INMP522
The DATA signal does not need to be buffered in normal use when the INMP522 microphones are placed close to the codec on the
PCB. If the INMP522 must drive the DATA signal over a long cable (>15 cm) or other large capacitive load, a digital buffer may be
needed. Use a signal buffer on the DATA line only when one microphone is in use or after the point where two microphones are
connected (see Figure 13.)
Figure 13. Buffered Connection Between stereo INMP522 Devices and a Codec
The DATA output of each microphone in a stereo configuration cannot be individually buffered because the two buffer outputs
cannot drive a single signal line. If a buffer is used, take care to select a buffer with low propagation delay so that the timing of the
data connected to the codec is not corrupted.
When long wires are used to connect the codec to the INMP522, a 100 Ω source termination resistor can be used on the clock output
of the codec instead of a buffer to minimize signal over-shoot or ringing. Depending on the drive capability of the codec clock output,
a buffer may still be needed, as shown in Figure 13.
SLEEP MODE
The microphone enters sleep mode when the clock frequency falls below 1 kHz. In sleep mode, the microphone data output
is in a high impedance state. The current consumption of the INMP522 in sleep mode is less than 2 µA at V
DD
= 1.8 V.
The INMP522 enters sleep mode within 1ms of the clock frequency falling below 1 kHz. The microphone wakes up from sleep mode
32,768 cycles after the clock becomes active. For a 2.4 MHz clock, the microphone begins to output data in 13.7 ms. The wake-up
time, as specified in Table 2, indicates the time from when the clock is enabled to when the INMP522 is consuming its specified
current.
START-UP TIME
The start-up time of the INMP522 from when the clock is active is the same as the wake-up time from sleep mode. The microphone
starts up 32,768 cycles after the clock is active.
Page 14 of 21
Document Number: DS-INMP522-00
Revision: 1.1
Rev Date: 02/06/2014
