Standard Products
UT16MX110/111/112 Analog Multiplexer
Data Sheet
September 7, 2012
www.aeroflex.com/MUX
FEATURES
16-to-1 Analog Mux
100Signal paths (typical)
5V single supply
Rail-to-Rail signal handling
Asynchronous RESET input
SPI™/QSPI™ and MICROWIRE™ compatible serial
interface (UT16MX112)
Asynchronous parallel input Interface (UT16MX110)
Synchronous parallel input Interface (UT16MX111)
LVCMOS/LVTTL compatible inputs (provided by internal
voltage regulator)
2kV ESD Protection (per MIL-STD-883, Method 3015.7)
Operational environment:
- Total ionizing dose: 300 krad(Si)
- SEL immune to a LET of 110 MeV-cm
2
/mg
- SEU immune to a LET of 62.3 MeV-cm
2
/mg
Packaging: 28-Lead Ceramic Flatpack
Standard Microcircuit Number 5962-10233
- QML Q, QML V
INTRODUCTION
The UT16MX110/111/112 are low voltage analog multiplexers
with a convenient LVCMOS (3.3V) digital interface. The
analog muxes have Break-Before-Make architecture with a low
channel resistance. The muxes support rail-to-rail input signal
levels. The multiplexer supports serial (SPI™), or parallel
(asynchronous or synchronous) interface.
The UT16MX110/111/112 operates with a single 5V(+10%)
power supply. The voltage used for the digital circuitry and the
digital I/O is generated internally from the positive analog
supply voltage. Therefore, no external digital voltage supply is
required.
Digital Interface Inputs
Digital Interface Logic
Break-Before-Make
Architecture
4
S[0]
S[1]
S[2]
...
S[15]
UT16MX110
UT16MX111
UT16MX112
COM
Figure 1. UT16MX110/111/112 Block Diagram
1
FUNCTIONAL DESCRIPTION
All mux decoding (whether for the UT16MX110,
UT16MX111, or UT16MX112 device) operation utilizes a
Break-Before-Make process to prevent shorting between ana-
log inputs during address transitions.
The 3V_OUT pin provides a regulated voltage of 3.3V. This
voltage is derived from the AVDD supply and is used internal-
ly as the positive supply voltage for the digital logic and digital
I/O circuitry. The 3V_OUT pin requires a load capacitor of
0.1uF for proper operation.
UT16MX110:
The UT16MX110 utilizes a parallel interface which operates in
asynchronous mode much like discrete logic switches. During
operation, the connection between COM and the S[15:0] pins
are steered, asynchronously, based on the binary decoding of
the A[3:0] static logic levels. The address pins A[3:0] are re-
quired to hold static levels for proper mux operation. Any
change in A[3:0] pins directs the COM connection to the ap-
propriate S[x] input after approximately 100ns propagation de-
lay (including the Break-Before-Make delay). All bits (A[3:0])
of any address change should be received by the UT16MX110
within 18 ns of the first bit change for proper operation. The
asynchronous parallel interface mode requires CS to be low for
accepting a change on the address pins A[3:0]. When CS is
high, the UT16MX110 disables the address pins A[3:0], as
well as holding the last valid address state, thereby mitigating
against any single-event upsets or transients on the address bus.
UT16MX111:
The UT16MX111 utilizes a parallel interface which operates in
a synchronous mode which utilizes the PLATCH input as the
latching clock. Upon rising edge of PLATCH, logic level at the
A[3:0] pins will be registered and retained internally to decode
the mux. Based on the values of the A[3:0] pins, COM is con-
nected to the appropriate S[x] input after approximately 100ns
propagation delay (including the Break-Before-Make delay).
UT16MX112:
The UT16MX112 utilizes a serial interface that supports the
standard that is compatible with MICROWIRE™, SPI™, and
QSPI™. The UT16MX112 SPI™ interface can be depicted as
an 8-bit serial shift register controlled by SS, clocked by the ris-
ing edge of SCLK. The 8-bit shift register is for compatibility
purposes, even though this UT16MX112 serial address setting
requires only 4 bits. The four LSB of the 8-bit shift register are
the four bits decoding the mux address. When shifting data into
the part, the MSB enters the part first. The four MSB may be
set to zeroes, e.g., the 8-bit command "00001001" would set
the mux to connect COM to S[9].
The UT16MX112 is considered a slave SPI™ device with
MOSI (Master Out Slave In) as the data input pin to the device.
The data is shifted with D7 as the first bit into the shift register,
and also the first bit out to the MISO (Master In Slave Out) out-
put pin after eight clock cycles of SCLK. The signal on the SS
pin defines the window when the address bits are shifted into
the device. This occurs when signal on SS is low. Only when
SS is high at the close of the shifting window, does the mux de-
coding get updated and COM is directed to the decoded S[x]
input (after Break-Before-Make delay).
SPI™ Operations:
The SPI™ (Serial Peripheral Interface) is implemented as a
synchronous 8-bit serial shift register controlled by four pins:
MOSI, MISO, SCLK, and SS. This is compatible with the
SPI™/QSPI™ standard as defined by Motorola on the
MC68HCxx line of microcontrollers. This SPI™ also con-
forms to the MICROWIRE™ interface, an SPI™ subset inter-
face, as defined by National Semiconductor.
The UT16MX112 SPI™ is always a slave device, where MO-
SI, SCLK, and SS are controlled by a master device. MISO out-
put is used as receiving slave data or to daisy chain several
SPI™ devices in appropriate applications.
The MUX select functionality is controlled by the four LSB of
the 8-bit SPI™ shift registers. When shifting, the first SCLK
rising edge clocks in the MSB first. The first falling edge of the
SCLK clocks out the 6th bit of the current values in the SPI™
registers, since the 7th bit already appears at the MISO at the
start of a serial transmission before the first SCLK (Figures 7
and 8).
Reset Function (UT16MX111/112 Only):
The RESET pin is used to reset all internal logic circuits. RE-
SET held low also keeps all COM and S[15:0] analog I/Os in a
high impedance state. This is the recommended condition at
system power-up.
Asserting RESET (active low) resets all of the internal address
decoding registers to 0, thus steering the COM to connect to
S[0] while in the high impedance state. When RESET is de-as-
serted (high), both COM and S[0] will come out of the high im-
pedance state and COM will be driven by S[0].
2
Table 1: UT16MX110 Pin Description
Pin No.
1
2
3
4-11
12
13
14
15
16
17
18
19-26
27
28
Name
AV
DD
NC
NC
S[15:8]
GND
3V_OUT
A3
A2
A1
A0
CS
S[0:7]
AV
SS
COM
I/O
--
--
--
Input
--
Output
Input
Input
Input
Input
Input
Input
--
Output
Type
Power
--
--
Analog
Power
Power
Digital
Digital
Digital
Digital
Digital
Analog
Power
Analog
Description
Analog Positive Supply
No Connection
No Connection
Muxed Inputs
Digital Ground
Digital Power Bypass Connection
1
Parallel A3
Parallel A2
Parallel A1
Parallel A0
Active Low Parallel Chip Select with Internal
Pull-up
Muxed Inputs
Analog Negative Supply
Muxed Output
2
Notes:
1. Bypass capacitor of 0.1
F
required for proper operation (See Figure 11)
2. Continuous operation with low load resistance is not recommended. (See Figure 12)
AVDD
NC
NC
S15
S14
S13
S12
S11
S10
S9
S8
GND
3V_OUT
A3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
28
27
26
25
24
23
22
21
20
19
18
17
16
15
COM
AVSS
S7
S6
S5
S4
S3
S2
S1
S0
CS
A0
A1
A2
UT16MX110
Figure 2. UT16MX110 Pinout
3
Table 2: UT16MX111 Pin Description
Pin No.
1
2
3
4-11
12
13
14
15
16
17
18
19-26
27
28
Name
AV
DD
RESET
PLATCH
S[15:8]
GND
3V_OUT
A3
A2
A1
A0
NC
S[0:7]
AV
SS
COM
I/O
--
Input
Input
Input
--
Output
Input
Input
Input
Input
--
Input
--
Output
Type
Power
Digital
Digital
Analog
Power
Power
Digital
Digital
Digital
Digital
--
Analog
Power
Analog
Description
Analog Positive Supply
Active Low Reset with Internal Pull-up
Parallel Latch with Internal Pull-down
Muxed Inputs
Digital Ground
Digital Power Bypass Connection
1
Parallel A3
Parallel A2
Parallel A1
Parallel A0
No Connection
Muxed Inputs
Analog Negative Supply
Muxed Output
2
Notes:
1. Bypass capacitor of 0.1
F
required for proper operation. (See Figure 11)
2. Continuous operation with low load resistance is not recommended. (See Figure 12)
AVDD
RESET
PLATCH
S15
S14
S13
S12
S11
S10
S9
S8
GND
3V_OUT
A3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
28
27
26
25
24
23
22
21
20
19
18
17
16
15
COM
AVSS
S7
S6
S5
S4
S3
S2
S1
S0
NC
A0
A1
A2
UT16MX111
Figure 3. UT16MX111 Pinout
4
Table 3: UT16MX112 Pin Description
Pin No.
1
2
3
4-11
12
13
14
15
16
17
18
19-26
27
28
Name
AV
DD
RESET
NC
S[15:8]
GND
3V_OUT
NC
SCLK
MOSI
MISO
SS
S[0:7]
A
VSS
COM
I/O
--
Input
--
Input
--
Output
--
Input
Input
Output
Input
Input
--
Output
Type
Power
Digital
--
Analog
Power
Power
--
Digital
Digital
Digital
Digital
Analog
Power
Analog
Description
Analog Positive Supply
Active Low Reset with Internal Pull-up
No Connection
Muxed Inputs
Digital Ground
Digital Power Bypass Connection
1
No Connection
SPI™ Clock
Master-out-Slave-in (Din)
Master-in-Slave-out (Dout)
SPI™ Shift Control with Internal Pull-up
Muxed Inputs
Analog Negative Supply
Muxed Output
2
Notes:
1. Bypass capacitor of 0.1
F
required for proper operation. (See Figure 11)
2. Continuous operation with low load resistance is not recommended. (See Figure 12)
AVDD
RESET
NC
S15
S14
S13
S12
S11
S10
S9
S8
GND
3V_OUT
NC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
28
27
26
25
24
23
22
21
20
19
18
17
16
15
COM
AVSS
S7
S6
S5
S4
S3
S2
S1
S0
SS
MISO
MOSI
SCLK
UT16MX112
Figure 4. UT16MX112 Pinout
5
