Texas Instruments PGA2505 Evaluation Module PGA2505EVM PGA2505EVM Datenbogen
Produktcode
PGA2505EVM
4.2
Microphone Input
1
2
3
Hot (+), to V +
IN
Cold (-), to V
IN
-
Shield, to EGND
Hot (+), to V +
IN
Cold (-), to V
IN
-
Shield, to EGND
R
T
S
4.3
Phantom Power Connections
4.4
DC Blocking Capacitors
Setup Guide
www.ti.com
The PGA2505EVM requires two analog power supplies and one digital power supply. The analog power
supplies are VA+ and VA–, respectively. VA+ is typically set to +5.0V, while VA– is typically set to –5.0V.
The analog supplies power the PGA2505 microphone preamplifier integrated circuit. The digital power
supply, VCC, is typically set to +5.0V. The VCC supply powers the PGA2505 and the SN74AHCT541
buffer IC (U2) and the associated pull-up resistors for the digital section of the board.
supplies are VA+ and VA–, respectively. VA+ is typically set to +5.0V, while VA– is typically set to –5.0V.
The analog supplies power the PGA2505 microphone preamplifier integrated circuit. The digital power
supply, VCC, is typically set to +5.0V. The VCC supply powers the PGA2505 and the SN74AHCT541
buffer IC (U2) and the associated pull-up resistors for the digital section of the board.
An optional third analog power supply may be used for the PGA2505 common-mode dc voltage input,
V
V
COM
IN (pin 22). The common-mode input can be connected to analog ground by shorting pins 3 and 4 of
Jumper JMP3. Alternatively, the common-mode input can be connected to the VCOM supply terminal of
connector J4 by shorting pins 1 and 2 of Jumper JMP3. The VCOM supply will typically be set to a dc
voltage within the 0V to +2.5V range (with respect to GND). The common-mode voltage biases both the
output and input terminals of the PGA2505, with the output pins being biased to the V
connector J4 by shorting pins 1 and 2 of Jumper JMP3. The VCOM supply will typically be set to a dc
voltage within the 0V to +2.5V range (with respect to GND). The common-mode voltage biases both the
output and input terminals of the PGA2505, with the output pins being biased to the V
COM
IN voltage level
and the input pins being biased to approximately (V
COM
IN – 0.65V).
The GND terminal of connector J4 serves as the common ground connection for both the analog and
digital sections of the PGA2505EVM. The EGND (earth ground) terminal should be connected to the earth
or chassis ground of the power supply. The common ground (GND) and earth ground (EGND) are
connected to one another using a 0.1
digital sections of the PGA2505EVM. The EGND (earth ground) terminal should be connected to the earth
or chassis ground of the power supply. The common ground (GND) and earth ground (EGND) are
connected to one another using a 0.1
µ
F capacitor (C3).
Dynamic and condenser microphones or audio test equipment are connected to the PGA2505EVM input
through combo connector J1. The combo connector combines both a 3-pin female XLR and a 1/4-inch
TRS jack for connecting to microphones and test signal sources. Both the XLR and TRS jacks are wired
for a balanced input.
through combo connector J1. The combo connector combines both a 3-pin female XLR and a 1/4-inch
TRS jack for connecting to microphones and test signal sources. Both the XLR and TRS jacks are wired
for a balanced input.
illustrates the combo connector pin configuration for the PGA2505EVM.
Figure 5. Microphone Input Connector Configuration
The microphone input includes 1000pF capacitors configured as an electromagnetic interference (EMI)
filter to help suppress electromagnetic interference present at the preamplifier input. Additional filtering
may be required in the end application circuit, depending on the operating environment.
filter to help suppress electromagnetic interference present at the preamplifier input. Additional filtering
may be required in the end application circuit, depending on the operating environment.
The PGA2505EVM supports connection of a phantom power source across the inputs of the preamplifier
using terminal block J2. The voltage source is connected to the hot (+) and cold (–) sides of the
preamplifier input through 6.81k
using terminal block J2. The voltage source is connected to the hot (+) and cold (–) sides of the
preamplifier input through 6.81k
Ω
resistors. Phantom power may be operated at voltages up to +50V .
Phantom power is required for condenser microphones, but should not be applied when using dynamic
microphones, because they may be subject to damage if phantom voltage is applied. When using a
dynamic microphone, terminals 3 and 4 of jumper JMP1 should be shorted, while terminals 1 and 2
remain open. When using a condenser microphone that requires a phantom power source, terminals 1
and 2 of jumper JMP1 should be shorted, while terminals 3 and 4 remain open.
microphones, because they may be subject to damage if phantom voltage is applied. When using a
dynamic microphone, terminals 3 and 4 of jumper JMP1 should be shorted, while terminals 1 and 2
remain open. When using a condenser microphone that requires a phantom power source, terminals 1
and 2 of jumper JMP1 should be shorted, while terminals 3 and 4 remain open.
Capacitors C
19
and C
20
are used as dc blocking capacitors. They provide ac-coupling to the microphone
input, as well as blocking the phantom voltage from reaching the PGA2505 input terminals when using a
condenser microphone. The blocking capacitors are selected in order to not degrade the dynamic
performance of the PGA2505. The surface-mount aluminum electrolytic capacitors shown in the Bill of
Materials (see
condenser microphone. The blocking capacitors are selected in order to not degrade the dynamic
performance of the PGA2505. The surface-mount aluminum electrolytic capacitors shown in the Bill of
Materials (see
) are installed by default at the factory. The PGA2505EVM also supports the use of
through-hole capacitors for C
19
and C
20
. If using an alternative capacitor, use components rated for a
working voltage (WV) of 50WV minimum, with 63WV or higher recommended for long-term reliability.
PGA2505EVM
8
SBOU078 – June 2009