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dsPIC33EP512GM710
dsPIC33EP512GM710 Plug-In Module (PIM) Information Sheet for Single-Dual Motor Control
The dsPIC33EP512GM710 Single-Dual Motor Control PIM is designed to demonstrate the capabilities of the dsPIC33EP512GM710 motor control device, using both internal and external op amps with the Low-Voltage Motor Control Development Bundle (DV330100), by using its 105-pin interface.
The dsPIC33EP512GM710 device is a high-performance, 16-bit Digital Signal Controller (DSC) in a 100-pin TQFP package. This PIM is designed to take advantage of all the features of the device, such as the four internal op amps/comparators, the addi-tional dedicated comparator, the QEI interface, the two ADC Converters and the two dedicated motor control PWM units (6 PWM generators).
The dsPIC33EP512GM710 Single-Dual Motor PIM takes advantage of these analog peripherals, config-ured using on-board passive components (resistors and capacitors) to support motor control applications. The PIM is designed to enable driving one or two motors with both internal and external op amps.
In order to operate this device with the Low-Voltage Motor Control Development Bundle, please insert the dsPIC33EP512GM710 Single-Dual Motor Control PIM on the dsPIC® DSC Signal Board. Table 1 provides
information on the hardware versions of the motor control boards that are compatible with this PIM. Refer to the User’s Guide for the specific motor control board for hardware version identification information.
FIGURE 1: SINGLE-DUAL MOTOR CONTROL PIM
TABLE 1: HARDWARE COMPATIBILITY
Development Board Part Number Compatible Hardware Version(s)
dsPICDEM™ MCHV Development Board DM330023 Not Compatible
dsPICDEM™ MCLV Development Board DM330021 Not Compatible
dsPICDEM™ MCSM Development Board DM330022 Not Compatible
dsPICDEM™ MCHV-2 Development Board DM330023-2 Not Compatible
dsPICDEM™ MCLV-2 Development Board DM330021-2 Not Compatible
Low-Voltage Motor Control Development Bundle
DV330100 All Revisions
2013 Microchip Technology Inc. DS50002216A-page 1
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U2D
PIM: 76PIM: 77PIM: 78PIM: 79PIM: 80PIM: 81PIM: 82PIM: 83PIM: 84PIM: 85
PIM: 87PIM: 88PIM: 89PIM: 90PIM: 91PIM: 92PIM: 93PIM: 94PIM: 95PIM: 96
PIM: 98PIM: 99PIM: 100
(AN17/ASDA1/RP120/PMA3/RG8)(OA5_OUT)
(RPI76/RD12)(AN29/SCK1/RPI51/RC3)
(SDA2/RPI24/PMA9/RA8)(OA5_IN NEG)
(SOSCI/RPI61/RC13)(AN18/ASCL1/RPI119/PMA4/RG7)
(AN19/RP118/PMA5/RG6)
(RP57/RC9)(RP56/PMWR/RC8)
(RPI112/RG0)(RF6)(RF7)
(RP126/RG14)(RPI47/PWM1L1/T5CK/T6CK/PMD7/RB15)(RPI46/PWM1H1/T3CK/T7CK/PMD6/RB14)
(RPI124/RG12)(RP125/RG13)
(RPI45/PWM1L2/CTPLS/PMD3/RB13)(RPI44/PWM1H2/PMD2/RB12)(RP43/PWM1L3/PMD1/RB11)
DVDD
PIM: 97
(AN47/INT4/RA15)
C2IN2-/C5IN2-/U2RTS/BCLK2/FLT5/PMA11/RE12)
DNPC38
TP7
DNPC39
TP8
DNPC44
TP13
TP17
DNPC45
TP14
TP18
FIGURE 2: 105-PIN HEADER SCHEMATIC
123456789
101112131415161718192021222324252627282930
U2E
PIM: 01
PIM: 03PIM: 04PIM: 05PIM: 06PIM: 07PIM: 08PIM: 09PIM: 10PIM: 11
123456789
10111213141516171819202122232425
U2A
123456789
10111213141516171819202122232425
U2B
PIM: 12PIM: 13PIM: 14
PIM: 17PIM: 18PIM: 19PIM: 20PIM: 21PIM: 22PIM: 23PIM: 24
PIM: 26
PIM: 29
PIM: 32PIM: 33PIM: 34PIM: 35
PIM: 38PIM: 39PIM: 40PIM: 41
PIM: 43PIM: 44
PIM: 47PIM: 48PIM: 49PIM: 50PIM: 25
PIM: 51PIM: 52PIM: 53PIM: 54PIM: 55PIM: 56PIM: 57PIM: 58PIM: 59PIM: 60PIM: 61
PIM: 63PIM: 64
PIM: 66PIM: 67PIM: 68PIM: 69PIM: 70PIM: 71PIM: 72PIM: 73PIM: 74
PIM: 27
PIM: 42
PIM: 103PIM: 102PIM: 101
PIM: 104
(RP70/RD6)
(RP42/PWM1H3/PMD0/RB10)(TDO/PWM1H4/PMD4/RA10)
(TDI/PWM1L4/PMD5/RA7)(PWM1L5/RD1)(PWM1H5/RD2)
(PWM1L6/T9CK/RD3)(PWM1H6/T8CK/RD4)
(AN41/RP81/RE1)(AN23/RP127/RG15)
(RP113/RG1)(MCLR)
(AN16/RPI121/PMA2/RG9)
(AN22/RG10)(FLT32/SCL2/RP36/PMA8/RB4)
(VREF+/AN34/PMA7/RF10)(AN20/RE9)
(AN15/RPI95/FLT8/PMA0/RE15)(AN21/RE8)
(AN14/RPI94/FLT7/PMA1/RE14)(AN11/C1IN2-/U1CTS/FLT4/PMA12/RC11)
(AN9/RPI27/RA11)
(PGEC2/ASCL2/RP38/PMCS2/RB6)(PGED2/ASDA2/RP37/RB5)
(VREF-/AN33/PMA6/RF9)
(AN13/C3IN2-/U2CTS/FLT6/PMA10/RE13)(AN35/RG11)(AN36/RF13)
(AN10/RPI28/RA12)
(AN37/RF12)(AN38/RD14)(AN39/RD15)(RPI77/RD13)
(AN42/RG2)(AN40/RPI80/RE0)
(AN28/SDI1/RPI25/RA9)
(RP54/RC6)(RPI96/RF0)
(AN31/SCL1/RPI53/RC5)(RP97/RF1)
(AN43/RG3)(AN44/RF4)(AN45/RF5)
(TCK/AN26/CVREF1O/SOSCO/RP40/T4CK/RB8)(OA1_OUT)
(OA1_IN POS)(OA1_IN NEG)
(AN46/INT3/RA14)(RPI72/RD8)
(RP69/PMRD/RD5)(AN48/CVREF2O/RPI58/PMCS1/RC10)
(AN49/OSC1/CLKI/RPI60/RC12)(OSC2/CLKO/RPI63/RC15)
(OA3_IN POS)(OA3_IN NEG)
(OA3_OUT)(AN30/SDA1/RPI52/RC4)
(RP55/PMBE/RC7)(PGED3/OA2IN-/AN2/C2IN1-/SS1/RPI32/CTED2/RB0)
(OA2_OUT)(OA2_IN POS)(OA5_INPOS)
DVDD
DGND
DVDD
DVDD
DGND
DGND
DVDD
DGND
DVDD
DGND
AVDD
AGND
(AN12/
DNP
R29
DNP
R30DGND
DVDD AVDD
AGND
Black TP
TP1
Black TP
TP2
DGND AGND
12
34
J1DNP
R31
DNP
R33
DNPC34
AGND
TP3
DNPC35
TP4
DNPC36
TP5
DNPC37
TP6
DNPC40
AGND
TP9
DNPC41
TP10
DNPC42
TP11
TP15
DNPC43
TP12
TP16
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FIG
47k0603
1%R3
1k
R1
1k
R4
1k
R2
1k
R5
DNP
R6
47k 1%0603
R7
50V 0603470 pF
C8
50V 0603470 pF
C9
DNPR9
0R
R10
0R
R12
0R
R11
0R
R13
0
R8
DNP
R14
DNP
C10
DNP
C11
47k 1%R16
1k
R17
1k
R19
1k
R18
1k
R20
DNP
R15
060347k 1%
R21
50V 0603470 pF
C12
50V 0603470 pF
C13
1000 pFC19
DNP
C18
1000 pFC17
PIM: 72
PIM: 71
PIM: 73
PIM: 102
PIM: 55
PIM: 57
PIM: 56
PIM: 101
PIM: 68
PIM: 67
PIM: 66
PIM: 103 (OA3_REF)
(OA3_IN POS)
(OA3_IN NEG)
(OA3_OUT)
(OA1_REF)
(OA1_IN POS)
(OA1_IN NEG)
(OA1_OUT)
(OA2_REF)
(OA2_IN POS)
(OA2_IN NEG)
(OA2_OUT)
AGND
AGND
AGND
AGND
AGND
AGND
URE 3: 100-PIN DEVICE SCHEMATIC
PIM: 10
PIM: 76PIM: 83PIM: 84
PIM: 13
PIM: 03
PIM: 11
PIM: 18
PIM: 20
PIM: 80
PIM: 38
PIM: 22
PIM: 43
PIM: 04
PIM: 05
PIM: 34
PIM: 14
PIM: 44PIM: 79PIM: 69PIM: 49
PIM: 24
dsPIC33EP512GM710-I/PT
AN23/RP127/RG151
VDD2
TDI/PWM1L4/PMD5/RA73
RPI46/PWM1H1/T3CK/T7CK/PMD6/RB144
RPI47/PWM1L1/T5CK/T6CK/PMD7/RB155
PWM1L5/RD16
PWM1H5/RD27
PWM1L6/T9CK/RD38
PWM1H6/T8CK/RD49
AN19/RP118/PMA5/RG610
AN18/ASCL1/RPI119/PMA4/RG711
AN17/ASDA1/RP120/PMA3/RG812
MCLR13
AN16/RPI121/PMA2/RG914
VSS15
VDD16
AN22/RG1017
AN21/RE818
AN20/RE919
AN10/RPI28/RA1220
AN9/RPI27/RA1121
OA2OUT/AN0/C2IN4-/C4IN3-/RPI16/RA022
OA2IN+/AN1/C2IN1+/RPI17/RA123
PGED3/OA2IN-/AN2/C2IN1-/SS1/RPI32/CTED2/RB024
PGEC3/CVREF+/OA1OUT/AN3/C1IN4-/C4IN2-/RPI33/CTED1/RB125
PGEC1/OA1IN+/AN4/C1IN3-/C1IN1+/C2IN3-/RPI34/RB226
PGED1/OA1IN-/AN5/C1IN1-/CTMUC/RP35/RTCC/RB327
VREF-/AN33/PMA6/RF928
VREF+/AN34/PMA7/RF1029
AVDD30
AVSS31
OA3OUT/AN6/C3IN4-/C4IN4-/C4IN1+/RP48/OCFB/RC032
OA3IN-/AN7/C3IN1-/C4IN1-/RP49/RC133
OA3IN+/AN8/C3IN3-/C3IN1+/RPI50/U1RTS/BCLK1/FLT3/RC234
AN11/C1IN2-/U1CTS/FLT4/PMA12/RC1135
VSS36
VDD37
AN35/RG1138
AN36/RF1339
AN37/RF1240
AN12/C2IN2-/C5IN2-/U2RTS/BCLK2/FLT5/PMA11/RE1241
AN13/C3IN2-/U2CTS/FLT6/PMA10/RE1342
AN14/RPI94/FLT7/PMA1/RE1443
AN15/RPI95/FLT8/PMA0/RE1544
VSS45
VDD46
AN38/RD1447
AN39/RD1548
SDA2/RPI24/PMA9/RA849
FLT32/SCL2/RP36/PMA8/RB450
OA5IN+/AN24/C5IN3-/C5IN1+/SDO1/RP20/T1CK/RA451AN40/RPI80/RE052
AN41/RP81/RE1 53AN28/SDI1/RPI25/RA9 54
AN29/SCK1/RPI51/RC355AN30/SDA1/RPI52/RC456
AN31/SCL1/RPI53/RC5 57AN42/RG2
58AN43/RG359AN44/RF460
AN45/RF5 61VDD
62AN49/OSC1/CLKI/RPI60/RC1263OSC2/CLKO/RPI63/RC1564
VSS65
AN46/INT3/RA1466AN47/INT4/RA1567RPI72/RD868
PGED2/ASDA2/RP37/RB5 69PGEC2/ASCL2/RP38/PMCS2/RB6
70AN48/CVREF2O/RPI58/PMCS1/RC1071OA5OUT/AN25/C5IN4-/RP39/INT0/RB772
SOSCI/RPI61/RC13 73TCK/AN26/CVREF1O/SOSCO/RP40/T4CK/RB8
74VSS 75
TMS/OA5IN-/AN27/C5IN1-/RP41/RB9 76RP54/RC6
77RP55/PMBE/RC778
RPI76/RD12 79RPI77/RD13 80
RP56/PMWR/RC881RP69/PMRD/RD582
RP70/RD6 83RP57/RC9 84
VCAP85VDD86
RPI96/RF0 87RP97/RF1 88
RP113/RG189RPI112/RG090
RF6 91RF7 92
RP42/PWM1H3/PMD0/RB1093RP43/PWM1L3/PMD1/RB1194
RP126/RG14 95RPI124/RG12
96RP125/RG1397RPI44/PWM1H2/PMD2/RB1298
RPI45/PWM1L2/CTPLS/PMD3/RB13 99TDO/PWM1H4/PMD4/RA10
100U1
PIM: 06PIM: 07PIM: 08PIM: 09
PIM: 17
PIM: 35PIM: 25
PIM: 29PIM: 19
PIM: 26PIM: 27
PIM: 97PIM: 32PIM: 23
PIM: 33
PIM: 21
PIM: 39PIM: 40
PIM: 42PIM: 51PIM: 52PIM: 53
PIM: 58PIM: 85
dsPIC_PIN_26
dsPIC_PIN_27
dsPIC_PIN_25
PIM: 59
PIM: 61
PIM: 54
PIM: 63PIM: 64
dsPIC_PIN_34
dsPIC_PIN_33
dsPIC_PIN_32
PIM: 82
PIM: 47
dsPIC_PIN_22
dsPIC_PIN_24
dsPIC_PIN_23
dsPIC_PIN_51
dsPIC_PIN_76
dsPIC_PIN_72
PIM: 70PIM: 78PIM: 41PIM: 88PIM: 60PIM: 01PIM: 87
PIM: 48PIM: 50PIM: 12PIM: 89PIM: 90PIM: 91
PIM: 92PIM: 93PIM: 94
PIM: 95PIM: 96
PIM: 98PIM: 99
PIM: 100
10 μFC1
0.1 μFC2
0.1 μFC3
0.1 μFC4
0.1 μFC5
0.1 μFC6
0.1 μFC7
0.1 μFC14
47k 1%R23
1k
R24
1k
R26
1k
R25
1k
R27
DNP
R22
060347k 1%
R28
50V 0603470 pF
C15
50V 0603470 pF
C20
dsPIC_PIN_72
dsPIC_PIN_76
dsPIC_PIN_51
1000 pFC16
PIM: 104
PIM: 77
PIM: 81
PIM: 74
dsPIC_PIN_22dsPIC_PIN_23dsPIC_PIN_24dsPIC_PIN_25
dsPIC_PIN_26dsPIC_PIN_27
dsPIC_PIN_32dsPIC_PIN_33dsPIC_PIN_34
(OA5_OUT)
(OA5_IN NEG)
(OA5_INPOS)
(OA5_REF)
DVDD
DVDD
DVDD
DGND
DGND
AVDD
AGND
DGNDDVDD
DVDD
DGND
DGND
DG
ND
DVDD
DV
DD
DV
DD
DV
DD
DV
DD
DV
DD
DV
DD
AV
DD
DG
ND
DG
ND
DG
ND
DG
ND
DG
ND
DG
ND
AG
ND
AGND
AGND
0.01 μF
C21
0.01 μF
C22
0.01 μF
C23
0.01 μF
C24
0.01 μF
C25
0.01 μF
C26
0.01 μF
C27
DNPC28
DNPC29
DGND
DNP
C30
AGND
DNP
C31
AGND
DNP
C32
AGND
DNP
C33
AGND
1TP21
1TP20
1TP19
1TP22
DNP
R32AGND
dsPIC33EP512GM710
Connector J1 interacts with the dsPIC DSC Signal Board to have the correct power supply voltage gener-ated. The dsPIC DSC Signal Board is, in fact, capable of generating both 3.3V and 5V. For a correct voltage to be supplied to the dsPIC33EP512GM710, which is 3.3V, neither resistor, R31 nor R33, must be populated.
TP3 to TP8 and C34 to C39, connected to the Analog Ground (AGND), are respectively test points and pads available for additional components to be added if needed; they are all located in the area where the op amp passive components are located. This will help in adding additional local filtering, if needed.
FIGURE 4: AVAILABLE FILTERING LOCATIONS
Four different voltage references, from PIM: 101 to PIM: 104, are used to bias each of the four op amps present on the device. Each op amp reference voltage
is independent from the others, allowing a large versatility in the hardware configuration.
TP3
TP4
TP5
TP6
TP7
TP8
[C34]
[C35]
[C36]
[C37]
[C38]
[C39]
DS50002216A-page 4 2013 Microchip Technology Inc.
dsPIC33EP512GM710
Table 2 provides the mapping between the 105-pin PIM and the 100-pin device pinout.
TABLE 2: DEVICE TO PIM MAPPING (SORTED BY PIM PIN NUMBER)
Connector PIM Pin #PIM Functional Description on
PIMDevice Pin #
dsPIC33EP512GM710 Device Functional Description
U2A-1 PIM:01 Direct Connection 83 RP70/RD6
U2A-2 PIM: 02 Digital Power (DVDD) 2(2) DVDD
U2A-3 PIM: 03 Direct Connection 93 RP42/PWM1H3/PMPD0/RB10
U2A-4 PIM: 04 Direct Connection 100 TDO/PWM1H4/PMPD4/RA10
U2A-5 PIM: 05 Direct Connection 3 TDI/PWM1L4/PMPD5/RA7
U2A-6 PIM: 06 Direct Connection 6 PWM1L5/RD1
U2A-7 PIM: 07 Direct Connection 7 PWM1H5/RD2
U2A-8 PIM: 08 Direct Connection 8 PWM1L6/T9CK/RD3
U2A-9 PIM: 09 Direct Connection 9 PWM1H6/T8CK/RD4
U2A-10 PIM: 10 Direct Connection 53 AN41/RP81/RE1
U2A-11 PIM: 11 Direct Connection 1 AN23/RP127/RG15
U2A-12 PIM: 12 Direct Connection 89 RP113/RG1
U2A-13 PIM: 13 MCLR 13 MCLR
U2A-14 PIM: 14 Direct Connection 14 AN16/RPI121/PMPA2/RG9
U2A-15 PIM: 15 Digital Ground (DGND) 15(3) Digital Ground (DGND)
U2A-16 PIM: 16 Digital Power (DVDD) 16(2) Digital Power (DVDD)
U2A-17 PIM: 17 Direct Connection 17 AN22/RG10
U2A-18 PIM: 18 Direct Connection 50 FLT32/SCL2/RP36/PMPA8/RB4
U2A-19 PIM: 19 Direct Connection 29 VREF+/AN34/PMPA7/RF10
U2A-20 PIM: 20 Direct Connection 19 AN20/RE9
U2A-21 PIM: 21 Direct Connection 44 AN15/RPI95/FLT8/PMPA0/RE15
U2A-22 PIM: 22 Direct Connection 18 AN21/RE8
U2A-23 PIM: 23 Direct Connection 43 AN14/RPI94/FLT7/PMPA1/RE14
U2A-24 PIM: 24 Direct Connection 35 AN11/C1IN2-/U1CTS/FLT4/PMPA12/RC11
U2A-25 PIM: 25 Direct Connection 21 AN9/RPI27/RA11
U2B-1 PIM: 26 Direct Connection 70 PGEC2/ASCL2/RP38/PMPCS2/RB6
U2B-2 PIM: 27 Direct Connection 69 PGED2/ASDA2/RP37/RB5
U2B-3 PIM: 28 Not Connected
U2B-4 PIM: 29 Direct Connection 28 VREF-/AN33/PMPA6/RF9
U2B-5 PIM: 30 Analog Power (AVDD) 30(4) Analog Power (AVDD)
U2B-6 PIM:31 Analog Ground (AGND) 31(5) Analog Ground (AGND)
U2B-7 PIM:32 Direct Connection 42 AN13/C3IN2-/U2CTS/FLT6/PMPA10/RE13
U2B-8 PIM:33 Direct Connection 38 AN35/RG11
U2B-9 PIM:34 Direct Connection 39 AN36/RF13
U2B-10 PIM:35 Direct Connection 20 AN10/RPI28/RA12
U2B-11 PIM:36 Digital Ground (DGND) 36(3) Digital Ground (DGND)
U2B-12 PIM:37 Digital Power (DVDD) 37(2) Digital Power (DVDD)
U2B-13 PIM:38 Direct Connection 40 AN37/RF12
U2B-14 PIM:39 Direct Connection 47 AN38/RD14
Note 1: The device pin is connected to the PIM pin through a passive network. A direct connection can be implemented by removing some components and/or replacing some with 0 Ohm resistors.
2: All DVDD pins are shorted together on the PIM.3: All DGND pins are shorted together on the PIM.4: All AVDD pins are shorted together on the PIM.5: All AGND pins are shorted together on the PIM.
2013 Microchip Technology Inc. DS50002216A-page 5
dsPIC33EP512GM710
U2B-15 PIM: 40 Direct Connection 48 AN39/RD15
U2B-16 PIM: 41 Direct Connection 80 RPI77/RD13
U2B-17 PIM: 42 Direct Connection 58 AN42/RG2
U2B-18 PIM: 43 Direct Connection 52 AN40/RPI80/RE0
U2B-19 PIM: 44 Direct Connection 54 AN28/SDI1/RPI25/RA9
U2B-20 PIM: 45 Digital Ground (DGND) 45(3) Digital Ground (DGND)
U2B-21 PIM: 46 Digital Power (DVDD) 46(2) Digital Power (DVDD)
U2B-22 PIM: 47 Direct Connection 77 RP54/RC6
U2B-23 PIM: 48 Direct Connection 87 RPI96/RF0
U2B-24 PIM: 49 Direct Connection 57 AN31/SCL1/RPI53/RC5
U2B-25 PIM: 50 Direct Connection 88 RP97/RF1
U2E-1 PIM: 51 Direct Connection 59 AN43/RG3
U2E-2 PIM: 52 Direct Connection 60 AN44/RF4
U2E-3 PIM: 53 Direct Connection 61 AN45/RF5
U2E-4 PIM: 54 Direct Connection 74 TCK/AN26/CVREF1O/SOSCO/RP40/T4CK/RB8
U2E-5 PIM: 55 OA1_OUT 25(1) PGEC3/VREF+/CVREF+/OA1OUT/AN3/C1IN4-/C4IN2-/RPI33/CTED1/RB1
U2E-6 PIM: 56 OA1_IN POS 26(1) PGEC1/OA1IN+/AN4/C1IN3-/C1IN1+/C2IN3-/RPI34/RB2
U2E-7 PIM: 57 OA1_IN NEG 27(1) PGED1/OA1IN-/AN5/C1IN1-/CTMUC/RP35/RTCC/RB3
U2E-8 PIM: 58 Direct Connection 66 AN46/INT3/RA14
U2E-9 PIM: 59 Direct Connection 68 RPI72/RD8
U2E-10 PIM: 60 Direct Connection 82 RP69/PMPRD/RD5
U2E-11 PIM: 61 Direct Connection 71 AN48/CVREF2O/RPI58/PMPCS1/RC10
U2E-12 PIM: 62 Digital Power (DVDD) 62(2) Digital Power (DVDD)
U2E-13 PIM: 63 Direct Connection 63 AN49/OSC1/CLKI/RPI60/RC12
U2E-14 PIM: 64 Direct Connection 64 OSC2/CLKO/RPI63/RC15
U2E-15 PIM: 65 Digital Ground (DGND) 65(3) Digital Ground (DGND)
U2E-16 PIM: 66 OA3_IN POS 34(1) OA3IN+/AN8/C3IN3-/C3IN1+/RPI50/U1RTS/BCLK1/FLT3/RC2
U2E-17 PIM: 67 OA3_IN NEG 33(1) OA3IN-/AN7/C3IN1-/C4IN1-/RP49/RC1
U2E-18 PIM: 68 OA3_OUT 32(1) OA3OUT/AN6/C3IN4-/C4IN4-/C4IN1+/RP48/OCFB/RC0
U2E-19 PIM: 69 Direct Connection 56 AN30/SDA1/RPI52/RC4
U2E-20 PIM: 70 Direct Connection 78 RP55/PMPBE/RC7
U2E-21 PIM: 71 OA2_IN NEG 24(1) PGED3/OA2IN-/AN2/C2IN1-/SS1/RPI32/CTED2/RB0
U2E-22 PIM: 72 OA2_OUT 22(1) OA2OUT/AN0/C2IN4-/C4IN3-/RPI16/RA0
U2E-23 PIM: 73 OA2_IN POS 23(1) OA2IN+/AN1/C2IN1+/RPI17/RA1
U2E-24 PIM: 74 OA5_IN POS 51(1) OA5IN+/AN24/C5IN3-/C5IN1+/SDO1/RP20/T1CK/RA4
U2E-25 PIM: 75 Digital Ground (DGND) 75(3) Digital Ground (DGND)
U2D-1 PIM: 76 Direct Connection 12 AN17/ASDA1/RP120/PMPA3/RG8
U2D-2 PIM: 77 OA5_OUT 72(1) OA5OUT/AN25/C5IN4-/RP39/INT0/RB7
U2D-3 PIM: 78 Direct Connection 79 RPI76/RD12
U2D-4 PIM: 79 Direct Connection 55 AN29/SCK1/RPI51/RC3
U2D-5 PIM: 80 Direct Connection 49 SDA2/RPI24/PMPA9/RA8
TABLE 2: DEVICE TO PIM MAPPING (SORTED BY PIM PIN NUMBER) (CONTINUED)
Connector PIM Pin #PIM Functional Description on
PIMDevice Pin #
dsPIC33EP512GM710 Device Functional Description
Note 1: The device pin is connected to the PIM pin through a passive network. A direct connection can be implemented by removing some components and/or replacing some with 0 Ohm resistors.
2: All DVDD pins are shorted together on the PIM.3: All DGND pins are shorted together on the PIM.4: All AVDD pins are shorted together on the PIM.5: All AGND pins are shorted together on the PIM.
DS50002216A-page 6 2013 Microchip Technology Inc.
dsPIC33EP512GM710
U2D-6 PIM: 81 OA5_IN NEG 76(1) TMS/OA5IN-/AN27/C5IN1-/RP41/RB9
U2D-7 PIM: 82 Direct Connection 73 SOSCI/RPI61/RC13
U2D-8 PIM: 83 Direct Connection 11 AN18/ASCL1/RPI119/PMPA4/RG7
U2D-9 PIM: 84 Direct Connection 10 AN19/RP118/PMPA5/RG6
U2D-10 PIM: 85 Direct Connection 67 AN47/INT4/RA15
U2D-11 PIM: 86 Digital Power (DVDD) 86(2) Digital Power (DVDD)
U2D-12 PIM: 87 Direct Connection 84 RP57/RC9
U2D-13 PIM: 88 Direct Connection 81 RP56/PMPWR/RC8
U2D-14 PIM: 89 Direct Connection 90 RPI112/RG0
U2D-15 PIM: 90 Direct Connection 91 RF6
U2D-16 PIM: 91 Direct Connection 92 RF7
U2D-17 PIM: 92 Direct Connection 95 RP126/RG14
U2D-18 PIM: 93 Direct Connection 5 RPI47/PWM1L1/T5CK/T6CK/PMPD7/RB15
U2D-19 PIM: 94 Direct Connection 4 RPI46/PWM1H1/T3CK/T7CK/PMPD6/RB14
U2D-20 PIM: 95 Direct Connection 96 RP124/RG12
U2D-21 PIM: 96 Direct Connection 97 RP125/RG13
U2D-22 PIM: 97 Direct Connection 41 AN12/C2IN2-/C5IN2-/U2RTS/BCLK2/FLT5/PMPA11/RE12
U2D-23 PIM: 98 Direct Connection 99 RPI45/PWM1L2/CTPLS/PMPD3/RB13
U2D-24 PIM: 99 Direct Connection 98 RPI44/PWM1H2/PMPD2/RB12
U2D-25 PIM: 100 Direct Connection 94 RP43/PWM1L3/PMPD1/RB11
U2E-26 PIM: 101 OA1_REF 26(1) Indirect Connection
U2E-27 PIM: 102 OA2_REF 23(1) Indirect Connection
U2E-28 PIM: 103 OA3_REF 34(1) Indirect Connection
U2E-29 PIM: 104 OA5_REF 51(1) Indirect Connection
U2E-30 PIM: 105 Not Connected
85 VCAP
TABLE 2: DEVICE TO PIM MAPPING (SORTED BY PIM PIN NUMBER) (CONTINUED)
Connector PIM Pin #PIM Functional Description on
PIMDevice Pin #
dsPIC33EP512GM710 Device Functional Description
Note 1: The device pin is connected to the PIM pin through a passive network. A direct connection can be implemented by removing some components and/or replacing some with 0 Ohm resistors.
2: All DVDD pins are shorted together on the PIM.3: All DGND pins are shorted together on the PIM.4: All AVDD pins are shorted together on the PIM.5: All AGND pins are shorted together on the PIM.
2013 Microchip Technology Inc. DS50002216A-page 7
dsPIC33EP512GM710
Table 3 provides the static mapping between the device pins and the 100-pin PIM pins.
TABLE 3: 100-PIN DEVICE TO 10-PIN PIM MAPPING (SORTED BY DEVICE PIN NUMBER)
Device Pin #
dsPIC33EP512GM710 Device Functional Description
PIM Pin #
PIM Functional Description on Low-Voltage Motor Control Development Bundle
1 AN23/RP127/RG15 PIM: 11 Direct Connection
2(2) Digital Power (DVDD) PIM: 02 Digital Power (DVDD)
3 TDI/PWM1L4/PMPD5/RA7 PIM: 05 Direct Connection
4 RPI46/PWM1H1/T3CK/T7CK/PMPD6/RB14 PIM: 94 Direct Connection
5 RPI47/PWM1L1/T5CK/T6CK/PMPD7/RB15 PIM: 93 Direct Connection
6 PWM1L5/RD1 PIM: 06 Direct Connection
7 PWM1H5/RD2 PIM: 07 Direct Connection
8 PWM1L6/T9CK/RD3 PIM: 08 Direct Connection
9 PWM1H6/T8CK/RD4 PIM: 09 Direct Connection
10 AN19/RP118/PMPA5/RG6 PIM: 84 Direct Connection
11 AN18/ASCL1/RPI119/PMPA4/RG7 PIM: 83 Direct Connection
12 AN17/ASDA1/RP120/PMPA3/RG8 PIM: 76 Direct Connection
13 MCLR PIM: 131 MCLR
14 AN16/RPI121/PMPA2/RG9 PIM: 14 Direct Connection
15(3) Digital Ground (DGND) PIM: 15 Digital Ground (DGND)
16(2) Digital Power (DVDD) PIM: 16 Digital Power (DVDD)
17 AN22/RG10 PIM: 17 Direct Connection
18 AN21/RE8 PIM: 22 Direct Connection
19 AN20/RE9 PIM: 20 Direct Connection
20 AN10/RPI28/RA12 PIM: 35 Direct Connection
21 AN9/RPI27/RA11 PIM: 25 Direct Connection
22(1) OA2OUT/AN0/C2IN4-/C4IN3-/RPI16/RA0 PIM: 72 OA2_OUT
23(1) OA2IN+/AN1/C2IN1+/RPI17/RA1 PIM: 73 OA2_IN POS
24(1) PGED3/OA2IN-/AN2/C2IN1-/SS1/RPI32/CTED2/RB0 PIM: 71 OA2_IN NEG
25(1) PGEC3/VREF+/CVREF+/OA1OUT/AN3/C1IN4-/C4IN2-/RPI33/CTED1/RB1
PIM: 55 OA1_OUT
26(1) PGEC1/OA1IN+/AN4/C1IN3-/C1IN1+/C2IN3-/RPI34/RB2
PIM: 56 OA1_IN POS
27(1) PGED1/OA1IN-/AN5/C1IN1-/CTMUC/RP35/RTCC/RB3
PIM: 57 OA1_IN NEG
28 VREF-/AN33/PMPA6/RF9 PIM: 29 Direct Connection
29 VREF+/AN34/PMPA7/RF10 PIM: 19 Direct Connection
30(4) Analog Power (AVDD) PIM: 30 Analog Power (AVDD)
31(5) Analog Ground (AGND) PIM: 31 Analog Ground (AGND)
32(1) OA3OUT/AN6/C3IN4-/C4IN4-/C4IN1+/RP48/OCFB/RC0
PIM: 68 OA3_OUT
33(1) OA3IN-/AN7/C3IN1-/C4IN1-/RP49/RC1 PIM: 67 OA3_IN NEG
34(1) OA3IN+/AN8/C3IN3-/C3IN1+/RPI50/U1RTS/BCLK1/FLT3/RC2
PIM: 66 OA3_IN POS
35 AN11/C1IN2-/U1CTS/FLT4/PMPA12/RC11 PIM: 24 Direct Connection
36(3) Digital Ground (DGND) PIM: 36 Digital Ground (DGND)
37(2) Digital Power (DVDD) PIM: 37 Digital Power (DVDD)
38 AN35/RG11 PIM: 33 Direct Connection
39 AN36/RF13 PIM: 34 Direct Connection
Note 1: The device pin is connected to the PIM pin through a passive network. A direct connection can be implemented by removing some components and/or replacing some with 0 Ohm resistors.
2: All DVDD pins are shorted together on the PIM.3: All DGND pins are shorted together on the PIM.4: All AVDD pins are shorted together on the PIM.5: All AGND pins are shorted together on the PIM.
DS50002216A-page 8 2013 Microchip Technology Inc.
dsPIC33EP512GM710
40 AN37/RF12 PIM: 38 Direct Connection
41 AN12/C2IN2-/C5IN2-/U2RTS/BCLK2/FLT5/PMPA11/RE12
PIM: 97 Direct Connection
42 AN13/C3IN2-/U2CTS/FLT6/PMPA10/RE13 PIM: 32 Direct Connection
43 AN14/RPI94/FLT7/PMPA1/RE14 PIM: 23 Direct Connection
44 AN15/RPI95/FLT8/PMPA0/RE15 PIM: 21 Direct Connection
45(3) Digital Ground (DGND) PIM: 45 Digital Ground (DGND)
46(2) Digital Power (DVDD) PIM: 46 Digital Power (DVDD)
47 AN38/RD14 PIM: 39 Direct Connection
48 AN39/RD15 PIM: 40 Direct Connection
49 SDA2/RPI24/PMPA9/RA8 PIM: 80 Direct Connection
50 FLT32/SCL2/RP36/PMPA8/RB4 PIM: 18 Direct Connection
51(1) OA5IN+/AN24/C5IN3-/C5IN1+/SDO1/RP20/T1CK/RA4
PIM: 74 OA5_IN POS
52 AN40/RPI80/RE0 PIM: 43 Direct Connection
53 AN41/RP81/RE1 PIM: 10 Direct Connection
54 AN28/SDI1/RPI25/RA9 PIM: 44 Direct Connection
55 AN29/SCK1/RPI51/RC3 PIM: 79 Direct Connection
56 AN30/SDA1/RPI52/RC4 PIM: 69 Direct Connection
57 AN31/SCL1/RPI53/RC5 PIM: 49 Direct Connection
58 AN42/RG2 PIM: 42 Direct Connection
59 AN43/RG3 PIM: 51 Direct Connection
60 AN44/RF4 PIM: 52 Direct Connection
61 AN45/RF5 PIM: 53 Direct Connection
62(2) Digital Power (DVDD) PIM: 62 Digital Power (DVDD)
63 AN49/OSC1/CLKI/RPI60/RC12 PIM: 63 Direct Connection
64 OSC2/CLKO/RPI63/RC15 PIM: 64 Direct Connection
65(3) Digital Ground (DGND) PIM: 65 Digital Ground (DGND)
66 AN46/INT3/RA14 PIM: 58 Direct Connection
67 AN47/INT4/RA15 PIM: 85 Direct Connection
68 RPI72/RD8 PIM: 59 Direct Connection
69 PGED2/ASDA2/RP37/RB5 PIM: 27 Direct Connection
70 PGEC2/ASCL2/RP38/PMPCS2/RB6 PIM: 26 Direct Connection
71 AN48/CVREF2O/RPI58/PMPCS1/RC10 PIM: 61 Direct Connection
72(1) OA5OUT/AN25/C5IN4-/RP39/INT0/RB7 PIM: 77 OA5_OUT
73 SOSCI/RPI61/RC13 PIM: 82 Direct Connection
74 TCK/AN26/CVREF1O/SOSCO/RP40/T4CK/RB8 PIM: 54 Direct Connection
75(3) Digital Ground (DGND) PIM: 75 Digital Ground (DGND)
76(1) TMS/OA5IN-/AN27/C5IN1-/RP41/RB9 PIM: 81 OA5_IN NEG
77 RP54/RC6 PIM: 47 Direct Connection
78 RP55/PMPBE/RC7 PIM: 70 Direct Connection
79 RPI76/RD12 PIM: 78 Direct Connection
80 RPI77/RD13 PIM: 41 Direct Connection
81 RP56/PMPWR/RC8 PIM: 88 Direct Connection
82 RP69/PMPRD/RD5 PIM: 60 Direct Connection
83 RP70/RD6 PIM: 01 Direct Connection
TABLE 3: 100-PIN DEVICE TO 10-PIN PIM MAPPING (SORTED BY DEVICE PIN NUMBER) (CONTINUED)
Device Pin #
dsPIC33EP512GM710 Device Functional Description
PIM Pin #
PIM Functional Description on Low-Voltage Motor Control Development Bundle
Note 1: The device pin is connected to the PIM pin through a passive network. A direct connection can be implemented by removing some components and/or replacing some with 0 Ohm resistors.
2: All DVDD pins are shorted together on the PIM.3: All DGND pins are shorted together on the PIM.4: All AVDD pins are shorted together on the PIM.5: All AGND pins are shorted together on the PIM.
2013 Microchip Technology Inc. DS50002216A-page 9
dsPIC33EP512GM710
84 RP57/RC9 PIM: 87 Direct Connection
85 VCAP X Device Reserved
86(2) Digital Power (DVDD) PIM: 86 Digital Power (DVDD)
87 RPI96/RF0 PIM: 48 Direct Connection
88 RP97/RF1 PIM: 50 Direct Connection
89 RP113/RG1 PIM: 12 Direct Connection
90 RPI112/RG0 PIM: 89 Direct Connection
91 RF6 PIM: 90 Direct Connection
92 RF7 PIM: 91 Direct Connection
93 RP42/PWM1H3/PMPD0/RB10 PIM: 03 Direct Connection
94 RP43/PWM1L3/PMPD1/RB11 PIM: 100 Direct Connection
95 RP126/RG14 PIM: 92 Direct Connection
96 RPI124/RG12 PIM: 95 Direct Connection
97 RP125/RG13 PIM: 96 Direct Connection
98 RPI44/PWM1H2/PMPD2/RB12 PIM: 99 Direct Connection
99 RPI45/PWM1L2/CTPLS/PMPD3/RB13 PIM: 98 Direct Connection
100 TDO/PWM1H4/PMPD4/RA10 PIM: 04 Direct Connection
PIM: 101 OA1_REF
PIM: 102 OA2_REF
PIM: 103 OA3_REF
PIM: 104 OA5_REF
PIM: 105 Not Connected
PIM: 28 Not Connected
TABLE 3: 100-PIN DEVICE TO 10-PIN PIM MAPPING (SORTED BY DEVICE PIN NUMBER) (CONTINUED)
Device Pin #
dsPIC33EP512GM710 Device Functional Description
PIM Pin #
PIM Functional Description on Low-Voltage Motor Control Development Bundle
Note 1: The device pin is connected to the PIM pin through a passive network. A direct connection can be implemented by removing some components and/or replacing some with 0 Ohm resistors.
2: All DVDD pins are shorted together on the PIM.3: All DGND pins are shorted together on the PIM.4: All AVDD pins are shorted together on the PIM.5: All AGND pins are shorted together on the PIM.
DS50002216A-page 10 2013 Microchip Technology Inc.
dsPIC33EP512GM710
Table 4 classifies the passive components according to their functionalities and also presents the design equations applicable in each case.
TABLE 4: ANALOG FUNCTION LISTING
Op Amp #
Analog Function Passive Components Design Equations
1 Low-Pass Filter R10, R11, R12, R13,C10, C11, C18
R10 = R11 = R12 = R13 = RC10 = C11 = CR9 = R14
Reference Voltage Bias R9, R14
Differential Amplifier Input R10, R11, R12, R13
Differential Amplifier Feedback R9
2 Low-Pass Filter R1, R2, R4, R5, C8, C9, C17
R1 = R2 = R4 = R5 = RC8 = C9 = CR3 = R7
Reference Voltage Bias R3, R7
Differential Amplifier Input R1, R2, R4, R5
Differential Amplifier Feedback R3
3 Low-Pass Filter R17, R18, R19, R20,C12, C13, C19
R17 = R18 = R19 = R20 = RC12 = C13 = CR16 = R21
Reference Voltage Bias R16, R21
Differential Amplifier Input R17, R18, R19, R20
Differential Amplifier Feedback R16
5 Low-Pass Filter R24, R25, R26, R27,C15, C16, C20
R24 = R25 = R26 = R27 = RC15 = C20 = CR23 = R28
Reference Voltage Bias R23, R28
Differential Amplifier Input R24, R25, R26, R27
Differential Amplifier Feedback R23
Common-mode f-3dB1
2RC---------------
Differential mode f-3dB1
2 2R C2---- C18+
--------------------------------------------
DifferentialAmplifierGain R92R-------=
Common-mode f-3dB1
2RC---------------
Differential mode f-3dB1
2 2R C2---- C17+
--------------------------------------------
DifferentialAmplifierGain R32R-------=
Common-mode f-3dB1
2RC---------------
Differential mode f-3dB1
2 2R C2---- C19+
--------------------------------------------
DifferentialAmplifierGain R162R--------=
Common-mode f-3dB1
2RC---------------
Differential mode f-3dB1
2 2R C2---- C16+
--------------------------------------------
DifferentialAmplifierGain R232R--------=
2013 Microchip Technology Inc. DS50002216A-page 11
dsPIC33EP512GM710
FIGURE 5: INTERNAL OP AMPS CIRCUIT SCHEMATIC
PIM: 101(VREF)
PIM: 56
PIM: 57
26
27Op Amp 1 PIM: 55 if enabled by R8
+
–
PIM: 102 (VREF)
PIM: 71
23
24Op Amp 2
+
–
PIM: 66
PIM: 67
34
33Op Amp 3
+
–
PIM: 73
1k 1k
470 pF
1k 1k
1000 pF
470 pF
Filter, Feedback and Bias Circuit
DC
47k47k
E
F
B
A
Differential Amplifier Gain 23.5 47k2 1k-------------------- 23.5= =
Differential mode f 3dB–1
2 2 1k 470pF2
---------------- 1000pF+
-------------------------------------------------------------------------------- 65kHz
Common mode f 3dB–1
2 1k 470pF -------------------------------------------- 340kHz
25
22
32
dsPIC33EP512GM710
DC
DC
DC
B
A
B
A
B
A
E
F
E
F
E
F
PIM: 72 if enabled by R6
PIM: 103 (VREF)
PIM: 68 if enabled by R15
Filter,Feedbackand BiasCircuit
Filter,Feedback
and Bypass
OA1BypassCircuit
PIM: 74
PIM: 81
51
76Op Amp 5
+
–
72
DC
B
A
E
FPIM: 77 if enabled by R22
Filter,Feedbackand BiasCircuit
PIM: 104 (VREF)
0k 0k
DNP
0k 0k
DNP
DNP
Op Amp 1 Bypass Circuit
DC
DNPDNP
E
F
B
A
Circuit
DNP DNP
DS50002216A-page 12 2013 Microchip Technology Inc.
dsPIC33EP512GM710
Prototyping Area
The prototyping area is located on the upper side of the Single-Dual Motor Control PIM (see Figure 6).
TP9 to TP18 and C40 to C45 are holes and pads avail-able for further enhancement and prototyping directly on the PIM. The right pads (marked with red) are internally
connected to Analog Ground (AGND). The rest of the pads are connected only to the nearest test point. With this configuration, extra SMD resistors or capacitors can be added to the circuit by soldering them on the pads, and then soldering blue wires from the test points to the place on the PIM where the added components are needed.
FIGURE 6: PROTOTYPING AREA
TP11 TP15 TP12 TP16 TP9
TP14 TP18 TP13 TP17 TP10
[C42] [C43] [C40]
[C45] [C44] [C41]
2013 Microchip Technology Inc. DS50002216A-page 13
Note the following details of the code protection feature on Microchip devices:
• Microchip products meet the specification contained in their particular Microchip Data Sheet.
• Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the intended manner and under normal conditions.
• There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data Sheets. Most likely, the person doing so is engaged in theft of intellectual property.
• Microchip is willing to work with the customer who is concerned about the integrity of their code.
• Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not mean that we are guaranteeing the product as “unbreakable.”
Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of ourproducts. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such actsallow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.
Information contained in this publication regarding deviceapplications and the like is provided only for your convenienceand may be superseded by updates. It is your responsibility toensure that your application meets with your specifications.MICROCHIP MAKES NO REPRESENTATIONS ORWARRANTIES OF ANY KIND WHETHER EXPRESS ORIMPLIED, WRITTEN OR ORAL, STATUTORY OROTHERWISE, RELATED TO THE INFORMATION,INCLUDING BUT NOT LIMITED TO ITS CONDITION,QUALITY, PERFORMANCE, MERCHANTABILITY ORFITNESS FOR PURPOSE. Microchip disclaims all liabilityarising from this information and its use. Use of Microchipdevices in life support and/or safety applications is entirely atthe buyer’s risk, and the buyer agrees to defend, indemnify andhold harmless Microchip from any and all damages, claims,suits, or expenses resulting from such use. No licenses areconveyed, implicitly or otherwise, under any Microchipintellectual property rights.
2013 Microchip Technology Inc.
QUALITY MANAGEMENT SYSTEM CERTIFIED BY DNV
== ISO/TS 16949 ==
Trademarks
The Microchip name and logo, the Microchip logo, dsPIC, FlashFlex, KEELOQ, KEELOQ logo, MPLAB, PIC, PICmicro, PICSTART, PIC32 logo, rfPIC, SST, SST Logo, SuperFlash and UNI/O are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries.
FilterLab, Hampshire, HI-TECH C, Linear Active Thermistor, MTP, SEEVAL and The Embedded Control Solutions Company are registered trademarks of Microchip Technology Incorporated in the U.S.A.
Silicon Storage Technology is a registered trademark of Microchip Technology Inc. in other countries.
Analog-for-the-Digital Age, Application Maestro, BodyCom, chipKIT, chipKIT logo, CodeGuard, dsPICDEM, dsPICDEM.net, dsPICworks, dsSPEAK, ECAN, ECONOMONITOR, FanSense, HI-TIDE, In-Circuit Serial Programming, ICSP, Mindi, MiWi, MPASM, MPF, MPLAB Certified logo, MPLIB, MPLINK, mTouch, Omniscient Code Generation, PICC, PICC-18, PICDEM, PICDEM.net, PICkit, PICtail, REAL ICE, rfLAB, Select Mode, SQI, Serial Quad I/O, Total Endurance, TSHARC, UniWinDriver, WiperLock, ZENA and Z-Scale are trademarks of Microchip Technology Incorporated in the U.S.A. and other countries.
SQTP is a service mark of Microchip Technology Incorporated in the U.S.A.
GestIC and ULPP are registered trademarks of Microchip Technology Germany II GmbH & Co. KG, a subsidiary of Microchip Technology Inc., in other countries.
All other trademarks mentioned herein are property of their respective companies.
© 2013, Microchip Technology Incorporated, Printed in the U.S.A., All Rights Reserved.
Printed on recycled paper.
ISBN: 978-1-62077-748-0
Microchip received ISO/TS-16949:2009 certification for its worldwide
DS50002216A-page 15
headquarters, design and wafer fabrication facilities in Chandler and Tempe, Arizona; Gresham, Oregon and design centers in California and India. The Company’s quality system processes and procedures are for its PIC® MCUs and dsPIC® DSCs, KEELOQ® code hopping devices, Serial EEPROMs, microperipherals, nonvolatile memory and analog products. In addition, Microchip’s quality system for the design and manufacture of development systems is ISO 9001:2000 certified.
DS50002216A-page 16 2013 Microchip Technology Inc.
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Philippines - ManilaTel: 63-2-634-9065Fax: 63-2-634-9069
SingaporeTel: 65-6334-8870Fax: 65-6334-8850
Taiwan - Hsin ChuTel: 886-3-5778-366Fax: 886-3-5770-955
Taiwan - KaohsiungTel: 886-7-213-7830
Taiwan - TaipeiTel: 886-2-2508-8600 Fax: 886-2-2508-0102
Thailand - BangkokTel: 66-2-694-1351Fax: 66-2-694-1350
EUROPEAustria - WelsTel: 43-7242-2244-39Fax: 43-7242-2244-393Denmark - CopenhagenTel: 45-4450-2828 Fax: 45-4485-2829
France - ParisTel: 33-1-69-53-63-20 Fax: 33-1-69-30-90-79
Germany - DusseldorfTel: 49-2129-3766400
Germany - MunichTel: 49-89-627-144-0 Fax: 49-89-627-144-44
Germany - PforzheimTel: 49-7231-424750
Italy - Milan Tel: 39-0331-742611 Fax: 39-0331-466781
Italy - VeniceTel: 39-049-7625286
Netherlands - DrunenTel: 31-416-690399 Fax: 31-416-690340
Poland - WarsawTel: 48-22-3325737
Spain - MadridTel: 34-91-708-08-90Fax: 34-91-708-08-91
Sweden - StockholmTel: 46-8-5090-4654
UK - WokinghamTel: 44-118-921-5800Fax: 44-118-921-5820
Worldwide Sales and Service
10/28/13
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