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AM3023-wDyz-000a | Servomotor 1.16 Nm (M0), F2 (58 mm) (service phase)

AM3023-wDyz-000a | Servomotor 1.16 Nm (M0), F2 (58 mm) (service phase)

AM3023-wDyz-000a | Servomotor 1.16 Nm (M0), F2 (58 mm) (service phase)

AM3023-wDyz-000a | Servomotor 1.16 Nm (M0), F2 (58 mm) (service phase)

AM3023-wDyz-000a | Servomotor 1.16 Nm (M0), F2 (58 mm) (service phase)

The AM3023 low-inertia servomotor is suitable for drive solutions with highest demands on dynamics and performance in the 400 V AC voltage range. The standstill torque of the motor depends on the winding and is in the range of 1,13…1.16 Nm. The low-inertia servomotor with flange code F2 (58 mm) and motor length 3 has a shaft diameter b = 9 k6 and a free shaft end of d = 20 mm.

Product status:

regular delivery (not recommended for new projects) | recommended alternative: AM8023

Product variantsStandstill torqueStandstill currentRated speed
AM3023-wCyz-000a1.13 Nm1.41 A5500 min-1
AM3023-wDyz-000a1.16 Nm2.19 A8000 min-1

Product information

Data for 400 V ACAM3023-wDyz-000a
Motor typesynchronous servomotors
Nominal voltage480 V AC
Standstill torque1.16 Nm
Rated torque0.92 Nm
Peak torque4.43 Nm
Rated speed8000 min-1
Rated power0.77 kW
Standstill current2.19 A
Peak current11.0 A
Torque constant0.52 Nm/A
Rotor moment of inertia0.216 kgcm²
Motor feedbackresolver, BiSS B, EnDat 2.1
Coolingconvection
Connection methodM23
Ambient temperature (operation)+5…+40 °C
Approvals/markingsCE, cURus, EAC

All electric quantities are RMS values.

Options such as shaft seal, holding brake, absolute encoder can lead to a reduction of the nominal rating.

Housing dataAM30xx
Protection ratingIP54
Design formflange-mounted according to IM B5, IM V1, IM V3
Materialaluminum die-cast
Coating/surfacecoated
DimensionsAM3023-wDyz-000a
a40 j6
b9 k6
d20 mm
l63 mm
r58 mm
k (encoder) (without brake)133.4 mm
k (encoder) (with brake)167.5 mm
k (resolver) (without brake)133.4 mm
k (resolver) (with brake)167.5 mm
Order reference
AM3023-wDyz-000a
uflange code
vmotor length
w = 0smooth shaft (standard)
w = 1shaft with groove and feather key according to DIN 6885
w = 2shaft with IP65 sealing ring and smooth shaft (AM301x to AM303x)
w = 2shaft with IP65 sealing ring and smooth shaft (AM304x to AM308x)
w = 3shaft with IP65 sealing ring and shaft with groove and feather key (AM301x to AM303x)
w = 3shaft with IP65 sealing ring and shaft with groove and feather key (AM304x to AM308x)
xwinding code A…T
y = 0resolver, 2-pole
y = 1single-turn absolute encoder, EnDat 2.1, absolute position within one revolution, electronic identification plate, AM302x…AM304x: 512 sine periods per revolution, AM305x…AM308x: 2048 sine periods per revolution
y = 2multi-turn absolute encoder, EnDat 2.1, absolute position within 4096 revolutions, electronic identification plate, AM302x…AM304x: 512 sine periods per revolution, AM305x…AM308x: 2048 sine periods per revolution
y = 3single-turn absolute encoder, BiSS, absolute position within one revolution, electronic identification plate, AM302x…AM308x: 2048 sine periods per revolution
y = 4multi-turn absolute encoder, BiSS, absolute position within 4096 revolutions, electronic identification plate, AM302x…AM308x: 2048 sine periods per revolution
y = Asingle-turn absolute encoder, Hiperface, absolute position within one revolution, electronic identification plate, AM301x: 16 sine periods per revolution
y = Bmulti-turn absolute encoder, Hiperface, absolute position within one revolution, electronic identification plate, AM301x: 4,096 sine periods per revolution
z = 0without holding brake
z = 1with holding brake for AM302x…AM308x
a = 0rotatable angular connectors for motor and feedback cable (only for AM302x up to AM307x)
a = 1supply cable 0.5 m with non-detachable plugs (only for AM301x/AM302x), only for resolver (y = 0)
a = 3vertical connectors for motor and feedback cables (only for AM302x up to AM307x)
a = 5yTec plug (only for AM301x)
a = 6motor connection via terminal box (only for AM308x)
The options cannot be installed in the field. Options such as shaft seal, holding brake, absolute encoder can lead to a reduction of the nominal rating.

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