TI PCM2912APJT

PCM2912A
Burr-Brown Audio
www.ti.com.......................................................................................................................................................................................... SLES230 – SEPTEMBER 2008
AUDIO CODEC WITH USB INTERFACE,
MONO MICROPHONE INPUT AND STEREO HEADPHONE OUTPUT
FEATURES
1
• On-Chip USB Interface:
– With Full-Speed Transceivers
– Fully Compliant with USB 2.0 Specification
– Certified By USB-IF
– Partially Programmable Descriptors
– Adaptive Isochronous Transfer for
Playback
– Asynchronous Isochronous Transfer for
Record
– Bus Powered
• 16-Bit Delta-Sigma ADC and DAC
• Sampling Rate:
– 8, 11.025, 16, 22.05, 32, 44.1, 48 kHz
• On-Chip Clock Generator:
– With Single 6-MHz Clock Source
• Mono ADC with Microphone Input
– Analog Performance at VBUS = 5 V:
– THD+N: 0.01%
– SNR: 92 dB
– Dynamic Range: 90 dB
– Decimation Digital Filter
– Passband Ripple: ±0.05 dB
– Stop-Band Attenuation: –65 dB
– Single-Ended Voltage Input
– Antialiasing Filter Included
– Digital HPF Included
– Microphone Bias, Microphone Amplifier,
and Input PGA
• Stereo DAC With Headphone Output
– Analog Performance at VBUS = 5.0 V:
– THD+N: 0.01% (RL > 10 kΩ)
– THD+N: 0.02% (RL = 32 Ω)
– SNR: 92 dB
– Dynamic Range: 90 dB
– PO: 13 mW (RL = 32 Ω)
– PO: 25 mW (RL = 16 Ω)
234
•
•
•
•
– Oversampling Digital Filter
– Passband Ripple: ±0.1 dB
– Stop-Band Attenuation: –43 dB
– Single-Ended Voltage Output
– Analog LPF Included
– Sidetone PGA, Output PGA, and HP
Amplifier
Multifunctions:
– Suspend, Playback, and Record Status Flag
– Microphone Amplifier, Mute, and Gain
Control
Pop/Click Noise-Free
Single Power-Supply: 5 V Typ (VBUS)
Package: 32-Pin TQFP
APPLICATIONS
•
•
•
•
•
•
•
USB Headset
USB Headphone
USB Speaker
USB Featured Consumer Audio Product
USB Audio Interface Box
USB Monitor
Video Conference System
DESCRIPTION
The PCM2912A is the Texas Instruments single-chip,
USB stereo audio codec with a USB 2.0-compliant
full-speed protocol controller and an analog front-end
(AFE) function for headset applications. The USB
protocol controller works with no software code, but
USB descriptors can be modified on request (1). The
PCM2912A employs SpAct™ architecture, TI’s
unique system that recovers the audio clock from
USB packet data. On-chip analog PLLs with SpAct
enables independent playback and record sampling
rates with low clock jitters.
(1)
The descriptor can be modified by changing a mask; contact
your local representative for details.
1
2
3
4
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas
Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
SpAct is a trademark of Texas Instruments.
Audio Precision, System Two are trademarks of Audio Precision, Inc..
All other trademarks are the property of their respective owners.
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of the Texas
Instruments standard warranty. Production processing does not
necessarily include testing of all parameters.
Copyright © 2008, Texas Instruments Incorporated
PCM2912A
SLES230 – SEPTEMBER 2008.......................................................................................................................................................................................... www.ti.com
This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with
appropriate precautions. Failure to observe proper handling and installation procedures can cause damage.
ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more
susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.
ABSOLUTE MAXIMUM RATINGS (1) (2)
Over operating free-air temperature range (unless otherwise noted).
PARAMETER
Supply voltage
VBUS
Ground voltage differences: BGND, PGND, AGND, HGND, DGND
Input voltage : VCCP, VCCA, VCCL, VCCR, VDD
UNIT
–0.3 to +6.5
V
±0.1
V
–0.3 to 4
V
–0.3 to 6.5
V
D+, D–, XTI, XTO, MMUTE, TEST0, TEST1, POWER, MAMP, SSPND
–0.3 to 4
V
MBIAS, VIN, VCOM1, VCOM2, VOUTL, VOUTR, FR, FL
–0.3 to 4
V
±10
mA
Ambient temperature under bias
–40 to +125
°C
Storage temperature
–55 to +150
°C
Junction temperature
+150
°C
Digital input voltage
Analog input voltage
PLAY, REC.
PCM2912A
Input current (any pins except supplies)
(1)
(2)
Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings
only, and functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating
Conditions is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
All voltage values are with respect to network ground terminal.
RECOMMENDED OPERATING CONDITIONS
Over operating free-air temperature range (unless otherwise noted).
PARAMETER
VBUS
Supply voltage
MIN
4.35
Analog input voltage, full scale (–0 dB)
5.00
5.25
UNIT
V
VPP
TTL
Digital input clock frequency
5.997
Analog output load resistance
2
MAX
0.43 VCCA
Digital input logic family
TA
NOM
6.000
6.003
MHz
Ω
32
Analog output load capacitance
100
pF
Digital output load capacitance
10
pF
+70
°C
Operating free-air temperature
–25
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www.ti.com.......................................................................................................................................................................................... SLES230 – SEPTEMBER 2008
ELECTRICAL CHARACTERISTICS
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
PCM2912A
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
DIGITAL INPUT/OUTPUT
Host interface
Apply USB revision 2.0, full-speed
Audio data format
USB isochronous data format
INPUT LOGIC
VIH
IIH (1) (2)
IIL
2
Input logic level
VIL
(1) (2)
IIH (3)
Input logic current
IIL (3)
3.3
0.8
VIN = 3.3 V
±10
VIN = 0 V
±10
VIN = 3.3 V
65
VIN = 0 V
100
±10
VDC
µA
µA
OUTPUT LOGIC
VOH (1)
IOH = –10 mA
VOL (1)
IOL = 10 mA
VOH (4)
Output logic level
IOH = –2 mA
2.9
0.3
2.8
VDC
(4)
IOL = 2 mA
VOL (5)
IOL = 8 mA
0.5
VIN = 5 V
±10
VOL
IOH (5)
Output leak current
0.5
µA
CLOCK FREQUENCY
Input clock frequency, XTI
5.997
6.000
6.003
MHz
MICROPHONE BIAS
Output voltage
0.75 VCCA
Output current
Output noise
(1)
(2)
(3)
(4)
(5)
RL = 1 kΩ
VDC
2
mA
5
µVRMS
Pins 3, 4: D–, D+.
Pins 8, 23, 24, 27, 28: XTI, MAMP, POWER, TEST1, TEST0
Pin 30: MMUTE
Pins 7, 29: XTO, SSPND
Pins 31, 32: REC, PLAY.
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ELECTRICAL CHARACTERISTICS (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
PCM2912A
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
ANALOG-TO-DIGITAL CONVERTER (ADC) CHARACTERISTICS
Resolution
Audio data channel
Sampling frequency
ADC Dynamic Performance
THD+N
SNR
16
Bits
1
Channel
8, 11.025, 16, 22.05, 32, 44.1, 48
kHz
(6)
Total harmonic distortion plus
noise
VIN = –1 dB of 0.43 VCCA
Dynamic range
A-weighted
82
90
dB
Signal-to-noise ratio
A-weighted
84
92
dB
0.01
0.02
%
ADC DC Accuracy
Gain error
±2
Bipolar zero error
±0
±10
% of FSR
% of FSR
Analog Input
Input voltage
0.43 VCCA
Center voltage
Antialiasing filter frequency
response
VPP
0.5 VCCA
–3 dB
fIN = 20 kHz
V
150
kHz
–0.08
dB
Microphone Amplifier
Gain
0
Input impedance
20
20
dB
kΩ
Input PGA
Gain range
–12
Gain step size
30
1
dB
dB
ADC Digital Filter Performance
Passband
0.454 fS
Stop band
0.583 fS
Hz
Passband ripple
±0.02
Stop-band attenuation
–65
Delay time
HPF frequency response
(6)
4
dB
dB
17.4/fS
–3 dB
Hz
0.078 fS/1000
s
Hz
fIN = 1 kHz, using Audio Precision™ System Two™, RMS mode with 20-kHz LPF, 400-Hz HPF in calculation. Mic amp = 0 dB,
PGA = 0 dB.
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ELECTRICAL CHARACTERISTICS (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
PCM2912A
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
DIGITAL-TO-ANALOG CONVERTER (DAC) CHARACTERISTICS
Resolution
Audio data channel
Sampling frequency
DAC Dynamic Performance
THD+N
SNR
16
Bits
1, 2
Channel
8, 11.025, 16, 22.05, 32, 44.1, 48
kHz
(7)
Total harmonic distortion plus
noise
RL > 10 kΩ, VOUT = 0 dB of 0.6 VCCA
0.01
0.02
%
RL = 32 Ω, VOUT = 0 dB of 0.55 VCCA
0.02
0.05
%
Dynamic range
EIAJ, A-Weighted
82
90
dB
Signal-to-noise ratio
EIAJ, A-Weighted
84
92
dB
Channel separation
RL > 10 kΩ
80
88
dB
DAC DC Accuracy
Gain mismatch
channel-to-channel
±2
±10
% of FSR
Gain error
±2
±10
% of FSR
Bipolar zero error
±3
% of FSR
Analog Output
Output voltage
RL > 10 kΩ
0.6 VCCA
RL = 32 Ω
0.55 VCCA
Center voltage
VPP
0.5 VCCA
Output power
Load impedance (AC coupling)
LPF frequency response
RL = 32 Ω
13
RL = 16 Ω
25
Line
10
Headphone
16
V
mW
kΩ
32
Ω
–3 dB
140
kHz
f = 20 kHz
–0.1
dB
Sidetone Programmable Attenuator
Gain range
–76
Gain step size
0
1
dB
dB
Output Programmable Attenuator
Gain range
–76
Gain step size
Analog Loopback Performance
THD+N
SNR
0
1
dB
dB
(8)
Total harmonic distortion plus
noise
RL > 10 kΩ, VIN = 0 dB of 0.43 VCCA
0.01
0.02
%
RL = 32 Ω, VIN = 0 dB of 0.43 VCCA
0.02
0.05
%
Dynamic range
EIAJ, A-weighted
82
90
dB
Signal-to-noise ratio
EIAJ, A-weighted
84
92
dB
DAC Digital Filter Performance
Passband
0.445 fS
Stop band
0.555 fS
Hz
Passband ripple
±0.1
Stop-band attenuation
–43
Delay time
(7)
(8)
Hz
dB
dB
14.3/fS
s
fOUT = 1 kHz, using Audio Precision System Two, RMS mode with 20-kHz LPF, 400-Hz HPF. Output attenuator = 0 dB,
Sidetone = Mute.
MIC Amp = 0 dB, Sidetone attenuator = 0 dB, Output attenuator = 0 dB.
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PCM2912A
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ELECTRICAL CHARACTERISTICS (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
PCM2912A
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
4.35
5.0
5.25
VDC
85
100
mA
Suspend mode (9)
220
300
µA
ADC, DAC Operation
425
500
mW
Suspend mode (9)
0.8
1
mW
3.3
3.6
VDC
+85
°C
POWER-SUPPLY REQUIREMENTS
VBUS
Voltage range
Supply current
Power dissipation
VCCP,VCCL,
VCCR,VCCA,
VDD
Bus-powered
ADC, DAC operation (RL = 32 Ω)
Internally-generated power
supply voltage (10)
3
TEMPERATURE RANGE
Operation temperature
θJA
Thermal resistance
–25
32-pin TQFP
80
°C/W
(9) Under USB suspend state
(10) Pins 5, 15, 19, 21, 26: VDD, VCCA, VCCL, VCCR, VCCP.
6
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www.ti.com.......................................................................................................................................................................................... SLES230 – SEPTEMBER 2008
PIN ASSIGNMENTS
POWER
MAMP
VOUTR
VCCR
HGND
VCCL
VOUTL
MBIAS
PJT PACKAGE
TQFP-32
(TOP VIEW)
24
23
22
21
20
19
18
17
PGND
25
16
VIN
VCCP
26
15
VCCA
TEST1
27
14
NC
TEST0
28
13
AGND
PCM2912A
REC
31
10
FR
PLAY
32
9
FL
1
2
3
4
5
6
7
8
XTI
VCOM1
XTO
11
DGND
30
D+
MMUTE
VDD
VCOM2
D-
12
VBUS
29
BGND
SSPND
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PCM2912A
SLES230 – SEPTEMBER 2008.......................................................................................................................................................................................... www.ti.com
TERMINAL FUNCTIONS
TERMINAL
NAME
PJT
I/O
BGND
1
—
Reference for internal regulator.
VBUS
2
—
Connect to USB power (VBUS)
D–
3
I/O
USB differential input/output minus (1)
D+
4
I/O
USB differential input/output plus (1)
VDD
5
—
Digital power supply (2)
DGND
6
XTO
7
O
Crystal oscillator output
XTI
8
I
Crystal oscillator input (3)
FL
9
—
External filter pin of L-channel (optional)
FR
10
—
External filter pin of R-channel (optional)
VCOM1
11
—
Common voltage for ADC, DAC, and analog front-end (VCCA/2). Decoupling capacitor should be connected to
AGND.
VCOM2
12
—
Common voltage for headphone (VCCA/2). Decoupling capacitor should be connected to AGND.
AGND
13
—
Analog ground
NC
14
—
Not connected
VCCA
15
—
Analog power supply
VIN
16
I
ADC microphone input
MBIAS
17
O
Microphone bias output (0.75 VCCA)
VOUTL
18
O
Headphone output for L-channel
VCCL
19
—
Analog power supply for headphone amplifier of L-channel (2)
HGND
20
—
Analog ground for headphone amplifier
VCCR
21
—
Analog power supply for headphone amplifier of R-channel (2)
VOUTR
22
O
Headphone output for R-channel
MAMP
23
I
Microphone preamplifier gain control (LOW: Preamplifier off, HIGH: Preamplifier on = +20 dB) (3)
POWER
24
I
Power consumption declaration select pin (LOW: 100 mA, HIGH: 500 mA)
PGND
25
—
Analog ground for microphone bias, microphone amplifier, and PGA
VCCP
26
—
Analog power supply for PLL (2)
TEST1
27
I
Test pin. Must be set to HIGH (3)
TEST0
28
I
Test pin. Must be set to LOW (3)
SSPND
29
O
Suspend flag (LOW: Suspend, HIGH: Operational state)
MMUTE
30
I
Microphone mute control, active HIGH (LOW: Mute off, HIGH: Mute on) (4)
REC
31
O
Status output for record (LOW: Record, FLASH: Mute on recode, HIGH: Stop) (5)
PLAY
32
O
Status output for playback (LOW: Playback, FLASH: Mute on playback, HIGH: Stop) (5)
(1)
(2)
(3)
(4)
(5)
8
DESCRIPTIONS
Digital ground
(3)
LV-TTL level
Connect decouple capacitor to corresponding ground.
3.3-V CMOS level input.
3.3-V CMOS level input with internal pulldown.
5-V tolerant, open-drain.
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FUNCTIONAL BLOCK DIAGRAM
BGND
VCCA/VCCP/VCCL/VCCR/VDD
VREF
5 V to 3.3 V
Voltage
Regulator
AGND/ HGND/ PGND/DGND
Power
Manager
SSPND
VBUS
MIC
BIAS
MBIAS
VIN
MIC
AMP
PGA + 30 dB ~ –12 dB
in 1 dB steps
FIFO
ADC
+20/0 dB
ISO-In
Endpoint
XCVR
D+
D–
Selector
USB SIE
Analog
PLL
VCOM2
VCOM1
S
FL
MMUTE
PLAY
Selector
DAC
VOUTR
FIFO
S
HP AMP 15 mW (at 32 W)
ATT 0 dB ~ –76 dB
in 1 dB steps with Mute
ISO-Out
Endpoint
USB Protocol
Controller
FR
PLL (x16)
POWER
MAMP
Analog
PLL
ATT 0 dB ~ –76 dB
in 1 dB steps with Mute
VOUTL
Control
Endpoint
96 MHz
REC
TEST0
TEST1
Tracker
(SpAct® )
6.000 MHz
XTI
XTO
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TYPICAL CHARACTERISTICS: INTERNAL FILTER
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
ADC Digital Decimation Filter Frequency Response
OVERALL CHARACTERISTIC
STOP BAND ATTENUATION
0
0
-20
Amplitude - dB
Amplitude - dB
-40
-80
-40
-60
-120
-80
-100
-160
0
8
16
24
32
0
0.4
0.6
0.8
Figure 1.
Figure 2.
PASSBAND RIPPLE
TRANSIENT BAND RESPONSE
0.2
0
0
-4
-0.2
-0.4
-0.6
1.0
-8
-12
-16
-0.8
0
10
0.2
Normalized Frequency - x fS
Amplitude - dB
Amplitude - dB
Normalized Frequency - x fS
0.1
0.2
0.3
0.4
0.5
-20
0.46
0.48
0.50
0.52
Normalized Frequency - x fS
Normalized Frequency - x fS
Figure 3.
Figure 4.
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0.54
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TYPICAL CHARACTERISTICS: INTERNAL FILTER (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
ADC Digital High-Pass Filter Frequency Response
PASSBAND CHARACTERISTIC
0
-20
-0.2
Amplitude - dB
Amplitude - dB
STOP BAND CHARACTERISTIC
0
-40
-60
-0.4
-0.6
-0.8
-80
-100
-1.0
0
0.1
0.2
0.3
Normalized Frequency - x fS/1000
0
0.4
1
2
3
4
Normalized Frequency - x fS/1000
Figure 5.
Figure 6.
ADC Analog Antialiasing Filter Frequency Response
PASSBAND CHARACTERISTIC
0
-10
-0.2
Amplitude - dB
Amplitude - dB
STOP BAND CHARACTERISTIC
0
-20
-30
-0.4
-0.6
-0.8
-40
-1.0
-50
1
10
100
1000
10000
0.01
0.1
1
10
100
f - Frequency - kHz
f - Frequency - kHz
Figure 7.
Figure 8.
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TYPICAL CHARACTERISTICS: INTERNAL FILTER (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
DAC Digital Interpolation Filter Frequency Response
PASSBAND RIPPLE
0.2
-20
0
Amplitude - dB
Amplitude - dB
STOP BAND ATTENUATION
0
-40
-60
-0.2
-0.4
-80
-0.6
-100
-0.8
0
1
2
3
0
4
0.1
0.2
0.3
0.4
0.5
Normalized Frequency - x fS
Normalized Frequency - x fS
Figure 9.
Figure 10.
TRANSIENT BAND RESPONSE
0
Amplitude - dB
-4
-8
-12
-16
-20
0.46
0.48
0.50
0.52
0.54
Normalized Frequency - x fS
Figure 11.
12
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TYPICAL CHARACTERISTICS: INTERNAL FILTER (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
DAC Analog FIR Filter Frequency Response
PASSBAND CHARACTERISTIC
0.2
-10
0
Amplitude - dB
Amplitude - dB
STOP BAND CHARACTERISTIC
0
-20
-30
-40
-0.2
-0.4
-0.6
-50
-0.8
0
8
16
24
32
0
Normalized Frequency - x fS
0.1
0.2
0.3
0.4
0.5
Normalized Frequency - x fS
Figure 12.
Figure 13.
DAC Analog Low-Pass Filter Frequency Response
PASSBAND CHARACTERISTIC
0
-10
-0.2
Amplitude - dB
Amplitude - dB
STOP BAND CHARACTERISTIC
0
-20
-30
-40
-0.4
-0.6
-0.8
-50
-1.0
1
10
100
1000
10000
0.01
f - Frequency - kHz
0.1
1
10
100
f - Frequency - kHz
Figure 14.
Figure 15.
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TYPICAL CHARACTERISTICS
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
ADC
THD+N AT –1 dB
vs TEMPERATURE
DYNAMIC RANGE AND SIGNAL-TO-NOISE RATIO
vs TEMPERATURE
96
0.009
Dynamic Range and SNR - dB
THD+N - Total Harmonic Distortion + Noise - %
0.010
0.008
0.007
0.006
0.005
94
SNR
92
Dynamic Range
90
88
0.004
0.003
-50
86
-25
0
25
50
75
100
-50
-25
TA - Free-Air Temperature - °C
Figure 17.
THD+N AT –1 dB
vs SUPPLY VOLTAGE
DYNAMIC RANGE AND SIGNAL-TO-NOISE RATIO
vs SUPPLY VOLTAGE
98
96
Dynamic Range and SNR - dB
THD+N - Total Harmonic Distortion + Noise - %
0.009
0.008
0.007
0.006
0.005
94
SNR
92
Dynamic Range
90
88
0.004
0.003
4.4
4.6
4.8
5.0
5.2
5.4
86
4.2
VBUS - Supply Voltage - V
Figure 18.
14
100
Figure 16.
0.010
4.2
0
25
50
75
TA - Free-Air Temperature - °C
4.4
4.6
4.8
5.0
5.2
5.4
VBUS - Supply Voltage - V
Figure 19.
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TYPICAL CHARACTERISTICS (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
DYNAMIC RANGE AND SIGNAL-TO-NOISE RATIO
vs SAMPLING FREQUENCY
0.010
98
0.009
96
Dynamic Range and SNR - dB
THD+N - Total Harmonic Distortion + Noise - %
THD+N AT –1 dB
vs SAMPLING FREQUENCY
0.008
0.007
0.006
0.005
94
SNR
92
90
Dynamic Range
88
0.004
0.003
30
35
40
45
86
30
50
35
40
45
50
fS - Sampling Frequency - kHz
fS - Sampling Frequency - kHz
Figure 20.
Figure 21.
THD+N AT 0 dB
vs TEMPERATURE
DYNAMIC RANGE AND SIGNAL-TO-NOISE RATIO
vs TEMPERATURE
DAC
96
0.009
94
Dynamic Range and SNR - dB
THD+N - Total Harmonic Distortion + Noise - %
0.010
0.008
0.007
0.006
0.005
SNR
92
Dynamic Range
90
88
0.004
0.003
-50
-25
0
25
50
75
100
86
-50
TA - Free-Air Temperature - °C
Figure 22.
-25
0
25
50
75
100
TA - Free-Air Temperature - °C
Figure 23.
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TYPICAL CHARACTERISTICS (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
DYNAMIC RANGE AND SIGNAL-TO-NOISE RATIO
vs SUPPLY VOLTAGE
0.010
98
0.009
96
Dynamic Range and SNR - dB
THD+N - Total Harmonic Distortion + Noise - %
THD+N AT 0 dB
vs SUPPLY VOLTAGE
0.008
0.007
0.006
0.005
94
SNR
92
Dynamic Range
90
88
0.004
86
0.003
4.2
4.4
4.6
4.8
5.0
5.2
4.2
5.4
5.0
5.2
5.4
Figure 25.
THD+N AT 0 dB
vs SAMPLING FREQUENCY
DYNAMIC RANGE AND SIGNAL-TO-NOISE RATIO
vs SAMPLING FREQUENCY
0.010
98
0.009
96
Dynamic Range and SNR - dB
THD+N - Total Harmonic Distortion + Noise - %
4.8
Figure 24.
0.008
0.007
0.006
0.005
0.004
0.003
35
40
45
50
94
SNR
92
Dynamic Range
90
88
86
30
fS - Sampling Frequency - kHz
Figure 26.
16
4.6
VBUS - Supply Voltage - V
VBUS - Supply Voltage - V
30
4.4
35
40
45
50
fS - Sampling Frequency - kHz
Figure 27.
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TYPICAL CHARACTERISTICS (continued)
All specifications at TA = +25°C, VBUS = 5 V, fS = 44.1 kHz, fIN = 1 kHz, and 16-bit data, unless otherwise noted.
Supply Current
SUPPLY CURRENT
vs SUPPLY VOLTAGE
SUPPLY CURRENT
vs SAMPLING FREQUENCY
100
0.4
90
Operational Current
80
0.3
Suspend Current
70
0.2
60
0.1
50
4.2
4.4
4.6
4.8
5.0
5.2
Operational Current - mA
Operational Current - mA
90
0.5
Suspend Current - mA
100
80
70
60
0
5.4
50
30
35
40
45
50
fS - Sampling Frequency - kHz
VBUS - Supply Voltage - V
Figure 28.
Figure 29.
SUPPLY CURRENT
vs TEMPERATURE AT SUSPEND MODE
0.40
Suspend Current - mA
0.35
USB spec limit for device = 0.3 mA
0.30
0.25
0.20
0.15
0.10
-40
-20
0
20
40
60
80
100
TA - Free-Air Temperature - °C
Figure 30.
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GENERAL DESCRIPTION
USB INTERFACE
Control data and audio data are transferred to the PCM2912A via D+ (pin 4) and D– (pin 3). All data transferred
to/from the PCM2912A are performed at full speed. Table 1 summarizes the device descriptor. The device
descriptor can be modified on request.
Table 1. Device Descriptor
USB revision
2.0 compliant
Device class
0x00 (device defined in interface level)
Device sub class
0x00 (not specified)
Device protocol
0x00 (not specified)
Max packet size for endpoint 0
8-byte
Vendor ID
0x08BB
Product ID
0x2912
Device release number
0x0100 (1.00)
Number of configurations
1
Vendor string
String #1 (refer to Table 3)
Product string
String #2 (refer to Table 3)
Serial number
Not supported
Table 2 lists the configuration descriptor. The configuration descriptor can be modified on request.
Table 2. Configuration Descriptor
Interface
Three interfaces
Power attribute
0x80 (Bus powered, no remote wakeup)
Max power
0x32 (100 mA at POWER = Low) / 0xFA (500mA at POWER = High)
Table 3 summarizes the string descriptor. The string descriptor can be modified on request.
Table 3. String Descriptor
18
#0
0x0409
#1
Burr-Brown from TI
#2
USB audio CODEC
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Device Configuration
Figure 31 illustrates the USB audio function topology. The PCM2912A has three interfaces. Each interface is
constructed with some alternative settings.
Endpoint #0
Default Endpoint
FU
Endpoint #1
(IF #1)
IT
S
OT
TID3
UID4
TID6
Audio Streaming Interface
Analog Out
UID5
FU
IT
TID1
UID2
Analog In
FU
Endpoint #1
(IF #1)
OT
S
IT
TIDB
UIDA
TID7
Audio Streaming Interface
UID8
Standard Audio Control Interface (IF #0)
Figure 31. USB Audio Function Topology
Interface #0
Interface #0 is the control interface. Alternative setting #0 is the only possible setting for interface #0. Alternative
setting #0 describes the standard audio control interface. The audio control interface is constructed with a series
of terminal connections. The PCM2912A has the following 10 terminals:
• Input terminal (Terminal ID#1) for audio analog input for sidetone
• Feature unit (Unit ID#2) for sidetone PGA
• Input terminal (Terminal ID#3) for isochronous out stream
• Mixer unit (Unit ID#4) for sidetone mixing
• Feature unit (Unit ID#5) for analog output PGA
• Output terminal (Terminal ID#6) for audio analog output
• Input terminal (Terminal ID#7) for audio analog input
• Feature unit (Unit ID#8) for analog input PGA
• Mixer unit (Unit ID#A) for analog input
• Output terminal (Terminal ID#B) for isochronous in stream
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Input terminal #3 is defined as USB stream (terminal type 0x0101). Input terminal #3 can accept two-channel
audio streams constructed by the left and right channels. Output terminal #6 is defined as a speaker (terminal
type 0x0301). Input terminals #1 and #7 are defined as Microphone (terminal type 0x0201). Physically, these two
input terminals are the same input, but logically duplicated. Output terminal B is defined as a USB stream
(terminal type 0x0101). Output terminal B is a single-channel audio stream. Mixer unit #4 multiplexes the analog
input (sidetone) and the audio data of the digital-to-analog converter (DAC). Mixer unit A is placed in front of
output terminal B. Mixer unit A has no impact on recording data. Mixer units #4 and A do not have programming
capability.
Feature unit #5 supports the following sound control features for analog outputs:
• Volume control
• Mute control
The built-in volume controller can be manipulated by an audio-class-specific request from 0 dB to –76 dB in
steps of 1 dB. An individual (L and R) channel can be set for different values. The built-in mute controller can be
manipulated by an audio-class-specific request. Only the master mute control request is acceptable.
Feature unit #2 supports the following sound control features for analog input (sidetone):
• Volume control
• Mute control
The built-in volume controller can be manipulated by an audio-class-specific request from 0 dB to –76 dB in 1-dB
steps. Only the master volume control is acceptable. The built-in mute controller can be manipulated by
audio-class-specific request. Only the master mute control request is acceptable.
Feature unit #8 supports the following sound control features for analog input (microphone record input):
• Volume control
• Mute control
The built-in analog volume controller can be manipulated by an audio-class-specific request from +30 dB to –12
dB in 1-dB steps. The built-in mute controller can be manipulated by an audio-class-specific request. Only the
master mute control request is acceptable.
Interface #1
Interface #1 is the audio streaming interface for data output. Table 4 lists the three alternative settings for
Interface #1. Alternative setting #0 is the zero bandwidth setting. All other alternative settings are operational
settings.
Table 4. Interface #1 Alternative Settings
ALTERNATIVE
SETTING
DATA FORMAT
00
TRANSFER MODE
SAMPLING RATE (kHz)
Zero Bandwidth
01
16 bit
Stereo
2s complement (PCM)
Adaptive
8, 11.025, 16, 22.05, 32, 44.1,
48
02
16 bit
Mono
2s complement (PCM)
Adaptive
8, 11.025, 16, 22.05, 32, 44.1,
48
Interface #2
Interface #2 is the audio streaming interface for data output. Table 5 shows the two alternative settings for
Interface #2. Alternative setting #0 is the Zero Band Width setting. Alternative setting #1 is an operational setting.
Table 5. Interface #2 Alternative Settings
ALTERNATIVE
SETTING
DATA FORMAT
00
01
20
TRANSFER MODE
SAMPLING RATE (kHz)
Zero Bandwidth
16 bit
Mono
2s complement (PCM)
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Asynchronous
8, 11.025, 16, 22.05, 32,
44.1, 48
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Endpoints
The PCM2912A has the following three endpoints:
• Control endpoint (EP #0)
• Isochronous out audio data stream endpoint (EP #1)
• Isochronous in audio data stream endpoint (EP #2)
The control endpoint is the default endpoint. The control endpoint controls all functions of the PCM2912A by the
standard USB request and USB audio class-specific request from the host. The isochronous out audio data
stream endpoint is an audio sink endpoint, which receives the PCM audio data. The isochronous out audio data
stream endpoint accepts the asynchronous transfer mode. The isochronous in audio data stream endpoint is an
audio source endpoint, which transmits the PCM audio data. The isochronous in audio data stream endpoint
uses synchronous transfer mode.
Internal Regulator
All required power sources are generated by five internal regulators.
Each regulator generates 3.3 V (typical, without load) from VBUS (pin 2). Each regulator has an output pin and a
ground return pin (as described in Table 6); this pair must be decoupled with an appropriate capacitor. Note that
this capacitance affects inrush-current limitation. One band-gap reference circuit supplies reference voltage for all
regulators. BGND (pin 1) is provided for reference ground of the band-gap reference.
Table 6. Internal Regulator Summary
SUPPLIED CIRCUIT
OUTPUT
RETURN
Digital
VDD (pin 5)
DGND (pin 6)
Analog
VCCA (pin 15)
AGND (pin 13)
Headphone (L-ch)
VCCL (pin 19)
HGND (pin 20)
Headphone (R-ch)
VCCR (pin 21)
HGND (pin 20)
PLL
VCCP (pin 26)
PGND (pin 25)
Clock and Reset
The PCM2912A requires a 6-MHz (±500 ppm) clock for USB function and audio function, which can be
generated from a built-in crystal oscillator with a 6-MHz crystal resonator. The 6-MHz crystal resonator must be
connected to XTI (pin 8) and XTO (pin 7) with one high (1-MΩ) resistor and two small capacitors, whose
capacitance depends on the load capacitance of the crystal resonator. An external clock can be supplied through
XTI; if an external clock is supplied, XTO must be left open. Because there is no clock disabling signal, using the
external clock supply is not recommended. SSPND (pin 29) is unable to use clock disabling.
The PCM2912A has an internal power-on-reset circuit, which works automatically when VBUS (pin 2) exceeds 2.5
V, typical (2.2 V to 2.7 V), and approximately 700 µs is required until the internal reset is released.
DAC
The PCM2912A has a stereo delta-sigma DAC that uses a 64-fS oversampling technique with an 8-fS
oversampling digital filter. DAC outputs are provided through the headphone amplifier; VOUTL (pin 18) and VOUTR
(pin 22) provide 13 mW at 32 Ω and 0.6 VCCL/VCCR VPP at a 10-kΩ load.
ADC
The PCM2912A has a mono delta-sigma ADC that uses a 64-fS oversampling technique with a 1/64-fS
decimation digital filter. The microphone input, VIN (pin 16), is fed to the ADC through a +20-dB microphone
amplifier and the PGA, which has +30 dB to –12 dB in 1-dB steps.
Microphone Bias
The PCM2912A has a microphone bias generator, which provides a low-noise, 0.75-VCCA, 2-mA source current
output with appropriate output impedance for electret-microphone driving. This output, MBIAS (pin 17), should be
bypassed to AGND (pin 13) through an appropriate capacitor to reduce the output noise level.
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Microphone Amplifier
The PCM2912A has a low-noise, single-ended, mono microphone amplifier with a mute function that is controlled
by MUTE (pin 30). The signal gain is selectable by MAMP (pin 23). The noise level at the input node is 5 µVRMS,
and the input impedance is 20 kΩ.
Input PGA
The PCM2912A also has a low-noise input, programmable gain amplifier (PGA) for the microphone amplifier
output/ADC input, with a gain range of +30 dB to –12 dB in 1dB/step.
Sidetone Programmable Attenuator
The PCM2912A has a low-noise, sidetone programmable attenuator with a mute function for the sidetone signal
path (microphone amplifier output to output PGA input), and a gain range of 0 dB to –76 dB in 1 dB/step.
Output Programmable Attenuator
The PCM2912A has a low-noise output programmable attenuator with a mute function for mixed signal, which
affects DAC output signal and sidetone signal. The output PGA gain range is 0 dB to –76 dB in 1 dB/step.
VCOM1 and VCCM2
VCOM2 (pin 12) is provided for the center voltage of the headphone amplifier. VCOM1 (pin 11) is provided for the
center voltage of all other analog circuits. Each VCOM pin must be decoupled with an appropriate capacitor.
Because the headphone output is disconnected when entering the suspend state, determining the capacitance is
important to prevent pop noise, especially for VCOM2 (pin 12). The equivalent resistance of VCOM2 is 500 kΩ, and
VCOM1 is 15 kΩ.
Filter Pins
FL (pin 9) and FR (pin 10) are provided to make a low-pass filter (LPF) to decrease the DAC outband noise, as
shown in Figure 32. This filter is optional.
Side Tone
20 kW
20 kW
10 kW
10 kW
DAC
–
+
VCOM
FR/FL
CF
Figure 32. Filter Circuit
22
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INTERFACE SEQUENCE
Power-On, Attach, and Play Back Sequence
The PCM2912A is ready for setup when the reset sequence has finished and the USB bus is attached. After a
connection has been established, the PCM2912A is ready to accept USB audio data. While waiting for the audio
data (that is, in an idle state), the analog output is set to bipolar zero (BPZ).
When receiving the audio data, the PCM2912A stores the first audio packet, which contains 1-ms audio data,
into the internal storage buffer. The PCM2912A starts playing the audio data when the subsequent Start of
Frame (SOF) packet is detected, as shown in Figure 33.
5.0 V (typ)
2.5 V (typ)
VBUS (pin 2)
0V
Bus Reset
D+ (pin 4),
D- (pin 3)
1st Audio Data
Set Configuration
2nd Audio Data
Bus Idle
SOF
SOF
SOF
SSPND (pin 29)
VOUTL (pin 18),
VOUTR (pin 22)
700 ms
Device Setup
1 ms
Internal Reset
Ready for Setup
Ready for Playback
Figure 33. Initial Sequence
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Play, Stop, and Detach Sequence
When the host finishes or aborts the play back process, the PCM2912A stops playing after last audio data has
played, as shown in Figure 34.
VBUS (pin 2)
Audio Data
Audio Data
Last Audio Data
D+ (pin 4),
D- (pin 3)
SOF
SOF
SOF
SOF
SOF
VOUTL (pin 18),
VOUTR (pin 22)
1 ms
Detach
Figure 34. Play, Stop, and Detach
Record Sequence
Figure 35 illustrates how the PCM2912A records the audio into the internal memory after receiving the
SET_INTERFACE command.
SET_INTERFACE
IN token
Audio data
IN token
Audio data
IN token
Audio data
D+ (pin 4),
D– (pin 3)
SOF
SOF
SOF
SOF
SOF
VIN (pin 16)
1ms
Figure 35. Record Sequence
24
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Suspend and Resume Sequence
The PCM2912A enters a suspend state when it sees a constant idle state on the USB bus after approximately 5
ms. When the PCM2912A enters the suspend state, the SSPND flag (pin 29) is asserted. The PCM2912A wakes
up immediately after detecting the non-idle state on the USB bus. Figure 36 illustrates these actions.
Idle
D+ (pin 4),
D- (pin 3)
SSPND (pin 29)
5 ms
Suspend
VOUTL (pin 18),
VOUTR (pin 22)
Active
Active
2.5 ms
Figure 36. Suspend and Resume
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TYPICAL CIRCUIT CONNECTION
A bus-powered (Hi-power), +20-dB microphone amplifier application example is shown in Figure 37.
Headphone
R11
Microphone
R8
R5
C13
C16
C10
R10
R7
VOUTR
VIN 16
AGND 13
29
SSPND
30
MMUTE
31
REC
32
PLAY
PCM2912A
C7
VCOM1 11
C6
FR 10
C5
2
3
4
5
6
7
8
1
PLAY
VCOM2 12
XTO
TEST0
XTI
28
C8
NC 14
DGND
TEST1
VDD
VCCP
27
C18
REC
17 MBIAS
VCCA 15
26
BGND
VOUTL
MAMP
R1 3
18
D+
R1 2
19
D-
Mic Mute
20
VBUS
25
21
VCCL
PGND
C17
22
HGND
23
VCCR
POWER 24
C9
C11
C14
C1
R1
R2
FL
9
C4
R4
X1
R3
C2
C3
L1
V BUS D–
D+ GND
USB Connector
NOTE: X1: 6-MHz crystal resonator
C1, C8, C11, C14, C17, C18: 1 µF ceramic
C2, C3: 10 pF to 33 pF (depending on load capacitance of crystal resonator)
C4, C5: 100 pF ceramic
C6, C10: 3.3 µF
C7: 0.1 µF
C9: 0.22 µF electrolytic (depending on required frequency response for microphone input)
C13, C16: 100 µF electrolytic (depending on required frequency response for headphone output)
R1, R2: 22 Ω to 33 Ω
R3: 1.5 kΩ
R4: 1 MΩ
R5: 1 kΩ (depending on microphone characteristic)
R7, R8, R10, R11: 3.3 kΩ
R12, R13: 820 Ω (depending on LED drive current)
L1: 1 µH (DC resistance < 0.6 Ω)
It is possible to change maximum power if total power of actual application does not require over 100 mA (set
POWER = low to configure as low-power device).
Figure 37. USB Headset Application
NOTE:
The circuit in Figure 37 is for information only. Total board design should be
considered in order to meet the USB specification as a USB-compliant product.
26
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RELATED DOCUMENTATION FROM TEXAS INSTRUMENTS
For additional information concerning the PCM2912A device, see the TI application report, Operating
Envronments for PCM2912 Applications (SLAA387), available for download from www.ti.com.
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PACKAGE OPTION ADDENDUM
www.ti.com
22-Nov-2008
PACKAGING INFORMATION
Orderable Device
Status (1)
Package
Type
Package
Drawing
Pins Package Eco Plan (2)
Qty
PCM2912APJT
ACTIVE
TQFP
PJT
32
250
Green (RoHS &
no Sb/Br)
CU NIPDAU
Level-1-260C-UNLIM
PCM2912APJTR
ACTIVE
TQFP
PJT
32
1000 Green (RoHS &
no Sb/Br)
CU NIPDAU
Level-1-260C-UNLIM
Lead/Ball Finish
MSL Peak Temp (3)
(1)
The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in
a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2)
Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check
http://www.ti.com/productcontent for the latest availability information and additional product content details.
TBD: The Pb-Free/Green conversion plan has not been defined.
Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements
for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered
at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.
Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and
package, or 2) lead-based die adhesive used between the die and leadframe. The component is otherwise considered Pb-Free (RoHS
compatible) as defined above.
Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame
retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material)
(3)
MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder
temperature.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is
provided. TI bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the
accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and continues to take
reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on
incoming materials and chemicals. TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited
information may not be available for release.
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI
to Customer on an annual basis.
Addendum-Page 1
PACKAGE MATERIALS INFORMATION
www.ti.com
5-Dec-2008
TAPE AND REEL INFORMATION
*All dimensions are nominal
Device
PCM2912APJTR
Package Package Pins
Type Drawing
TQFP
PJT
32
SPQ
Reel
Reel
Diameter Width
(mm) W1 (mm)
1000
330.0
16.4
Pack Materials-Page 1
A0 (mm)
B0 (mm)
K0 (mm)
P1
(mm)
W
Pin1
(mm) Quadrant
9.6
9.6
1.5
12.0
16.0
Q2
PACKAGE MATERIALS INFORMATION
www.ti.com
5-Dec-2008
*All dimensions are nominal
Device
Package Type
Package Drawing
Pins
SPQ
Length (mm)
Width (mm)
Height (mm)
PCM2912APJTR
TQFP
PJT
32
1000
346.0
346.0
33.0
Pack Materials-Page 2
MECHANICAL DATA
MPQF112 – NOVEMBER 2001
PJT (S-PQFP–N32)
PLASTIC QUAD FLATPACK
0,45
0,30
0,80
0,20
M
0,20
0,09
Gage Plane
32
0,15
0,05
1
0,25
0°– 7°
7,00 SQ
0,75
0,45
9,00 SQ
1,05
0,95
Seating Plane
0,10
1,20
1,00
4203540/A 11/01
NOTES: A. All linear dimensions are in millimeters.
B. This drawing is subject to change without notice.
C. Falls within JEDEC MS-026
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