42 High-Temperature Electrical Characteristics

This section provides electrical characteristics for operating in an ambient temperature range of -40°C to +150°C. The specifications between -40°C to +150°C are identical to those shown in Electrical Characteristics for operation between -40°C to +125°C, with the exception of the parameters listed in this section. Parameters in this section begin with an H, which denotes High temperature. For example, Parameter HDC21 is equivalent to Parameter DC21 in the Electrical Characteristics chapter.

Absolute maximum ratings for the dsPIC33AK512MPS512 family devices are listed below. Exposure to these maximum rating conditions for extended periods can affect device reliability. Functional operation of the device at these or any other conditions above the parameters indicated in the operation listings of this specification is not implied.

Table 42-1. Absolute Maximum Ratings⁽¹⁾
Ambient temperature under bias	-40°C to +150°C
Storage temperature	-65°C to +150°C
Voltage on V_DD with respect to V_SS	-0.3V to +4.0V
Voltage on any pin that is not 5V tolerant with respect to V_SS⁽³⁾	-0.3V to (V_DD + 0.3V)
Voltage on any 5V tolerant pin with respect to V_SS when V_DD ≥ 3.0V⁽³⁾	-0.3V to +5.5V
Voltage on any 5V tolerant pin with respect to V_SS when V_DD < 3.0V⁽³⁾	-0.3V to +3.6V
Maximum current out of V_SS pin	200 mA
Maximum current into V_DD pin⁽²⁾	200 mA
Maximum current sunk/sourced by any 4x I/O pin	15 mA
Maximum current sunk/sourced by any 8x I/O pin	25 mA
Maximum current sunk by a group of I/Os between two V_SS pins⁽⁴⁾	80 mA
Maximum current sourced by a group of I/Os between two V_DD pins⁽⁴⁾	80 mA
Maximum current sunk by all I/Os⁽²⁾	200 mA
Maximum current sourced by all I/Os⁽²⁾	200 mA
Note: Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only, and functional operation of the device at those or any other conditions above those indicated in the operation listings of this specification is not implied. Maximum allowable current is a function of device maximum power dissipation (see DC Characteristics). See the Pin Diagrams section for the 5V tolerant pins. Not applicable to AV_DD and AV_SS pins.

Table 42-2. Operating MHz vs. Voltage
Characteristic	V_DD Range  (in Volts)	Temperature Range  (in °C)	Maximum MHz dsPIC33AK512MPS512 Family
—	3.0V to 3.6V	-40°C to +150°C	200

Table 42-3. Thermal Operating Conditions
Rating	Symbol	Min.	Typ.	Max.	Unit
High Temperature Devices Operating Junction Temperature Range Operating Ambient Temperature Range	T_J T_A	-40 -40	— —	+165 +150	°C °C
Power Dissipation: Internal Chip Power Dissipation: P_INT = V_DD x (I_DD – Σ I_OH)	P_D	P_INT + P_I/O			w
I/O Pin Power Dissipation: I/O = Σ ({V_DD – V_OH} x I_OH) + Σ (V_OL x I_OL)	P_D	P_INT + P_I/O			w
Maximum Allowed Power Dissipation	P_DMAX	(T_J – T_A)/θ_JA			W

Table 42-4. Operating Current (I_DD)
DC Characteristics	Operating Current		Standard Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Parameter No.	Typ.⁽¹⁾	Max.	Units	Conditions
Operating Current (I_DD)⁽²⁾
HDC21	45	65	mA	150°C	3.3V	20 MHz (N = 1, N2 = 7, N3 = 4, M = 70, F_VCO = 560 MHz, F_PLLO = 20 MHz)
HDC22	46	70	mA	150°C	3.3V	50 MHz (N = 1, N2 = 4, N3 = 3, M = 75, F_VCO = 600 MHz, F_PLLO = 50 MHz)
HDC23	49	75	mA	150°C	3.3V	100 MHz (N = 1, N2 = 3, N3 = 2, M = 75, F_VCO = 600 MHz, F_PLLO = 100 MHz)
HDC24	53	80	mA	150°C	3.3V	150 MHz (N = 1, N2 = 2, N3 = 2, M = 75, F_VCO = 600 MHz, F_PLLO = 150 MHz)
HDC25	57	85	mA	150°C	3.3V	200 MHz (N = 1, N2 = 3, N3 = 1, M = 75, F_VCO = 600 MHz, F_PLLO = 200 MHz)
Note: Data in the “Typ.” column are for design guidance only and are not tested. I_DD is primarily a function of the operating voltage and frequency. Other factors, such as I/O pin loading and switching rate, oscillator type, internal code execution pattern and temperature, also have an impact on the current consumption. Base Run current (I_DD) is measured as follows: Oscillator is switched to EC+PLL mode in software OSC1 pin is driven with external 8 MHz square wave with levels from 0.3V to V_DD – 0.3V OSC2 is configured as an I/O Watchdog Timer is disabled All I/O pins (except OSC1) are configured as outputs and driving low No peripheral modules are operating or being clocked (defined PMDx bits are all ‘`1`’s) JTAG is disabled `NOP` instructions are executed in `while(1)` loop

Table 42-5. Idle Current (I_IDLE)⁽²⁾
DC Characteristics	Idle		Standard Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Parameter No.	Typ.⁽¹⁾	Max.	Units	Conditions
HDC41	44	55	mA	150°C	3.3V	20 MHz (N = 1, N2 = 7, N3 = 4, M = 70, F_VCO = 560 MHz, F_PLLO = 20 MHz)
HDC42	44	60	mA	150°C	3.3V	50 MHz (N = 1, N2 = 4, N3 = 3, M = 75, F_VCO = 600 MHz, F_PLLO = 50 MHz)
HDC43	46	65	mA	150°C	3.3V	100 MHz (N = 1, N2 = 3, N3 = 2, M = 75, F_VCO = 600 MHz, F_PLLO = 100 MHz)
HDC44	47	70	mA	150°C	3.3V	150 MHz (N = 1, N2 = 2, N3 = 2, M = 75, F_VCO = 600 MHz, F_PLLO = 150 MHz)
HDC45	49	75	mA	150°C	3.3V	200 MHz (N = 1, N2 = 3, N3 = 1, M = 75, F_VCO = 600 MHz, F_PLLO = 200 MHz)
Note: Data in the “Typ.” column are for design guidance only and are not tested. Base Idle current (I_IDLE) is measured as follows: Oscillator is switched to EC+PLL mode in software OSC1 pin is driven with external 8 MHz square wave with levels from 0.3V to V_DD – 0.3V OSC2 is configured as an I/O FSCM is disabled Watchdog Timer is disabled All I/O pins (except OSC1) are configured as outputs and are driving low No peripheral modules are operating or being clocked (defined PMDx bits are all ‘`1`’s) JTAG is disabled Flash in standby with NVMPIDL = `1`

Table 42-6. Power-Down Current (I_PD)
DC Characteristics	Sleep		Standard Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Parameter No.	Typ.⁽¹⁾	Max.	Units	Conditions
Power-Down Current (I_PD)⁽²⁾
HDC60	39	55	mA	150°C	3.3V
Note: Data in the “Typ.” column are for design guidance only and are not tested. I_PD (Sleep) current is measured as follows: CPU core in sleep, oscillator is configured in EC mode and External Clock is active; OSCI is driven with external square wave from rail-to-rail (EC clock overshoot/undershoot < 250 mV required) CLKO is configured as an I/O input pin All I/O pins are configured as output low MCLR = V_DD, WDT and FSCM are disabled All peripheral modules are disabled (PMDx bits are all set) JTAG is disabled

Table 42-7. I/O Pin Input Leakage Specifications
Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param  No.	Symbol	Characteristic	Min.	Max.	Units	Conditions
HDI50	I_IL	Input Leakage Current⁽¹⁾
		I/O Pins 5V Tolerant⁽²⁾	-1.5	8.5	µA	V_PIN = V_SS or V_DD
		I/O Pins Not 5V Tolerant⁽²⁾	-1.5	1.5	µA
		MCLR	-1.5	8.5	µA
		OSCI	-1.5	1.5	µA	MS and HS modes
Note: Negative current is defined as current sourced by the pin. See the Pin Diagrams section for the 5V tolerant I/O pins.

Table 42-8. Internal FRC Accuracy
Standard Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Parameter No.	Characteristic	Min.	Max.	Units	Conditions
Internal FRC Accuracy @ FRC Frequency = 8 MHz⁽¹⁾
HF20	FRC	-2	2	%	-40°C ≤ T_A ≤ +150°C
HF21	BFRC	-2	2	%	-40°C ≤ T_A ≤ +150°C
HF22	BFRC/244-LPRC	-2	2	%	-40°C ≤ T_A ≤ +150°C
Note: Frequency is calibrated at +25°C and 3.3V. TUNx bits can be used to compensate for temperature drift.

Table 42-9. DC Characteristics: PWM Delta Current⁽¹⁾
DC Characteristics	Standard Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Typ.	Max.	Units	Conditions
HDC100	3.9	5.2	mA	+150ºC, 3.3V	PWM output 500 kHz. PWM input 800 MHz. First instance of PWM generator (PGx).
HDC101	2.43	3.35	mA	+150ºC, 3.3V	PWM output 500 kHz. PWM input 800 MHz. Additional instance of PWM Generator (PGx).
Note: Does not include PLL or CLKGEN currents. PWM in Standard Resolution mode. Both PWMxH and PWMxL pins are driven. Parameters characterized but not tested in manufacturing. Multiple instance PWM current = HDC100 + n(HDC101) where n is the number of PWM Generators (PGx).

Table 42-10. DC Characteristics: ADC Δ Current⁽¹⁾
DC Characteristics	Standard Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Typ.	Max.	Units	Conditions
HDC120	2.7	3.85	mA	+150ºC, 3.3V	Input frequency 320 MHz. ADC clock 80 MHz. TAD 12.5 ns. Continuous conversion of single channel of single ADC core. First instance of ADC.
HDC121	3.13	4.46	mA	+150ºC, 3.3V	Input frequency 320 MHz. ADC clock 80 MHz. TAD 12.5 ns. Continuous conversion of single channel of single ADC core. Additional instance of ADC.
Note: Parameters are characterized but not tested in manufacturing. Does not include PLL or CLKGEN currents. Multiple instance ADC current = HDC120 + n(HDC121) where n is the number of ADC instances.

Table 42-11. DC Characteristics: Comparator + DAC Delta Current⁽¹⁾
DC Characteristics	Standard Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Typ.	Max.	Units	Conditions
HDC130	2.64	3.5	mA	+150ºC, 3.3V	Input frequency 500 MHz. First instance of DAC + Comparator.
HDC131	2.5	3.2	mA	+150ºC, 3.3V	Input frequency 500 MHz. Additional instance of DAC + Comparator.
Note: Parameters are characterized but not tested in manufacturing. Does not include PLL or CLKGEN currents. DAC output pin driven to V_DD/2. CMP input at V_SS. Multiple instance DAC+CMP current = HDC130 + n(HDC131) where n is the number of DAC+CMP instances.

Table 42-12. Op Amp Delta Current⁽¹⁾
Param No.	Typ.	Max.	Units	Conditions
HDC140	1.3	1.65	mA	+150ºC, 3.3V	High-power mode first instance of Op Amp.
HDC141	1.3	1.65	mA	+150ºC, 3.3V	High-power mode additional instance of Op Amp.
HDC142	0.14	0.34	mA	+150ºC, 3.3V	Low-power mode first instance of Op Amp.
HDC143	0.14	0.34	mA	+150ºC, 3.3V	Low-power mode additional instance of Op Amp.

Table 42-13. DACx Module Specifications
Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Symbol	Characteristic	Min.	Typ.	Max.	Units	Comments
HDA05	EOFF	Offset Error⁽¹⁾	-10	—	20	LSb	Internal node at comparator input
HDA06	EG	Gain Error⁽¹⁾	-5	—	35	LSb	Internal node at comparator input
Note: DAC output codes from 5% to 95%. DAC operational at values <5% or >95%.

Table 42-14. Current Bias Generator Specifications
Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Symbol	Characteristic	Min.	Typ.	Max.	Units	Conditions
HCC03	I10SRC	10 µA Source Current	8	—	12	µA	ISRCx pin
HCC04	ISELOUT	0-200 µA Selectable Output Source Current	-15	—	15	%	IBIASx pin

Table 42-15. UREF Module Specification
Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Min.	Typ.	Max.	Units	Conditions
HUR10	-9	±5	+9	mV	—

Table 42-16. ADC Module Specifications
Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Symbol	Characteristic	Min.	Typ.	Max	Units	Conditions
HAD21	INL	Integral Nonlinearity	-4	—	+4	LSb	V_DD = 3.3V, AV_DD = 3.3V Gain error uncompensated
HAD24	OERR	Offset Error	-35	—	+5	LSb	V_DD = 3.3V, AV_DD = 3.3V Gain error uncompensated

Table 42-17. Operational Amplifier Specifications
Operating Conditions: 3.0V to 3.6V (unless otherwise stated) Operating temperature -40°C ≤ T_A ≤ +150°C for High temperature
Param No.	Symbol	Characteristic	Min.	Typ.	Max	Units	Comments
HOA03	V_IOFF	Input Offset Voltage⁽¹⁾	-2.5	-1/+1	+2.5	mV	-40C - 150C Unity gain configuration, High-Power mode
Note: These parameters are not characterized or tested in manufacturing.