Compressor having a pressurized case

The invention claimed is: 1. A compressor system for an air conditioning service system, comprising: a compressor including a compressor case and a compressor head; an inlet; an outlet; a low side passage fluidly connecting the inlet to the compressor head; a high side passage fluidly connecting the outlet to the compressor head; a low side return passage fluidly connecting the compressor case with the low side passage; a high side return passage fluidly connecting the compressor case with the high side passage; a valve arrangement including a high side portion and a low side portion, the low side portion positioned in the low side return passage and configured to control flow in the low side return passage and the high side portion positioned in the high side return passage and is configured to control flow through the high side return passage; and wherein: the valve arrangement is configured such that the high side portion opens to connect the compressor case to the high side passage when a first pressure in the compressor case is less than or equal to a first predetermined threshold; and the valve arrangement is configured such that the high side portion closes to disconnect the compressor case from the high side passage when the first pressure is greater than the first predetermined threshold. 2. The compressor system of claim 1 , wherein: the valve arrangement is configured such that the low side portion closes to disconnect the compressor case from the low side passage when a second pressure in the low side passage is greater than a second predetermined threshold; and the valve arrangement is configured such that the low side portion opens to connect the compressor case to the low side passage when the second pressure is less than or equal to the second predetermined threshold. 3. The A compressor system for an air conditioning service system, comprising: a compressor including a compressor case and a compressor head; an inlet; an outlet; a low side passage fluidly connecting the inlet to the compressor head; a high side passage fluidly connecting the outlet to the compressor head; a low side return passage fluidly connecting the compressor case with the low side passage; and a valve arrangement positioned at least partially in the low side return passage and configured to control flow in the low side return passage, the valve arrangement including a first valve positioned at least partially in the low side return passage and configured to control flow in the low side return passage; a first pressure sensor configured to generate a first pressure signal corresponding to a first pressure in the low side passage; a second pressure sensor configured to generate a second pressure signal corresponding to a second pressure in the compressor case; and a controller configured to obtain a first pressure signal from the first pressure sensor and the second pressure signal from the second sensor and to operate the first valve to open and close based upon a pressure difference between the first pressure signal and the second pressure signal. 4. The compressor system of claim 3 , wherein the controller is configured to operate the first valve to open upon initiation of a recovery operation, to close upon the first and second pressure signals being equal, and to open upon the first pressure signal being equal to or less than a predetermined threshold. 5. The compressor system of claim 4 , further comprising: a high side return passage fluidly connecting the compressor case with the high side passage, wherein the valve arrangement includes a second valve positioned in the high side return passage and configured to control flow through the high side return passage, and wherein the controller is further configured to open the second valve during operation of the compressor to connect the high side passage to the compressor head and to close the second valve upon the first pressure signal being greater than a case pressure threshold. 6. A method of claim of operating a compressor system of an air conditioning service system, comprising: moving pressurized fluid into a compressor case; operating a compressor head to move fluid between a low side passage, which fluidly connects an inlet to a compressor head of the compressor system, and a high side passage, which fluidly connects an outlet to the compressor head; moving fluid from the compressor case through a valve arrangement located at least partially in a low side return passage to the low side passage after operation of the compressor head, the low side return passage fluidly connecting the compressor case with the low side passage; sensing a first pressure in the low side passage; sensing a second pressure in the compressor case; and operating a first valve of the valve arrangement, which is located at least partially in the low side return passage, to open and close the low side return passage to control flow in the low side return passage, based upon a pressure difference between the first pressure and the second pressure. 7. The method of claim 6 , further comprising: operating the first valve to open upon initiation of a recovery operation; operating the first valve to close upon the first and second pressures being equal; and operating the first valve to open upon the first pressure being equal to or less than a predetermined threshold. 8. The compressor system of claim 7 , further comprising: operating a second valve of the valve arrangement, which is positioned in a high side return passage between the compressor case and the high side passage, to connect the high side passage to the compressor head during the operation of the compressor head; and operating the second valve to close upon the first pressure being greater than a case pressure threshold.