5.4 Supply Voltages and Current Consumption

All parameters refer to GND (backplane) and are valid for Tamb = -40°C to +85°C, VVS = 1.9-3.6V (3V application) and 2.4-5.5V (5V application) over all process tolerances unless otherwise specified. Typical values are given at VVS = 5V, Tamb = 25°C and for a typical process unless otherwise specified. Crystal oscillator frequency fXTO = 24.305 MHz. Standard EEPROM settings are used unless marked with *1.

Table 5-3. Supply Voltages and Current Consumption
No.ParametersTest ConditionsPinSymbolMin.Typ.Max.UnitType*
1.00Supply voltage range VS3V application*113VVS1.93.03.6VA
5V application2.45.05.5
1.05Supply voltage rise time13VVS_rise1V/µsD
1.10Supply voltage range VS_PA3V application*18VVS_PA1.933.6VA
5V application (1)3B
5V application (2)2.2B
1.20

OFFMode Current consumption

3V application*1 8,13 IOFFMode_3V5nA
Tamb = 25°C150B
Tamb = 85°C600B
5V application13 IOFFMode_5V5000B
1.30IDLEMode(RC) Current consumptionSRC active, AVR in Power-down mode, temperature range -40°C to +65°C 13IIDLEMode(RC) 50 90μA B
1.40IDLEMode(XTO) Current consumptionXTO active, AVR in Power-down mode13IIDLEMode(XTO)250400μAB
1.60IDLEMode(XTO) Current consumptionWith active CLK_OUT

fXTO/6 = 4.05 MHz

CLOAD_CLK_OUT = 10 pF

VVS = 5.5V

AVR running with

fXTO/4 = 6.076 MHz

13,22IIDLEMode(XTO)_CLK_OUT21.32.5mAB
1.80

RXMode Current consumption

AVR running with fXTO/4 13IRXMode1 mA
fRF = 315 MHz*19.212.7B
fRF = 433.92 MHz9.813.2A
fRF = 868.3 MHz*110.414.6A
fRF = 915 MHz*1 10.514.7B
2.00 TXMode Current consumptionVVS = 3V(7), 8, 13ITXModemA
Pout = +6 dBm
fRF = 315 MHz*18.911B
fRF = 433.92 MHz9.412B
fRF = 868.3 MHz*111.514.5B
fRF = 915 MHz*111.715B
Pout = +10 dBm*1
fRF = 315 MHz*113.117B
fRF = 433.92 MHz13.818.5B
fRF = 868.3 MHz*117.422.5B
fRF = 915 MHz*117.423B
Pout = +14 dBm*1
fRF = 315 MHz*124.333B
fRF = 433.92 MHz26.336B
fRF = 868.3 MHz*132.745B
fRF = 915 MHz*133.546B
Note: *1 Type means: A = 100% tested, B = 100% correlation tested, C = Characterized on samples and D = Design parameter. A pin number in brackets means that they are measured matched to 50Ω on the application board.