor and a
pair of Schottky diodes for symmetrical peak clipping.
low noise and distortion
• 1.0 to 5 VDC operating range
•
independent preamplifier
•
2 DC coupled stages
•
class A output stage
•
variable transducer current
•
Schottky diodes for MPO control
•
4 kΩ microphone decoupling resistor
Blocks A and B typically have an open loop voltage gain of
56 dB, with the closed loop gain set by the ratio of the
feedback resistor to the source impedance. It is recommended
that the maximum closed loop gain be 20 dB lower than the
open loop gain. All blocks of the device are internally bias
compensated, preventing any DC current flow via external
feedback resistors. Without this compensation, audible
scratchiness would be present during changes in volume
control settings.
STANDARD PACKAGING
The output stage of the LS509 is a Class A current drive.
It has a fixed reference voltage of typically 29 mV at pin 2
of the device. The current that flows in the transducer is the
ratio of the 29 mV reference voltage and the on-chip
emitter resistor (R ). To increase the bias current in the
E
transducer, simply place an external RE resistor from pin
2 to ground, thereby decreasing the equivalent emitter
resistance and increasing the current.
• 10 pin PLID®
• 10 pin SLT
• Chip (61 x 55 mils)
The LS509 also contains a pair of Schottky diodes in the
feedback configuration of the output stage, which provides
approximately 12 dB of MPO control.
VB
8
VMIC
7
RMIC
9
MPO
21k
A I/P
6
-A
-B
-C
10
2
C O/P
RE
RE
5
A O/P
4
B I/P
3
B O/P
1
GND
All resistors in ohms, all capacitors in farads unless otherwise stated
BLOCK DIAGRAM
Revision Date: January 2001
Document No. 510 - 12 - 08
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: [email protected]
ABSOLUTE MAXIMUM RATINGS
PIN CONNECTION
PARAMETER
VALUE/UNITS
Supply Voltage
A OUT
5 V DC
Power Dissipation
25 mW
Operating Temperature Range
A IN
6
VMIC
B OUT
-10°C to 40° C
Storage Temperature Range
5
B IN
VB
RE
-20°C to 70° C
GND
MPO
C OUT
10
1
CAUTION
CLASS 1 ESD SENSITIVITY
ELECTRICAL CHARACTERISTICS
VP - Pin voltage measured with conditions as shown in Test Circuit.
Positive current corresponds to current INTO the pin.
Negative current corresponds with current OUT of the pin.
Conditions: Frequency = 1 kHz, Temperature = 25°C, Supply Voltage VB = 1.3 V
PARAMETER
SYMBOL
Amplifier Current
IAMP
Transducer Current
ITRANS
Maximum Transducer Current
ITRANS (MAX)
CONDITIONS
V P2 = 0 V
MIN
TYP
MAX
UNITS
75
140
205
µA
170
230
290
µA
2
-
-
mA
A Input Bias Voltage (pin 6)
VBIAS A
500
570
650
mV
A Input Bias Current (pin 6)
IBIAS A
RFA = 1 M (Note 1)
-50
0
50
nA
B Input Bias Current (pin 4)
IBIAS B
RFB = 1 M (Note 2)
-50
0
50
nA
A O/P Voltage Swing-Hi (pin 5)
VOH A
200
580
-
mV
A Output Swing-Lo (pin 5)
V OL A
200
280
-
mV
A Open Loop Voltage Gain
AOL
C Output Sat. Voltage (pin 10)
VSAT C
A Output Current Capability (pin 5)
AOUT
Diode Voltage Drop
VD
Emitter Bias Voltage (pin 2)
VRE
On-chip Microphone Resistor
RMIC
On-chip Emitter Resistor
RE
Input Referred Noise
IRN
Harmonic Distortion
THD
V IN = 0.4 V DC, RFA = ∞ ,
IP5 = -10 µA (Note 3)
IIN = +1µA, RFA = ∞ ,
IP5 = +10 µA (Note 4)
46
56
-
dB
-
100
180
mV
-
30
-
µA
140
265
325
mV
21.5
28.5
35.5
mV
3
4
5
kΩ
90
125
160
Ω
NFB 0.2 to10kHz at 12dB/Oct
-
1
-
µVRMS
V OUT = 500 mVRMS
-
1
-
%
RL = 1 kΩ, VP2 = 0 V
(S2 = b) R L =
∞,
(Note 5)
All parameters and switches remain as shown in Test Circuit unless otherwise stated in "Conditions" column
Notes 1. IBIAS A = (V P6 -VP6[RFA = 1M])/1M
2. IBIAS B = (VP4 -VP4 [RFB = 1M])/1M
3. VOH A = (V P5-VP5 [VIN = 0.4 VDC, RFA = ∞, IP5 = -10µA])
4. VOL A = (VP5 -VP5 [IIN = +1µA, RFA = ∞, IP5 =+10µA])
V
)
5. VD = (V
P10 [Id = +(1.5 x ITRANS)] - P10 [Id = +(0.5 x ITRANS)]
510 - 12 - 08
2
1.3 VDC
I AMP
I TRANS
8
7
RMIC
9
a
VIN
S2
b
RL =0
21k
a
RS
CS
3k92
1µ0
b
S1
6
-A
-B
-C
10
2
Id = 0µA
RE
5
180 µV RMS
1kHz
1
3
4
RFB = 0
RFA = 0
IP5 = 0µA
All resistors in ohms, all capacitors in farads unless otherwise stated.
Fig. 1 Test Circuit
RMIC
8
7
9
5
10
BASE
CURRENT
COMPENSATION
2
6
3
4
RE
1
All resistors in ohms, all capacitors in farads unless otherwise stated.
Fig. 2 Functional Schematic
3
510 - 12 - 08
VB = 1.3 V DC
ED1913
8
7
RLAC
50k
9
RMIC
1µ0
0µ1
21k
R MPO
RS ≈ 3k9
CS
-A
6
0µ22
- B
10
-C
2
0µ1
RE
5
3
4
100k
56
1
100k
RGT
RVC
0µ1 5k6
All resistors in ohms, all capacitors in farads unless otherwise stated.
RGT
Gain of Stage A = 20 log
Gain of Stage B = 20 log
RS
RVC
5.6 k
RLAC//21K
Gain of Stage C = 20 log
56//RE
Fig 3 Typical Hearing Instrument Application
0
5
-2
-5
RVC = 100K
RMPO = 50k
-4
-15
RMPO = 22k
OUTPUT (dBV)
OUTPUT (dBV)
-6
RVC = 47K
-25
RVC = 10K
-35
RVC = 3.3K
-45
-55
-8
RMPO = 10k
-10
-12
RMPO = 0k
-14
RMPO = 3.3k
-16
RVC = 22K
-65
-18
-20
-75
-140
-120
-100
-80
-60
-90
-40
-80
-70
-60
-50
-40
INPUT (dBV)
INPUT (dBV)
Fig. 5 I/O Curves at Various RMPO Values
Fig. 4 I/O Curves at Various RVC Settings
4
5
CS = 0.22µ
0
0
-5
CS = 0.033µ
-4
-8
RELATIVE GAIN (dB)
RELATIVE GAIN (dB)
CS = 0.1µ
CS = 0.047µ
-12
-16
-15
-20
-25
-30
-20
20
200
2k
0.7
20k
FREQUENCY (Hz)
0.8
0.9
1
1.1
1.2
SUPPLY VOLTAGE (V)
Fig. 6 Closed Loop Frequency Response
with Various CS Values
510 - 12 - 08
-10
Fig. 7 Gain vs Supply Voltage
4
1.3
1.4
RELATIVE TRANSDUCER CURRENT (µA)
0.5
RELATIVE GAIN (dB)
0.4
0.3
0.2
0.1
0
-0.1
-0.2
-0.3
-20
-10
0
10
20
30
40
50
10
6
2
-2
-6
-10
-14
-18
-20
-10
0
TEMPERATURE (oC)
24
60
16
55
8
50
0
45
-8
35
-24
30
-32
25
20
0
10
20
30
40
50
40
-16
-10
20
Fig. 9 Transducer Current vs Temperature
Gain (dB)
RELATIVE AMPLIFIER CURRENT (µA)
Fig. 8 Gain vs Temperature
-40
-20
10
TEMPERATURE (oC)
30
40
50
10
100
1k
10k
100k
FREQUENCY (Hz)
TEMPERATURE (oC)
Fig. 11 Preamplifier A Open Loop Frequency Response
Fig. 10 Amplifier Current vs Temperature
GENNUM CORPORATION
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.
MAILING ADDRESS:
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:
GENNUM JAPAN CORPORATION
Changes to standard packaging information.
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 October 1987 Gennum Corporation.
All rights reserved.
5
Printed in Canada.
510 - 12 - 08