UDA1341TS NXP Semiconductors, UDA1341TS Datasheet - Page 11
UDA1341TS
Manufacturer Part Number
UDA1341TS
Description
Manufacturer
NXP Semiconductors
Type
General Purposer
Datasheet
1.UDA1341TS.pdf
(34 pages)
Specifications of UDA1341TS
Adc/dac Resolution
20b
Number Of Adc's
4
Number Of Dac's
2
Interface Type
Serial (I2S)/L3
Power Supply Type
Analog/Digital
Operating Supply Voltage (min)
2.4V
Operating Supply Voltage (typ)
3V
Operating Supply Voltage (max)
3.6V
Sample Rate
48KSPS
Pin Count
28
Operating Temperature (min)
-20C
Operating Temperature (max)
85C
Screening Level
Commercial
Package Type
SSOP
Mounting
Surface Mount
Lead Free Status / Rohs Status
Compliant
Available stocks
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NXP Semiconductors
7.18
The UDA1341TS has a microcontroller input mode. In the
microcontroller mode, all the digital sound processing
features and the system controlling features can be
controlled by the microcontroller.
The controllable features are:
• Reset
• System clock frequency
• Power control
• DAC gain switch
• ADC input gain switch
• ADC/DAC polarity control
• Double speed playback
• De-emphasis
• Volume
• Mode switch
• Bass boost
• Treble
• Mute
• MIC sensitivity control
• AGC control
• Input amplifier gain control
• Digital mixer control
• Peak detection position.
Via the L3-interface the peak level value of the signal in the
DAC path can be read out from the UDA1341TS to the
microcontroller.
The exchange of data and control information between the
microcontroller and the UDA1341TS is accomplished
through a serial hardware L3-interface comprising the
following pins:
• L3DATA: microcontroller interface data line
• L3MODE: microcontroller interface mode line
• L3CLOCK: microcontroller interface clock line.
Information transfer through the microcontroller bus is
organized in accordance with the so called ‘L3’ format, in
which two different modes of operation can be
distinguished: address mode and data transfer mode.
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L3-interface
11
The address mode is required to select a device
communicating via the L3-bus and to define the
destination registers for the data transfer mode.
Data transfer can be in both directions: input to the
UDA1341TS to program its sound processing and system
controlling features and output from the UDA1341TS to
provide the peak level value.
7.19
The address mode is used to select a device for
subsequent data transfer and to define the destination
registers. The address mode is characterized by L3MODE
being LOW and a burst of 8 pulses on L3CLOCK,
accompanied by 8 data bits. The fundamental timing is
shown in Fig.5.
Data bits 7 to 2 represent a 6-bit device address, with bit 7
being the MSB and bit 2 the LSB. The address of the
UDA1341TS is 000101.
Data bits 0 to 1 indicate the type of the subsequent data
transfer as shown in Table 4.
In the event that the UDA1341TS receives a different
address, it will deselect its microcontroller interface logic.
7.20
The selection activated in the address mode remains
active during subsequent data transfers, until the
UDA1341TS receives a new address command.
The fundamental timing of data transfers is essentially the
same as the timing in the address mode and is given in
Fig.6.
Note that ‘L3DATA write’ denotes data transfer from the
microcontroller to the UDA1341TS and ‘L3DATA peak
read’ denotes data transfer in the opposite direction.
The maximum input clock and data rate is 64f
All transfers are byte-wise, i.e. they are based on groups
of 8 bits. Data will be stored in the UDA1341TS after the
eighth bit of a byte has been received.
A multibyte transfer is illustrated in Fig.7.
Address mode
Data transfer mode
UDA1341TS
Product specification
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