Freescale Semiconductor, Inc.
Advance Information
MAC7100EC/D
Rev. 0.1, 10/2003
MAC7100 Microcontroller
Family Hardware
Specifications
Freescale Semiconductor, Inc...
32-bit Embedded
Controller Division
This document provides electrical specifications, pin assignments, and package diagrams for
MAC7100 family of microcontroller devices. For functional characteristics of the family,
refer to the
MAC7100 Microcontroller Family Reference Manual
(MAC7100RM/D).
This document contains the following topics:
Topic
Section 1, “Overview”
Section 2, “Ordering Information”
Section 3, “Electrical Characteristics”
Section 4, “Device Pin Assignments”
Section 5, “Mechanical Information”
Page
1
2
3
36
41
1
Overview
The MAC7100 Family of microcontrollers (MCUs) are members of a pin-compatible family
of 32-bit Flash-memory-based devices developed specifically for embedded automotive
applications. The pin-compatible family concept enables users to select between different
memory and peripheral options for scalable designs. All MAC7100 Family members are
composed of a 32-bit central processing unit (ARM7TDMI-S), up to 512Kbytes of embedded
Flash EEPROM for program storage, up to 32Kbytes of embedded Flash for data and/or
program storage, and up to 32Kbytes of RAM. The family is implemented with an enhanced
DMA (eDMA) controller to improve performance for transfers between memory and many of
the on-chip peripherals. The peripheral set includes asynchronous serial communications
interfaces (eSCI), serial peripheral interfaces (DSPI), inter-integrated circuit (I
2
C) bus
controllers, FlexCAN interfaces, an enhanced modular I/O subsystem (eMIOS), 10-bit
analog-to-digital converter (ATD) channels, general-purpose timers (PIT) and two
special-purpose timers (RTI and SWT). The peripherals share a large number of general
purpose input-output (GPIO) pins, all of which are bidirectional and available with interrupt
capability to trigger wake-up from low-power chip modes.
The inclusion of a PLL circuit allows power consumption and performance to be adjusted to
suit operational requirements. The operating frequency of devices in the family is up to a
maximum of 50 MHz. The internal data paths between the CPU core, eDMA, memory and
peripherals are all 32 bits wide, further improving performance for 32-bit applications. The
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Ordering Information
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MAC7111 and MAC7131 also offer a 16-bit wide external data bus with 22 address lines. The family of
devices is capable of operating over a junction temperature range of -40° C to 150° C.
Table 1 provides a comparison of members of the MAC7100 Family and the availability of peripheral
modules on the various devices.
Table 1. MAC7100 Family Device Derivatives
Module Options
Program Flash
Data Flash
SRAM
External Bus
MAC7101
512Kbytes
32Kbytes
32Kbytes
No
2
4
4
2
1
16 channels,
16-bit
10 channels,
24-bit
111
144 LQFP
MAC7111
512Kbytes
32Kbytes
32Kbytes
Yes
1
4
4
2
1
16 channels,
16-bit
10 channels,
24-bit
111
144 LQFP
MAC7121
512Kbytes
32Kbytes
32Kbytes
No
1
4
4
2
1
16 channels,
16-bit
10 channels,
24-bit
84
112 LQFP
MAC7131
512Kbytes
32Kbytes
32Kbytes
Yes
2
4
4
2
1
16 channels,
16-bit
10 channels,
24-bit
127
208 MAP BGA
MAC7141
512Kbytes
32Kbytes
32Kbytes
No
1
2
2
2
1
16 channels,
16-bit
10 channels,
24-bit
71
100 LQFP
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ATD Modules
CAN Modules
eSCI Modules
DSPI Modules
I
2
C Modules
eMIOS Module
Timer Module
GPIO Pins (max.)
Package
2
Ordering Information
M AC 7 1 0 1 C PV 50 xx
MC Status
Core Code
Core Number
Generation / Family
Package Option
Device Number
Temperature Range
Package Identifier
Speed (MHz)
Optional Package Identifiers
Temperature Option
C = –40° C to 85° C
V = –40° C to 105° C
M = –40° C to 125° C
Package Option
FU = 100 QFP
PV = 112 / 144 LQFP
VF = 208 MAP BGA
Figure 1. Order Part Number Example
2
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Electrical Characteristics
3
Electrical Characteristics
This section contains electrical information for MAC7100 Family microcontrollers. The information is
preliminary and subject to change without notice.
MAC7100 Family devices are specified and tested over the 5 V and 3.3 V ranges. For operation at any
voltage within that range, the 3.3 V specifications generally apply. However, no production testing is done
to verify operation at intermediate supply voltage levels.
3.1
Parameter Classification
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The electrical parameters shown in this appendix are derived by various methods. To provide a better
understanding to the designer, the following classification is used. Parameters are tagged accordingly in in
the column labeled “C” of the parametric tables, as appropriate.
Table 2. Parametric Value Classification
P
C
T
Parameters guaranteed during production testing on each individual device.
Parameters derived by the design characterization and by measuring a statistically relevant
sample size across process variations.
Parameters derived by design characterization on a small sample size from typical devices
under typical conditions (unless otherwise noted). All values shown in the typical column
are within this classification, even if not so tagged.
Parameters derived mainly from simulations.
D
3.2
Absolute Maximum Ratings
Absolute maximum ratings are stress ratings only. Functional operation outside these maximums is not
guaranteed. Stress beyond these limits may affect reliability or cause permanent damage to the device.
MAC7100 Family devices contain circuitry protecting against damage due to high static voltage or
electrical fields; however, it is advised that normal precautions be taken to avoid application of any voltages
higher than maximum-rated voltages to this high-impedance circuit. Reliability of operation is enhanced if
unused inputs are tied to an appropriate logic voltage level (for example, either V
SS
5 or V
DD
5).
Table 3. Absolute Maximum Ratings
Num
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
Rating
I/O, Regulator and Analog Supply Voltage
Digital Logic Supply Voltage
1
PLL Supply Voltage
1
ATD Supply Voltage
Analog Reference
Voltage difference V
DD
X to V
DD
A
Voltage difference V
SS
X to V
SS
A
Voltage difference V
RH
– V
RL
Voltage difference V
DD
A – V
RH
Digital I/O Input Voltage
Symbol
V
DD
5
V
DD
2.5
V
DD
PLL
V
DD
A
V
RH,
V
RL
∆
VDDX
∆
VSSX
V
RH
– V
RL
V
DD
A – V
RH
V
IN
Min
–0.3
–0.3
–0.3
–0.3
–0.3
–0.3
–0.3
–0.3
–6.5
–0.3
Max
+6.0
+3.0
+3.0
+6.5
+6.0
+0.3
+0.3
+6.5
+6.5
+6.0
Unit
V
V
V
V
V
V
V
V
V
V
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Electrical Characteristics
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Table 3. Absolute Maximum Ratings (continued)
Num
A11
A12
A13
A14
A15
A16
A17
1
Rating
XFC, EXTAL, XTAL inputs
TEST input
Instantaneous Maximum Current
2
Single pin limit for XFC, EXTAL, XTAL
3
Single pin limit for all digital I/O pins
4
Single pin limit for all analog input pins
4
Single pin limit for TEST
5
Storage Temperature Range
Symbol
V
ILV
V
TEST
I
DL
I
D
I
DA
I
DT
T
stg
Min
–0.3
–0.3
–25
–25
–25
–0.25
–65
Max
+3.0
+10.0
+25
+25
+25
0
+155
Unit
V
V
mA
mA
mA
mA
°C
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2
3
4
5
The device contains an internal voltage regulator to generate the logic and PLL supply from the I/O supply. The
absolute maximum ratings apply when the device is powered from an external source.
Input must be current limited to the value specified. To determine the value of the required current-limiting resistor,
calculate resistance values using V
POSCLAMP
= V
DD
A + 0.3 V and V
NEGCLAMP
= –0.3 V, then use the larger of the
calculated values.
These pins are internally clamped to V
SS
PLL and V
DD
PLL.
All I/O pins are internally clamped to V
SS
X and V
DD
X, V
SS
R and V
DD
R or V
SS
A and V
DD
A.
This pin is clamped low to V
SS
X, but not clamped high, and must be tied low in applications.
3.3
ESD Protection and Latch-up Immunity
All ESD testing is in conformity with CDF-AEC-Q100 Stress test qualification for Automotive Grade
Integrated Circuits. During the device qualification ESD stresses were performed for the Human Body
Model (HBM), the Machine Model (MM) and the Charge Device Model.
A device is defined as a failure if after exposure to ESD pulses the device no longer meets the device
specification. Complete DC parametric and functional testing is performed per the applicable device
specification at room temperature followed by hot temperature, unless specified otherwise.
Table 4. ESD and Latch-up Test Conditions
Model
Human Body
Series Resistance
Storage Capacitance
Number of Pulses per pin
positive
negative
Machine
Series Resistance
Storage Capacitance
Number of Pulse per pin
positive
negative
Latch-up
Minimum input voltage limit
Maximum input voltage limit
Description
Symbol
R1
C
—
Value
1500
100
—
3
3
0
200
—
3
3
–2.5
7.5
V
V
Ohm
pF
Unit
Ohm
pF
R1
C
—
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Electrical Characteristics
Table 5. ESD and Latch-Up Protection Characteristics
Num
B1
B2
B3
B4
C
Rating
Symbol
V
HBM
V
MM
V
CDM
I
LAT
Min
2000
200
500
+100
–100
+200
–200
Max
—
—
—
—
—
mA
Unit
V
V
V
mA
C Human Body Model (HBM)
C Machine Model (MM)
C Charge Device Model (CDM)
C Latch-up Current at T
A
= 125°C
positive
negative
C Latch-up Current at T
A
= 27°C
positive
negative
B5
I
LAT
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3.4
Operating Conditions
Unless otherwise noted, the following conditions apply to all parametric data. Refer to the temperature
rating of the device (C, V, M) with respect to ambient temperature (T
A
) and junction temperature (T
J
). For
power dissipation calculations refer to Section 3.5, “Power Dissipation and Thermal Characteristics.”
Table 6. MAC7100 Family Device Operating Conditions
Num
C1
C2
C3
C4
C5
C6
C7
C8a
C8b
C9a
C9b
Rating
I/O, Regulator and Analog Supply Voltage
Digital Logic Supply Voltage
1
PLL Supply Voltage
1
Voltage Difference V
DD
X to V
DD
A
Voltage Difference V
SS
X to V
SS
A
Oscillator Frequency
Bus Frequency
MAC7100C Operating Junction Temperature Range
2
Symbol
V
DD
5
V
DD
2.5
V
DD
PLL
∆
VDD
X
∆
VSS
X
f
osc
f
bus
T
J
T
A
Min
4.5
2.35
2.35
–0.1
–0.1
0.5
0.5
–40
–40
–40
–40
–40
–40
Typ
5
2.5
2.5
0
0
—
—
—
25
—
25
—
25
Max
5.5
2.75
2.75
0.1
0.1
16
50
110
85
130
105
150
125
Unit
V
V
V
V
V
MHz
MHz
°C
°C
°C
°C
°C
°C
Operating Ambient Temperature Range
2
MAC7100V Operating Junction Temperature Range
2
T
J
T
A
T
J
T
A
Operating Ambient Temperature Range
2
2
C10a MAC7100M Operating Junction Temperature Range
C10b
1
Operating Ambient Temperature Range
2
The device contains an internal voltage regulator to generate the logic and PLL supply from the I/O supply. The
absolute maximum ratings apply when this regulator is disabled and the device is powered from an external source.
2
Please refer to Section 3.5, “Power Dissipation and Thermal Characteristics,” for more details about the relation
between ambient temperature T
A
and device junction temperature T
J
.
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MAC7100 Microcontroller Family Hardware Specifications
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